CN101150308B - Touch induction device, method and its application - Google Patents

Touch induction device, method and its application Download PDF

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CN101150308B
CN101150308B CN2006101270408A CN200610127040A CN101150308B CN 101150308 B CN101150308 B CN 101150308B CN 2006101270408 A CN2006101270408 A CN 2006101270408A CN 200610127040 A CN200610127040 A CN 200610127040A CN 101150308 B CN101150308 B CN 101150308B
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contact
signal
induction
order
unit
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CN101150308A (en
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林泰宏
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Priority to PCT/CN2007/070750 priority patent/WO2008040247A1/en
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03KPULSE TECHNIQUE
    • H03K17/00Electronic switching or gating, i.e. not by contact-making and –breaking
    • H03K17/94Electronic switching or gating, i.e. not by contact-making and –breaking characterised by the way in which the control signals are generated
    • H03K17/96Touch switches

Abstract

This invention relates to a contact inducting device including a contactor and a subject, and said contacter generates and emits a special signal and the subject receives and identifies the signal, in which, they are two independent things and supplied by different supplies, when the contactor contacts the subject for at least one time lasting a preset while, said subject will reacts to display that the contactor triggers it. This invention provides a method for contact induction.

Description

Touch induction device, method and application thereof
Technical field
The present invention relates to a kind of induction installation, relate in particular to a kind of touch induction device.
Background technology
At present, touch switch has been widely used in household appliances, in order to increase the convenience and the durability of switch.For example: the touching desk lamp, when the user touches desk lamp, just trigger the internal circuit of desk lamp and put bright desk lamp; When the user touches this desk lamp of having lighted again, to trigger the internal circuit of desk lamp once again and extinguish desk lamp, this kind triggering method can produce the principle of electric charge and carry out circuit design when utilizing two conductors close, this kind principle then is known as discrete capacity effect (Stray Capacitor Effect).
A kind of invention that utilizes this principle, as " electrically contact inductor and use this to electrically contact the human-computer interface device of inductor " that the Taiwan patent is put down in writing for No. 200540715, it comprises a contact detecting and an activation signal generator.This contact detecting has at least one touch panel, and according to whether there being object to contact with plate herein, and produce first signal and secondary signal; This activation signal generator then responds the delay-time difference of this first signal and secondary signal part and produces activation signal.Therefore, can be not enough but when having the electric charge accumulation characteristics that surpasses to a certain degree in object conductivity, confirming whether object contact with touch panel, and increase the reliability of operating.Yet in actual use, the touch switch of the discrete capacity effect of this utilization can be in order to respond to touching of nonspecific objects such as human body or animal, maybe can respond to the entity contact of other any object greater than predetermined capacitance value, in other words, it only also can't be set at responds at the entity contact of special object, and can't get rid of other entity contact induction without the nonspecific object of setting.
For these reasons, then must develop a kind of contact induction installation of responding to the entity contact of particular artifact, it can get rid of other simultaneously without the entity contact induction of specifying object.
Summary of the invention
One of the object of the invention is to provide a kind of touch induction device, method and application thereof, by set signal specific between object, receives via sending out of this signal specific, makes the present invention have the effect of forbidding or contact perception at the contact of particular artifact.
One of the object of the invention is to provide a kind of touch induction device, method and application thereof, by between a plurality of objects, setting signal specific, and can be with this signal specific channelizing, thereby reach the effect of selecting group's identification.
One of the object of the invention is to provide a kind of touch induction device, method and application thereof, by between object, setting signal specific, and by the signal beyond this signal specific of filtering, isolation and noise attentuation, thereby the triggering of getting rid of human body or other nonspecific object is disturbed.
For achieving the above object, touch induction device of the present invention, it mainly comprises contact and object, this contact comprises the signal generation unit in order to producing signal specific, and first contact mat is electrically connected to this signal generation unit, in order to send this signal specific; This object comprises that second contact mat in order to receive this signal specific, reaches signal processing unit and is electrically connected to this second contact mat, in order to this signal specific of identification; Wherein, this contact and this object are not altogether and by two independent objects of different electrical power supply, when this first contact mat entity contacts this second contact mat at least once and after continuing at least one scheduled time, this object is then carried out reaction and triggered this object to show this contact.
According to another characteristics of the present invention, contact induction of the present invention system, it mainly comprises first contact, second contact, first object and second object.This first contact comprises the first signal generation unit, and in order to produce first signal, the described first signal generation unit is electrically connected to the surface of described first contact, and sends this first signal via the surface of this first contact; This second contact comprises the secondary signal generation unit, and in order to produce secondary signal, described secondary signal generation unit is electrically connected to the surface of described second contact, and sends this secondary signal via the surface of this second contact; This first object comprises first signal processing unit, and described first signal processing unit is electrically connected to the surface of described first object, receives this secondary signal via the surface of this first object, and carries out identification; This second object comprises the secondary signal processing unit, and described secondary signal processing unit is electrically connected to the surface of described second object, receives this first signal via the surface of this second object, and carries out identification; Wherein, this first contact, second contact, first object and this second object are not altogether and by the independent object of different electrical power supply, when this first contact entity contacts this second object at least once and after continuing at least one first scheduled time, this second object is then carried out second reaction to show that this first contact triggers this second object; When this second contact entity contacts this first object at least once and after continuing at least one second scheduled time, this first object is then carried out first reaction to show that this second contact triggers this first object.
The present invention provides a kind of contact induction method in addition, in order to induction contact entity contact object, comprises the following steps: to provide the signal generation unit to be electrically connected to the surface of contact, to produce signal specific; This contact entity is contacted this object at least once and continue at least one scheduled time; The surface that provides signal processing unit to be electrically connected to described object is with this signal specific of identification; And carry out reaction to show that this contact triggers this object; Wherein, this contact and this object are not altogether and by two independent objects of different electrical power supply.
The present invention provides a kind of contact induction method again, comprises the following steps: to provide the first signal generation unit to be electrically connected to the surface of first contact, and sends first signal via the surface of described first contact; The surface that provides the secondary signal generation unit to be electrically connected to second contact, and send secondary signal via the surface of described second contact; The surface that provides first signal processing unit to be electrically connected to first object, and receive described secondary signal to carry out identification via the surface of described first object; And the surface that provides the secondary signal processing unit to be electrically connected to second object, and receive described first signal to carry out identification via the surface of described second object; Utilize this first contact entity to contact this second object at least once and continue at least one first scheduled time, then this second object is then carried out second reaction to show that this first contact triggers this second object; And utilize this second contact entity to contact this first object at least once and continue at least one second scheduled time, then this first object is then carried out first reaction to show that this second contact triggers this first object; Wherein, this first contact, second contact, first object and this second object are not altogether and by the independent object of different electrical power supply.
According to touch induction device of the present invention, described object can be any form, and can be the Portable object of independent power supply.Touch induction device of the present invention can be applicable to fight recreation, sword hits match and play house device etc. need be at the field of particular artifact entity contact induction.
Description of drawings
Fig. 1 is the calcspar of the touch induction device of first embodiment of the invention;
Fig. 1 a is the circuit diagram of signal generation unit of the touch induction device of Fig. 1, and the signal specific that it produced is the signal of telecommunication;
Fig. 1 b is the circuit diagram of signal processing unit of the touch induction device of Fig. 1, and the signal specific that it received is the signal of telecommunication;
Fig. 2 a is the frequency diagram of the signal that signal generator produces of the touch induction device of Fig. 1;
Fig. 2 b is the frequency diagram of the signal that encoder produces of the touch induction device of Fig. 1, and wherein this signal does not pass through frequency division;
Fig. 2 c is the frequency diagram of receiving terminal received signal of the touch induction device of Fig. 1, and it shows that this signal has noise jamming;
Fig. 2 d is the frequency diagram after the removal interference units of the touch induction device of Fig. 1 is removed noise;
Fig. 3 a is the circuit diagram of signal generation unit of the touch induction device of Fig. 1, and the signal specific that it produced is a light signal;
Fig. 3 b is the circuit diagram of signal processing unit of the touch induction device of Fig. 1, and the signal specific that it received is a light signal;
Fig. 3 c is the frequency diagram of the light signal that receiving terminal received of the touch induction device of Fig. 3 b;
Fig. 3 d is the frequency diagram of the signal of telecommunication after the converting unit of the touch induction device of Fig. 3 b is changed;
Fig. 4 a is the circuit diagram of signal generation unit of the touch induction device of Fig. 1, and the signal specific that it produced is a magnetic signal;
Fig. 4 b is the circuit diagram of signal processing unit of the touch induction device of Fig. 1, and the signal specific that it received is a magnetic signal;
Fig. 5 is in the touch induction device of Fig. 3 b and 4b, in order to the circuit diagram of supply positive-negative power;
Fig. 6 is the calcspar of the contact induction system of second embodiment of the invention;
Fig. 7 a is the contact induction system applies of second embodiment of the invention is fought recreation in two people a schematic diagram;
Fig. 7 b is the contact induction system applies of second embodiment of the invention is fought recreation in grouping a schematic diagram;
Fig. 8 is the schematic diagram that the contact induction system applies of second embodiment of the invention is played in two people's gunslingings;
Fig. 9 hits the schematic diagram of match for the contact induction system applies of second embodiment of the invention in two people's swords;
Figure 10 a is that the contact induction system applies of second embodiment of the invention is in the schematic diagram of play house;
Figure 10 b is the contact induction system applies of second embodiment of the invention another schematic diagram in play house.
Description of reference numerals
1 contact, 12 signal generation units
122 signal generators, 124 encoders
126 transmitting terminals, 14 first contact mats
16 power supplys, 2 objects
22 signal processing units, 222 signal processors
222A removes interference units 224 decoders
226 receiving terminals, 228 converting units
24 second contact mats, 26 power supplys
28 contact display unit S signal specific
3,3a, 3b first contact 3 ' first are thrown part
32 first signal generation units, 322 first signal generators
324 encoders, 326 first transmitting terminals
34 first radio receiving units, 341 wireless decoding devices
36 first forbidden energy unit, 38 first reset cells
39 power supply S 1First signal
4,4a, 4b second contact 4 ' second are thrown part
42 secondary signal generation units, 422 secondary signal generators
424 encoders, 426 second transmitting terminals
44 second radio receiving units, 441 wireless decoding devices
46 second forbidden energy unit, 48 second reset cells
49 power supply S 2Secondary signal
5,5a, 5b first object 52 first signal processing units
522 first receiving terminals, 524 converting units
526 decoders, 528 first signal processors
528A removes interference units 54 contact display units
56 first wireless transmitting unit, 561 wireless encoding devices
58 power supply S T1First triggering signal
6,6a, 6b second object 62 secondary signal processing units
622 second receiving terminals, 624 converting units
626 decoders, 628 secondary signal processors
628A removes interference units 64 contact display units
66 second wireless transmitting unit, 661 wireless encoding devices
68 power supply S T2Second triggering signal
7,7 ' the 3rd object 71,71 ' radio receiving unit
711,711 ' wireless decoding device A, B, C, D personage
E play house JP, JP1 jumper
122a crystal oscillator 122b D flip-flop
124a D flip-flop 222a logical circuit
222b single-shot trigger circuit 224a chip
224b crystal oscillator 228a, 228b gain amplifier
228c gain amplifier 228d potential comparator
Embodiment
In order to allow above and other objects of the present invention, feature and the advantage can be more obvious, the embodiment of the invention cited below particularly, and cooperate appended diagram, be described in detail below.
Please refer to shown in Figure 1ly, it discloses the touch induction device of first embodiment of the invention, and it comprises contact 1 and object 2.This contact 1 and this object 2 be not altogether and by two independent objects of different electrical power supply, and this object 2 is set at the entity that only can respond to this contact 1 and contacts.This contact 1 and object 2 are preferably the Portable object of any kenel, but also can be designed as the fixed object of any kenel according to this object 2 of difference of execution mode.Entity of the present invention contact is meant that this contact 1 contacts with single-point single between the object 2.
This contact 1 comprises signal generation unit 12, first contact mat 14 and power supply 16.This power supply 16 is power supply independently, and it is preferably DC power supply, required electric power when supplying these signal generation unit 12 operations.This signal generation unit 12 is in order to producing signal specific S, and sends this signal specific S via this first contact mat 14; This first contact mat 14 can be formed on the part or all of surface of this contact 1.
This signal generation unit 12 comprises signal generator 122, encoder 124 and transmitting terminal 126.This signal generator 122 is in order to produce this signal specific S; This encoder 124 is coupled to this signal generator 122, and this signal specific S is encoded, and for this signal specific S being converted to the signal of channelizing, also can utilize alternate manner to reach the purpose of signal encoding in other embodiments in the present embodiment; This transmitting terminal 126 is electrically connected to this encoder 124, in order to encoded this signal specific S is issued to this first contact mat spare 14.
Referring again to shown in Figure 1, this object 2 of first embodiment of the invention comprises signal processing unit 22, second contact mat 24, power supply 26 and contact display unit 28.This power supply 26 is power supply independently, and it is preferably DC power supply, required electric power when supplying this signal processing unit 22 and 28 operations of this contact display unit.This second contact mat 24 is in order to receive this signal specific S, and it can be formed on the part or all of surface of this object 2.In the 1st figure, be that the dimension scale of this first contact mat 14 and second contact mat 24 is amplified for convenience of description, but therefore do not limit its execution mode.
This signal processing unit 22 couples this second contact mat 24, this signal specific S that is received via this second contact mat 24 in order to identification, this signal processing unit 22 comprises signal processor 222, and it has the interference units of removal 222A, decoder 224 and receiving terminal 226.This receiving terminal 226 receives this signal specific S via this second contact mat 24, this decoder 224 via this signal specific S via these encoder 124 codings that this receiving terminal 226 is received, just only has this signal specific S can be transferred into this signal processor 222 in order to decipher; At last by these signal processor 222 identifications and this decoded signal specific S of processing, when the removal interference units 222A of this signal processor 222 contacts this first contact mat 14 or second contact mat 24 in order to remove other any object entity, the interference that this signal specific S is caused, for example: skin electric current or human body the electrically charged interference that this signal specific S is caused, and should remove the mode of disturbing is with filtering, isolation and noise attentuation mode are carried out, wherein a kind of execution mode is for preestablishing a frequency range (frequency band) with this signal specific S and isolating this frequency range signal in addition, so this signal processing unit 22 only is considered as useful signal with the signal in this frequency range, this frequency range then is called effective frequency range, and the signal beyond this frequency range then disturbs to remove by noise attentuation and filtering.This is removed interference units 222A and captures signal waveform of the oscillator signal at least 2 these effective frequency zones as signal recognition under the preferable case in addition, this is because the contact interference can cause this signal specific S discrete or discontinuous, utilize the acquisition and the identification of this signal, can allow the recognition methods of identification discontinuous signal, for example press to rise to check and differentiate with frequency by current potential, and at least 2 signal waveforms of identification discontinuous signal disperse or the discontinuous problem that is difficult for identification that causes by this signal specific of such solution S as the identification door.
What in an embodiment of the present invention, this signal specific S can be for the signal of telecommunication, magnetic signal or light signal is wherein a kind of.When this signal specific S is the signal of telecommunication, it can be the periodic signal of voltage or electric current, at this moment, this first contact mat 14 and this second contact mat 24 are preferably conductive material, then when these first contact mat, 14 entities contact this second contact mat 24, this signal specific S can send via the surface of this first contact mat 14, and receives via the surface of this second contact mat 24.In addition, this first contact mat 14 and this second contact mat 24 itself also can utilize non-conductive material to make, but its surface partly or entirely respectively by plating, coating, drape or the mode of twining conductive material reaching the purpose that can conduct this signal specific S, and this conductive material is coupled to transmitting terminal 126 and receiving terminal 226 respectively.At this moment, when these first contact mat, 14 entities contact this second contact mat 24 at least once, and when being at least 2 electric signal waveforms time of contact, this contact 1 can successfully trigger this object 2.
When this signal specific S is light signal, this light signal is a light-sensing signal, this moment this contact 1 126 of transmitting terminals for can send the optical signal transmitting end, the variation that its variation that drives Different Light based on the signal of telecommunication produces the power of light or tone to be forming periodic signal, and sends via this first contact mat 14.Simultaneously, this object 2 is preferably and comprises that in addition converting unit 228 becomes the signal of telecommunication in order to change this light signal.This converting unit 228 makes the power of light or the formed periodic signal of tone variations be converted into the signal of telecommunication according to the variation of these receiving terminal 226 receiving optical signals, sends into this signal processor 222 after decoding.Scrutablely be, this moment, this first contact mat 14 was preferably the light emitted body, and this second contact mat 24 be the light sensation material, and this signal specific S sends via this first contact mat 14, and via these second contact mat, 24 receptions.In addition, be set with energy intensity under these converting unit 228 preferable case and receive door, the light energy intensity of being responded to when it contacts this object 2 for this contact 1 entity can be in order to distinguish whether entity contacts this object 2 to this contact 1.
When this signal specific S is magnetic signal, it can be magnetic field or flux signal, this moment, 126 of the transmitting terminals of this contact 1 were the transmitting terminal that can send magnetic field or flux signal, it makes magnetic force produce the variation of power or magnetic polarity and form periodic signal based on the variation of the signal of telecommunication, and sends via this first contact mat 14.Simultaneously, this object 2 is preferably and comprises that in addition converting unit 228 becomes the signal of telecommunication in order to the conversion magnetic signal.This converting unit 228 makes the formed periodic signal of variation of variation of magnetic force or magnetic polarity be converted into the signal of telecommunication according to the variation of these receiving terminal 226 reception magnetic signals, sends into this signal processor 222 after decoding.Scrutablely be, this moment, this first contact mat 14 and second contact mat 24 were preferably magnetic conductive material, and this signal specific S sends via the surface of this first contact mat 14, and received via the surface of this second contact mat 24.In addition, be set with energy intensity under these converting unit 228 preferable case and receive door, the magnetic energy intensity of being responded to when it contacts this object 2 for this contact 1 entity can be in order to distinguish whether entity contacts this object 2 to this contact 1.
By like this, 2 of this objects not only can be responded to the entity contact of this contact 1, the entity contact induction that can get rid of simultaneously other nonspecific object, for example: the oscillator signal that this signal specific S is converted to channelizing via this encoder 124, entity contact induction with the restriction particular artifact, just, by compiling at least one group of oscillator signal by this encoder 124, and limit this at least one group of oscillator signal and be set at and trigger this object 2 through compiling, at least one group that perhaps also can limit this oscillator signal through compiling can not be triggered this object 2, at last by be somebody's turn to do the oscillator signal through compiling by these decoder 224 deciphers.Owing to the aforementioned oscillator signal that can trigger and can not trigger of being set at comes by this signal specific S compiling, thereby can reach and respond to particular artifact (for example the contacting 1) entity that is limited and contact the purpose of this object 2.
This contact display unit 28 is in order to contact this second contact mat 24 at least once and after continuing at least one scheduled time when these first contact mat, 14 entities, carry out reaction and trigger this object 2 to show this contact 1, for example: this contact display unit 28 can be the light display unit, can send the assembly of visible light as light-emitting diode or other, perhaps can be the sound display unit, can send the assembly of resonant as buzzer or other, just, by by luminous, sounding or simultaneously luminous and sounding type trigger this object 2 to show this contact 1.
The touch induction device of first embodiment of the invention is when implementing, at first produce signal specific S by this signal generator 122, and this signal specific S is compiled into the oscillator signal of at least one group of channelizing via this encoder 124, be sent to this transmitting terminal 126 then and prepare to send by this first contact mat 14.When these first contact mat, 14 entities contact this second contact mat 24 at least once, and the waveform that contacts 2 these signal specific at least is after the time, this signal specific S then receives by this second contact mat 24 and via this receiving terminal 226, because in the oscillator signal of the channelizing coded that this decoder 224 is set with respect to this encoder 124, at least one group of oscillator signal can be in order to trigger this object 2, or at least one group of oscillator signal is unavailable to trigger this object 2, therefore can limit particular artifact contact perception or contact not perception; After will contacting interference that this first contact mat 14 or 24 pairs of these signal specific of second contact mat S caused and remove from other object entity via this removal interference units 222A, this signal processor 222 can receive the oscillator signal that triggers this object 2, then this contact display unit 28 shows that in the mode of luminous and/or sounding this contact 1 triggers this object 2.
Please refer to Fig. 1 a to 4b, below elaborate at the practical circuit diagram and the operational mode thereof of first embodiment of the invention, scrutable is that this circuit diagram only is one embodiment of the present invention, in other embodiments, also can use other circuit framework to realize identical functions.Wherein, Fig. 2 a is depicted as the signal that this signal generator 122 is produced; Fig. 2 b is depicted as via this encoder 124 channelizing signal of frequency division not, because it is without frequency division, thereby it is identical with signal that this signal generator 122 is produced; Fig. 2 c is depicted as the signal that is received via this receiving terminal 226, because of its interference that is subjected to outside noise produces signal discrete and discontinuous situation; Fig. 2 d is depicted as through this and removes signal after interference units 222A goes the number of interference, and it reverts to complete signal with discrete signal.
Please refer to shown in Fig. 1 a, the 2a to 2b, a kind of execution mode of the circuit framework of this signal generation unit 12 of its announcement first embodiment of the invention, and this moment, this signal specific S was the signal of telecommunication.In this circuit, utilize crystal oscillator 122a that the frequency reference of this signal generator 122 is provided, it sends the voltage signal (as Fig. 2 a) of 1.8 megahertzes (MHz), wherein transistor Q 1Be switch, D flip-flop (D-type Flip-Flop) 122b output control signal is as the switch control of this crystal oscillator 122a power supply, and this D flip-flop can be the trigger of model 74HC74.This encoder 124 utilizes D flip-flop 124a, it can be the trigger of model 74HC74 equally, cooperate jumper JP (jumper) to carry out the channelizing of signal, in this embodiment, the 3-4 contact of this jumper JP has the i.e. voltage signal (as Fig. 2 b) of 1.8 megahertzes that is regardless of frequency (frequency division) in order to output, and its 1-2 contact is the voltage signal of 0.9 megahertz in order to the frequency that output has divided by 2; The output signal of 124 channelizings of this encoder is this signal specific S, this signal specific S then is sent to this first contact mat 14 at last and prepares to send, because this first contact mat 14 and this second contact mat 24 are conductor in this embodiment, it respectively can be in order to send and to receive this signal specific S.
Please refer to shown in Fig. 1 b, a kind of execution mode of the circuit diagram of this signal processing unit 22 of its announcement first embodiment of the invention, after wherein this signal specific S receives via this second contact mat 24 and by receiving terminal 226, need to carry out the comparison of signal through this decoder 224, that is the chip 224a by this decoder 224 does the signal frequency comparison, and the frequency of its comparison is produced by the crystal oscillator 224b in this decoder 224, and delivering to this chip through D flip-flop and jumper JP1, to do frequency ratio right, wherein, this chip 224a is in order to judge the level of input signal in every half period, must make frequency is 2 times of this signal specific S frequency, for example, if this signal specific S that will compare is the signal of frequency 1.8 megahertzes, not under the situation of frequency division, it is the signal of 3.6 megahertzes that this crystal oscillator 224b need produce the concussion frequency at this jumper JP1; But remove 2 frequencys multiplication if this jumper JP1 is set at, then this crystal oscillator 224b then need produce the signal of 7.2 megahertzes.That is by this chip 224a, can make this signal specific S preestablish a frequency range, and it is considered as effective frequency range, the outer signal of this frequency range is isolated; Otherwise, when not conforming to, then can't enter this signal processing unit 222, that is this contact 1 can't trigger this object 2 by this chip 224a with the comparison signal frequency of this decoder 224 as if this signal specific S.Same, when this signal specific S is the signal of frequency 0.9 megahertz, be set at this jumper JP1 under the situation of frequency division (removing 1 frequency multiplication) not, it is the signal of 1.8 megahertzes that this crystal oscillator 224b need produce the concussion frequency; But remove 2 frequencys multiplication if this jumper JP1 is set at, then this crystal oscillator 224b then need produce the signal of 3.6 megahertzes.
Decide after signal S enters this signal processor 222 at this, and when this signal specific S is subjected to external noise jamming and causes (as Fig. 2 c) when discrete or discontinuous, utilize logical circuit 222a (LogicCircuit) to cooperate single-shot trigger circuit (mono-stable trigger circuit) 222b to form this removal interference units 222A, method with and discrete signal discontinuous as the permission identification, this recognition methods is checked with frequency by the voltage rising and is differentiated, and at least 2 signal waveforms of identification discontinuous signal are as the identification door.At least 2 signal waveforms of identification utilize this logical circuit 222a to finish, that is this logical circuit 222a has only when this signal specific S has two continuous signal waveforms, just can finish identification; Wherein, be output as f (x if set this logical circuit 222a i), and the output signal of numbering QA to the QD pin of this chip 224a is assumed to be x respectively 1, x 2, x 3And x 4, then
Figure GSB00000235678900121
Its relation is listed in the table below in 1.
As shown in Table 1, only at (x1, x2, x3 x4) equals (0,1,0,1) with (1,0,1,0) two kinds of input conditions, two the continuous complete high voltage signals and the input of low voltage signal just just can be by the signal determining of this logical circuit 222a, and output HIGH voltage (logic benchmark 1) is with operation circuit thereafter.
Yet, after the signal of this high voltage (logic benchmark 1) passes through this logical circuit 222a, being output as the high-tension time may be because of being subjected to the external interference discrete distribution, cause that to be output as the high-tension time quite short, for example, in Fig. 2 c, 1.8 the high voltage time of the complete waveform of megahertz (MHz) is about 0.28 microsecond (micro second), if this complete waveform is interfered then can form and disperses with discontinuous, that is high-tension time possibility less than 0.28 microsecond, by this single-shot trigger circuit 222b, can be with this by the discrete high-tension time lengthening of this logical circuit 222a, that is, by the current potential judgement of boosting, make this signal specific S that checked through frequency prolong the effective time of its signal input, discrete signal specific S can be linked up and the signal that continues to send stable high voltage (logic benchmark 1) to enter the circuit that is connected thereafter.By this, this signal specific S that this contact 1 produced and sent after receiving also identification via this object 2, can trigger this object 2.
Table 1
Figure GSB00000235678900131
Shown in Fig. 3 a to 3d, the circuit diagram embodiment of its explanation when this signal specific S is light signal, wherein, the signal generator 122 of this contact 1 and encoder 124, the decoder 224 of this object 2 and signal processor 222 are identical when being the signal of telecommunication with this signal specific S, here repeat no more.In Fig. 3 a, this transmitting terminal 126 mainly has infrared transmitter, for example infrared light-emitting diode (IR LED).The signal that this signal generator 122 is produced is after channelization, drive this infrared transmitter so that the signal of telecommunication is converted into light signal and launches this signal specific S, the variation that infrared transmitter is supplied with according to the electric power of the certain frequency signal of telecommunication, the light source that emission changes with certain frequency.Among Fig. 3 b, this receiving terminal 226 mainly has infrared light sensation receiving unit, and for example infrared photistor (IRphoto-transistor) is in order to receive this signal specific S; This converting unit 228 is utilized potential comparator (voltage comparator), and the potential comparator of model LM311 for example is converted into the stable signal of telecommunication clearly with the signal of light signal input, and it by current potential relatively makes higher current potential (be higher than and set benchmark V 1) can be pulled up to high potential level accurately, otherwise, make lower current potential (be lower than and set benchmark V 1) can be lowered to electronegative potential level accurately, by like this, the analog signal that this light sensation receiving unit can be passed, be treated to digital signal, shown in Fig. 3 c and 3d, wherein Fig. 3 c is depicted as this light sensation receiving unit and reaches this potential comparator signal before, and it has the benchmark of setting V 1, Fig. 3 d is depicted as through the digital signal after 228 processing of this converting unit.Wherein, this sets benchmark V 1Be the energy door that sets, that is contact this object 2, and this setting benchmark can adjust with required induction accuracy above this contact 1 entity of signal indication of this door.
Shown in Fig. 4 a and 4b, the circuit diagram embodiment of its explanation when this signal specific S is magnetic signal, wherein, the signal generator 122 of this contact 1 and encoder 124, this object 2 and decoder 224 and signal processor 222 are identical when being the signal of telecommunication with this signal specific S, here repeat no more.In Fig. 4 a, this transmitting terminal 126 mainly has NPN electric crystal Q2 (NPN transitor), and for example model is the electric crystal of Q2SC1815.The signal that this signal generator 122 is produced is after channelization, driving this NPN electric crystal amplifies as current gain, make and produce high voltage with drive magnet, the variation that this electromagnet is supplied with according to the electric power of the certain frequency signal of telecommunication, emission is this signal specific S with the magnetic force that certain frequency changes.In Fig. 4 b, this receiving terminal 226 mainly has the magnetic induction receiving unit, and for example Hall element (Hall Sensor) in order to receive magnetic signal, is this signal specific S; This converting unit 228 mainly is made up of three gain amplifiers (amplifier) 228a, 228b and 228c and potential comparator 228d.Described gain amplifier 228a, 2282b and 228c can be the amplifier of model LM741, it is as the level treatment combination before this comparative voltage difference, so that being arranged, enough tangible voltage difference imports this potential comparator 228d, this first and second gain amplifier 228a, 228b overlaps current potential Vo1 and the Vo2 from this magnetic induction receiving unit respectively, it is as buffering (Buffer), make the voltage (electric current) that will drive next stage obtain gain (gain) by this buffering (Buffer), the 3rd gain amplifier 228c is then behind the voltage after input first and second gain amplifier 228a and the 228b gain, carrying out the gain of voltage difference again amplifies, this voltage difference produces from being subjected to the magnetic force input that receiving terminal changes with characteristic frequency, and the corresponding ultra-weak electronic signal that produces voltage (electric current) changes, and obtains the processing of this ultra-weak electronic signal by prime treatment combination unit.This potential comparator 228d is converted into the stable signal of telecommunication clearly with the signal of magnetic signal input, and it by current potential relatively makes higher current potential (be higher than and set benchmark V 1) can be pulled up to high potential level accurately, otherwise, make lower current potential (be lower than and set benchmark V 1) can be lowered to electronegative potential level accurately, by like this, the analog signal that this magnetic induction receiving unit can be passed is treated to digital signal.Scrutable is that this contact 1 entity of signal indication that surpasses this door contacts this object 2, and should set benchmark V 1Can adjust with required induction accuracy.
Please refer to shown in Figure 5ly, it shows the power system when this signal specific S is light and magnetic signal, the power system when it is different from this signal specific S and is the signal of telecommunication.When this signal specific S is light and magnetic signal, must do the combination of positive-negative power supply system, wherein VEE is the negative supply supply, VCC is the positive supply supply.Gain amplifier used in the present invention (LM741) must be supplied positive-negative power with potential comparator assemblies such as (LM311), in Fig. 5, U1 and U2 are voltage regulator-linear voltage stabilization IC (Linear Voltage Regulator), for example model is voltage regulator-linear voltage stabilization IC of L7805-TO220, in order to regulate 9V is the 5V power supply, the use of supply gain amplifier (LM741) and potential comparator (LM311), that is VCC is+5V output that VEE is-5V output.
Please refer to shown in Figure 6ly, it discloses the contact induction system of second embodiment of the invention, and it comprises first contact 3, second contact 4, first object 5 and second object 6.This first contact 3, second contact 4, first object 5 and second object 6 are not altogether and by the independent object of different electrical power supply, and be preferably the Portable object of any kenel, but the fixed object that also can be designed to any kenel according to this first object 5 of difference and second object 6 of execution mode.This first contact of so-called entity contact finger 3 and this second contact 4 in second embodiment of the invention contact with single-point single between this second object 6 and this first object 5.
This first contact 3 comprises the first signal generation unit 32, first radio receiving unit 34, the first forbidden energy unit 36, first reset cell 38 and power supply 39.This power supply 39 is an independent current source, and it is preferably DC power supply, required electric power when supplying this first signal generation unit 32, first radio receiving unit 34, the first forbidden energy unit 36 and 38 operations of first reset cell.This first signal generation unit 32 is in order to send the first signal S 1This first signal S 1Can be the wherein a kind of of the signal of telecommunication, magnetic signal or light signal, and this first signal generation unit 32 produces the method and the framework of this signal of telecommunication, magnetic signal or light signal respectively, the method and the framework that produce this signal of telecommunication, magnetic signal or light signal with this signal generation unit 12 of first embodiment of the invention respectively are identical, repeat no more here.
This signal generation unit 32 comprises first signal generator 322, encoder 324 and first transmitting terminal 326.This first signal generator 322 is in order to produce this first signal S 1This encoder 324 is coupled to this first signal generator 322, and with this first signal S 1Encode, coded system in the present embodiment is with this first signal S 1Be converted into the signal of channelizing, but in other embodiments can be by other the mode purpose that reaches coding; This first transmitting terminal 326 couples this encoder 324 also with this first signal S 1Be issued to the surface of this first contact 3; Wherein, produce this first signal S by this first signal generator 322 1Similar to the execution mode on the surface of this first contact 3 and framework and first embodiment.In addition, the detailed effect of this first radio receiving unit 34, the first forbidden energy unit 36 and first reset cell 38 and explanation will be described in following paragraph.
This second contact 4 comprises secondary signal generation unit 42, second radio receiving unit 44, the second forbidden energy unit 46, second reset cell 48 and power supply 49.This power supply 49 is an independent current source, and it is preferably DC power supply, required electric power when supplying this secondary signal generation unit 42, second radio receiving unit 44, the second forbidden energy unit 46 and 48 operations of second reset cell.This secondary signal generation unit 42 is in order to produce secondary signal S 2, this secondary signal S 2Can be the wherein a kind of of the signal of telecommunication, magnetic signal or light signal, and this secondary signal generation unit 42 produces the method and the framework of this signal of telecommunication, magnetic signal or light signal respectively, the method and the framework that produce this signal of telecommunication, magnetic signal or light signal with this signal generation unit 12 of first embodiment of the invention respectively are identical, repeat no more here.
This signal generation unit 42 comprises secondary signal generator 422, encoder 424 and second transmitting terminal 426.This secondary signal generator 422 is in order to produce this secondary signal S 2This encoder 424 is coupled to this secondary signal generator 422, and with this secondary signal S 2Encode, Bian Ma mode is with this secondary signal S in the present embodiment 2Be converted into the signal of channelizing, but can reach the purpose of coding in other embodiments by other mode; This second transmitting terminal 426 couples this encoder 424 with this secondary signal S 2Be issued to the surface of this second contact 4; Wherein, produce this secondary signal S by this secondary signal generator 422 2Similar to the execution mode on the surface of this second contact 4 and framework and first embodiment.In addition, the detailed effect of this second radio receiving unit 44, the second forbidden energy unit 46 and second reset circuit 48 and explanation will be described in following paragraph.
Referring again to shown in Figure 6, this of second embodiment of the invention first object 5 comprises first signal processing unit 52, contact display unit 54, first wireless transmitting unit 56 and power supply 58.This power supply 58 is an independent current source, and it is preferably DC power supply, required electric power when supplying this first signal processing unit 52, contact display unit 54 and the operation of first wireless transmitting unit 56.This first signal processing unit 52 is in order to receive and this secondary signal of identification S 2, because this secondary signal S 2Can be a kind of in the signal of telecommunication, magnetic signal or the light signal, and as this secondary signal S 2During for the signal of telecommunication, this second contact 4 and this first object 5 are preferably conductive material, then this secondary signal S 2Send on surface via this second contact 4, and receive via the surface of this first object 5; In other embodiments, this second contact 4 and this first object 5 itself also can utilize non-conductive material to make, and can conduct this secondary signal S in the part or all of mode by plating, coating, drape or winding conductive material on its surface to reach 2Purpose, and described conductive material is coupled to this second transmitting terminal 426 and first receiving terminal 522 respectively.At this moment, these second contact, 4 entities contact this first object 5 at least once, and when being at least 2 electric signal waveforms time of contact, this second contact 4 can successfully trigger this first object 5.In like manner, as this secondary signal S 2During for magnetic signal, it can be magnetic field or flux signal, and it makes magnetic force produce the variation of power or magnetic polarity and form periodic signal based on the variation of the signal of telecommunication, and at this moment, this second contact 4 and this first object 5 are preferably magnetic conductive material, then this secondary signal S 2Send on surface via this second contact 4, and receive via the surface of this first object 5; As this secondary signal S 2During for light signal, it can be light-sensing signal, and the variation that its variation that drives Different Light based on the signal of telecommunication produces the power of light or tone is forming periodic signal, and this secondary signal S 2Send via this second contact 4, and receive via this first object 5.Scrutablely be, as this secondary signal S 2During for magnetic signal and light signal, have converting unit 524 under these first signal processing unit, 52 preferable case and be converted to the signal of telecommunication in order to magnetic signal or the light signal that will be received.
This first signal processing unit 52 comprises first receiving terminal 522, converting unit 524, decoder 526, first signal processor 528, and it comprises removes interference units 528A.This first receiving terminal 522 is coupled to the surface of this first object 5, and its surface via this first object 5 receives this secondary signal S 2This decoder 526 is in order to this secondary signal S of decipher through these encoder 424 codings 2At last by this secondary signal S behind this first signal processor, 528 identifications coding 2, the removal interference units 528A of this first signal processor 528 can be when removing other object entity and contact this second contact 4 and first object 5, to this secondary signal S 2The interference that is caused, for example: skin electric current or human body institute are electrically charged to this secondary signal S 2The interference that is caused, and the mode that this removal is disturbed is for to be undertaken by filtering, isolation and noise attentuation mode, and wherein a kind of execution mode is with this secondary signal S 2Preestablish a frequency range, and isolate this frequency range signal in addition, so, this first signal processing unit 52 only is considered as useful signal with the signal of this frequency range, this frequency range then is called effective frequency range, and the signal beyond this frequency range then disturbs to remove by noise attentuation and filtering.In addition, the signal waveform of the oscillator signal under the preferable case in these at least 2 these effective frequency zones of first signal processor, 528 acquisitions is as signal recognition, and this is because the contact interference can cause this secondary signal S 2Discrete or discontinuous, utilize the acquisition and the identification of this signal, can allow the recognition methods of identification discontinuous signal, for example press to rise to check and differentiate with frequency by current potential, and at least 2 signal waveforms of identification discontinuous signal are as the identification door, by this secondary signal of such solution S 2Disperse or the discontinuous problem that is difficult for identification that causes.This converting unit 524 is as this secondary signal S 2During for magnetic signal or light signal, in order to magnetic signal or light signal are converted to the signal of telecommunication.
By like this, this first object 5 is set at the entity contact that only can respond to this second contact 4 in the present embodiment, can get rid of the entity contact induction of other nonspecific object simultaneously, for example: with this secondary signal S 2Be converted into the oscillator signal of channelizing, entity contact induction with the particular artifact that is defined in tool same channel signal, just, by compiling at least one group of oscillator signal by this encoder 424, and limit through this oscillator signal of compiling at least one group and be set at and trigger this first object 5, or limit this at least one group of oscillator signal through compiling and can not trigger this first object 5, at last should be through oscillator signal of compiling by these decoder 526 deciphers.Because the aforementioned oscillator signal that can trigger and can not trigger of being set at is all by this secondary signal S 2Compiling, thereby can reach and respond to particular artifact (for example second contact 4) entity limited and contact the purpose of first object 5.
This contact display unit 54 is in order to contact this first object 5 at least once and after continuing at least one second scheduled time when these second contact, 4 entities, carry out first reaction and trigger this first object 5 to show this second contact 4, for example: this contact display unit 54 can be the light display unit, can send the assembly of visible light as light-emitting diode or other, or can be the sound display unit, can send the assembly of resonant as buzzer or other, just, by luminous, sounding or simultaneously luminous and sounding type trigger these first objects 5 to show this second contact 4.
Referring again to shown in Figure 6, this of second embodiment of the invention second object 6 comprises secondary signal processing unit 62, contact display unit 64, second wireless transmitting unit 66 and power supply 68.This power supply 68 is an independent current source, and it is preferably DC power supply, required electric power when supplying this secondary signal processing unit 62, contact display unit 64 and the operation of second wireless transmitting unit 66.This secondary signal processing unit 62 is in order to receive and this first signal of identification S 1, because this first signal S 1Can be a kind of among the signal of telecommunication, magnetic signal or the light signal, and as this first signal S 1During for the signal of telecommunication, this first contact 3 and this second object 6 are preferably conductive material, then this first signal S 1Send on surface via this first contact 3, and receive via the surface of this second object 6.In other embodiments, this first contact 3 and this second object 6 itself also can utilize non-conductive material to make, and can conduct this first signal S in the part or all of mode by plating, coating, drape or winding conductive material on its surface to reach 1Purpose, and these conductive material are coupled to this first transmitting terminal 326 and second receiving terminal 622 respectively.At this moment, these first contact, 3 entities contact this second object 6 at least once, and when being at least 2 electric signal waveforms time of contact, this first contact 3 can successfully trigger this second object 6.In like manner, as this first signal S 1During for magnetic signal, it can be magnetic field or flux signal, and it makes magnetic force produce the variation of power or magnetic polarity and form periodic signal based on the variation of the signal of telecommunication, and this first contact 3 and this second object 6 are preferably magnetic conductive material, then this first signal S 1Send on surface via this first contact 3, and receive via the surface of this second object 6; As this first signal S 1During for light signal, it can be light-sensing signal, and its variation that drives Different Light based on the signal of telecommunication produces the variation of the power of light or tone and forms periodic signal, then this first signal S 1Send via this first contact 3, and receive via this second object 6.Scrutablely be, as this first signal S 1During for magnetic signal and light signal, have converting unit 624 under these secondary signal processing unit 62 preferable case and be converted to the signal of telecommunication in order to magnetic signal or the light signal that will be received.
This secondary signal processing unit 62 comprises second receiving terminal 622, converting unit 624, decoder 626 and secondary signal processor 628, and it comprises removes interference units 628A.This second receiving terminal 622 is coupled to the surface of this second object 6, and its surface via this second object 6 receives this first signal S 1This decoder 626 is in order to this first signal S of decipher through these encoder 324 codings 1At last by this first signal S behind this secondary signal processor 628 identifications coding 1The removal interference units 628A of this secondary signal processor 628 can be when removing other object entity and contact this first contact 3 and second object 6, to this first signal S 1The interference that is caused, for example: skin electric current or human body institute are electrically charged to this first signal S 1The interference that is caused, and the mode that this removal is disturbed is for to be undertaken by filtering, isolation and noise attentuation mode, and wherein a kind of execution mode is with this first signal S 1Preestablish a frequency range, and isolate this frequency range signal in addition, so, this secondary signal processing unit 62 only is considered as useful signal with the signal of this frequency range, this frequency range then is called effective frequency range, and the signal beyond this frequency range then disturbs to remove by noise attentuation and filtering.In addition, the signal waveform of the oscillator signal under the preferable case in these at least 2 these effective frequency zones of secondary signal processing unit 62 acquisitions is as signal recognition, like this because the contact interference can cause this first signal S 1Discrete or discontinuous, utilize the acquisition and the identification of this signal, can allow the recognition methods of identification discontinuous signal, for example press to rise to check and differentiate with frequency by current potential, and at least 2 signal waveforms of identification discontinuous signal are as the identification door, by this first signal of such solution S 1Disperse or the discontinuous problem that is difficult for identification that causes.This converting unit 624 is as this first signal S 1During for magnetic signal or light signal, in order to magnetic signal or light signal are converted to the signal of telecommunication.
By like this, this second object 6 is set at the entity contact that only can respond to this first contact 3 in the present embodiment, can get rid of the entity contact induction of other nonspecific object simultaneously, for example: with this first signal S 1Be converted into the oscillator signal of channelizing, to be limited to the entity contact induction of particular artifact with same frequency, just, by at least one group of oscillator signal of these encoder 324 compilings, and limit this through at least one group of oscillator signal of compiling for can trigger this second object 6, or limit this through at least one group of oscillator signal of compiling for can not trigger this second object 6, oscillator signal by should be through compiling at last by these decoder 626 deciphers.Because the aforementioned oscillator signal that can trigger and can not trigger of being set at is all by this first signal S 1Compiling, thereby can reach and respond to the purpose that the particular artifact (for example first contact 3) limited contacts this second object 6.
This contact display unit 64 is in order to contact this second object 6 at least once and after continuing at least one first scheduled time when these first contact, 3 entities, trigger this second object 6 to carry out specific second reaction to show this first contact 3, for example: this contact display unit 64 can be the light display unit, can send the assembly of visible light as light-emitting diode or other, or can be the sound display unit, can send the assembly of resonant as buzzer or other, just, by luminous, sounding or simultaneously luminous and sounding type trigger these second objects 6 to show this first contact 3.Scrutable is that in the present invention's second embodiment, this first scheduled time preferably is equal to this second scheduled time.
In the present embodiment, these first contact, 3 entities contact this second object 6 and this second contact, 4 entities contact this first object 5 though be defined in, but in other embodiments, also can be by the setting of signal channellization, set this first object 5 and can respond to the entity contact of this first contact 3, that is these first contact, 3 entities contact this first object 5 at least once and after continuing at least one the 3rd scheduled time, 5 of this first objects are carried out one the 3rd reaction and triggered these first objects 5 to show this first contact 3; Or this second object 6 can be responded to the entity contact of this second contact 4, that is these second contact, 4 entities contact this second object 6 at least once and after continuing at least one the 4th scheduled time, 6 of this second objects are carried out one the 4th reaction and are triggered this second object 6 to show this second contact 4, wherein the 3rd scheduled time and the 4th scheduled time preferably are equal to this first and second scheduled time, and the 3rd reaction can be set at this first reacting phase same; The 4th reaction can be set at this second reacting phase same.
Referring again to shown in Figure 6, when this first contact 3 triggers this second object 6, except this second contact display unit 64 shows, can select to make these second wireless transmitting unit, 66 emissions second triggering signal S in addition T2, this second triggering signal S T2Has the information that this first contact 3 triggers this second object 6; Then, second radio receiving unit 44 of this second contact 4 receives this second triggering signal S T2This second forbidden energy unit 46 couples this second radio receiving unit 44 and receives this second triggering signal S T2After, this secondary signal generation unit 42 of forbidden energy (disable) continues to produce and sends this secondary signal S 2, just, this moment is if also can't trigger this first object 5 when contacting this first object 5 with these second contact, 4 entities; If will make this second contact 4 can trigger this first object 5 once again, can utilize this second reset circuit 48 by manually or (reset) this secondary signal generation unit 42 of after a period of time, resetting automatically, it is produced again and send this secondary signal S 2Otherwise, when this second contact 4 triggers this first object 5, except this first contact display unit 54 shows, can select to make these first wireless transmitting unit, 56 emissions first triggering signal S in addition T1, this first triggering signal S T1Has the information that this second contact 4 triggers this first object 5; Then, first radio receiving unit 34 of this first contact 3 receives this first triggering signal S T1This first forbidden energy unit 36 couples this first radio receiving unit 34 and receives this first triggering signal S T1After, this first signal generation unit 32 of forbidden energy continues to produce and sends this first signal S 1, just, this moment is if also can't trigger this second object 6 when contacting this second object 6 with these first contact, 3 entities; If will make this first contact 3 can trigger this second object 6 once again, can utilize this second reset circuit 38 by manually or this secondary signal generation unit 32 of after a period of time, resetting automatically, it is produced again and send this first signal S 1
In addition, when this first contact 3 triggered this second object 6, this second wireless transmitting unit 66 also can select to launch this second triggering signal S T2To the radio receiving unit 71 of the 3rd object 7 ',, an embodiment of the 3rd object 7 ' can be counter, it can be in order to count the number of times that these first contact, 3 entities contact this second object 6; In like manner, when this second contact 4 triggered this first object 5, this first wireless transmitting unit 56 also can select to launch this first triggering signal S T1An embodiment to radio receiving unit 71, the three objects 7 of the 3rd object 7 can be counter, and it can be in order to count the number of times that these second contact, 4 entities contact this first object 5.
In the second embodiment of the present invention, if this first signal S 1And this secondary signal S 2Be identical signal, then contact this first object 5 or second object 6 at least once and when continuing at least one scheduled time when this first contact 3 or second contact, 4 entities, 2 signal waveforms for example, this first contact 3 or second contact 4 also can trigger this first object 5 or this second object 6.
In addition, has wireless encoding device 561 under these first wireless transmitting unit, 56 preferable case at this first triggering signal S T1Encode, have wireless decoding device 341 under these first radio receiving unit, 34 preferable case, so can limit this first triggering signal S that this first wireless transmitting unit 56 is sent T1Only can be received by 34 identifications of this first radio receiving unit; In like manner, has wireless encoding device 661 under these second wireless transmitting unit, 66 preferable case at this second triggering signal S T2Encode, have wireless decoding device 441 under these second radio receiving unit, 44 preferable case, so can limit this second triggering signal S that this second wireless transmitting unit 66 is sent T2Only can be received, so when having many set of contact part and object, can non-interferingly carry out the emission and the reception of wireless signal by 44 identifications of this second radio receiving unit.In like manner, the 3rd object 7 and 7 ' also can be provided with wireless decoding device 711 and 711 ' respectively, to receive the triggering perceptual signal from this first object 5 and second object 6 respectively.
The touch induction device of second embodiment of the invention is supposed this first signal S this moment when implementing 1And this secondary signal S 2Be the signal of telecommunication, at first produce this first signal S by this first signal generator 322 1, and via this encoder 324 with this first signal S 1Be compiled into the oscillator signal of at least one group of channelizing, be sent to this first transmitting terminal 326 and the surface by this first contact 3 then and prepare to send; When these first contact, 3 entities contact this second object 6 at least once, and continue 2 this first signal S at least 1Waveform after the time, this first signal S 1Then the surface by this second object 6 is received by this second receiving terminal 622, in the oscillator signal of the channelizing coded that this decoder 626 is set with respect to this encoder 324, at least one group of oscillator signal can be in order to trigger this second object 6, or at least one group of oscillator signal is unavailable to trigger this second object 6, and after this secondary signal processor 628 receives the oscillator signal that can trigger this second object 6, in the time of can utilizing this removal interference units 628A to contact this first contact 3 and second object 6 from other object entity to this first signal S 1The interference that is caused is removed, and makes the mode of this contact display unit 64 with luminous and/or sounding then, shows that this first contact 3 triggers this second object 6, perhaps the second triggering signal S that has encoded via these second wireless transmitting unit, 66 emissions T2Second radio receiving unit 44 to this second contact 4, so that this second forbidden energy unit this secondary signal generation unit 42 of 46 forbidden energy, so 4 of this second contacts are not before this second reset cell 48 is reset this secondary signal generation unit 42, can't gos this first object 5 of triggering again.
In like manner, this secondary signal generator 422 produces this secondary signal S 2, and via this encoder 424 with this secondary signal S 2Be compiled into the oscillator signal of at least one group of channelizing, be sent to this second transmitting terminal 426 and the surface by this second contact 4 then and prepare to send; When these second contact, 4 entities contact this first object 5 at least once, and continue 2 this secondary signal S at least 2Waveform after the time, this secondary signal S 2Then receive by the surface of this first object 5 and via this first receiving terminal 522; In the oscillator signal of the channelizing coded that this decoder 526 is set with respect to this encoder 424, at least one group of oscillator signal can be in order to trigger this first object 5, or at least one group of oscillator signal is unavailable to trigger this first object 5, and after this first signal processor 528 receives the oscillator signal that can trigger this first object 5, in the time of can utilizing this removal interference units 528A to contact this second contact 4 and first object 5 from other object entity to this secondary signal S 2The interference that is caused is removed, and makes the mode of this contact display unit 54 with luminous and/or sounding then, shows that this second contact 4 triggers this first object 5; Perhaps launch the first triggering signal S that has encoded via this first wireless transmitting unit 56 T1First radio receiving unit 34 to this first contact 3, so that this this first signal generation unit 32 of first forbidden energy unit, 36 forbidden energy, so 3 of this first contacts are not before this first reset cell 38 is reset this first signal generation unit 32, can't gos this second object 6 of triggering again.
The mode that the signal of second embodiment of the invention produces, the mode of coding and decoding, the mode of eliminating interference and the mode of signal recognition can be similar to the first embodiment of the invention circuit framework, so repeat no more here.
Following paragraph illustrates that then second embodiment of the invention is applied to fight recreation respectively, sword hits the execution mode of match and play house.
Please refer to shown in Fig. 7 a, it discloses the schematic diagram of contact induction system applies when fighting recreation of second embodiment of the invention.Among Fig. 7 a, dress this first object 5 and this second object 6 of second embodiment of the invention respectively, and utilize this first contact 3 and this second contact 4 to go to attack the opposing party respectively by two personage A, B.At this moment, this first object 5 and this second object 6 can be one group of armour, embodiment can be chest protector, backpiece, Protective clothes combined with cap and mask, wrister, knee-pad or other any apparatus in order to protection, and this first and second object 5 and 6 circuit be being arranged at wherein by miniature then; This first contact 3 and this second contact 4 can be the throwing type weapon, and embodiment can be shell, dartlike weapon, bow and arrow, spheroid or other the various device that can throw, and the circuit of this first contact 3 and this second contact 4 is being arranged at wherein by miniature also.In recreation, personage A utilizes this throwing weapon 3 (first contact 3) to attack personage B, and when this throwing property weapon 3 contacted any part of these armours 6 (second object 6), then this armour 6 just sent this second triggering signal S T2To this throwing property weapon 4 (second contact 4), so that its forbidden energy,, still can't trigger this armour 5 even during this moment should throwing property weapon 4 these armours 5 of contact (first object 5) any part; Otherwise the situation that the situation of personage B attack personage A and personage A attack personage B is similar, repeats no more here.
Among Fig. 7 b, carrying out this personage who fights recreation is four-player A, B, C and D, and it is divided into two groups, and wherein personage A and C are same group; Personage B and D are same group.Just, personage A and C dress this first object 5a and 5b of second embodiment of the invention respectively, and utilize this first contact 3a and 3b to go to attack the personage of another group respectively; Personage B and D dress this second object 6a and 6b of second embodiment of the invention respectively, and utilize this second contact 4a and 4b to go to attack the personage of another group respectively.This first object 5a and 5b, the second object 6a and 6b, the first contact 3a and 3b and the second contact 4a and 4b are respectively foregoing armour and throwing type weapon, repeat no more here.When recreation, because this first signal S 1Unequal in this secondary signal S 2, and this first object 5a and 5b can be set at by the mode of channelizing and must sense this secondary signal S 2In time, just shows and is triggered, and is set at not by this first signal S 1Trigger; This second object 6a and 6b also can be set at by the mode of channelizing must sense this first signal S 1In time, just shows and is triggered, and can be set at not by this secondary signal S 2Trigger.Therefore, even when this personage A utilizes this throwing type weapon 3a to go to attack the armour 5b of this personage C, also can not trigger this armour 5b, vice versa; In like manner, even when this personage B utilizes this throwing type weapon 4a to attack the armour 6b of this personage D, also can not trigger this armour 6b, vice versa, can not trigger between just being set on the same group in the present embodiment.Therefore, when this personage A and C utilize these throwing property weapon 3a and 3b to attack this personage B and D respectively, and when these throwing property weapon 3a and 3b entity contacted any part of these armours 6a or 6b, then these armours 6a and 6b just sent this second triggering signal S respectively T2To this throwing property weapon 4a or 4b, even so that it when contacting any part of this armour 5a or 5b, also can't trigger this armour 5a or 5b, on the other hand, this second triggering signal S T2Be preferably and make the second triggering signal S that this second object 6a is sent via coding T2Only can trigger this second contact 4a, and can not trigger this second contact 4b; And the second triggering signal S that this second object 6b is sent T2Only can trigger this second contact 4b, and can not trigger this second contact 4a.It is similar that personage B and D utilize situation that these throwing property weapon 4a and 4b attack this personage A and C and personage A and C to utilize these throwing property weapon 3a and 3b to attack the situation of this personage B and D respectively respectively, repeats no more here.
Please refer to shown in Figure 8ly, it discloses the schematic diagram of contact induction system applies when gunbattle is played of second embodiment of the invention.In this used, this contact induction system can comprise in addition that first throws part 3 ' in order to throw or to launch this first contact 3 and second and throw part 4 ' in order to throw or to launch this second contact 4.Among Fig. 8, under the situation of having only two personage A and B, dress this first object 5 of second embodiment of the invention, and utilize this first to throw part 3 ' and throw or launch this first contact 3 and remove to attack personage B by personage A; Personage B then dresses this second object 6 of second embodiment of the invention, and utilizes this second to throw part 4 ' and throw or launch this second contact 4 and remove to attack personage A.In the present embodiment, this first object 5 and this second object 6 are one group of armour, embodiment can be chest protector, backpiece, Protective clothes combined with cap and mask, wrister, knee-pad or other any apparatus in order to protection, and the circuit of this first object 5 and this second object 6 is being arranged at wherein by miniature then; This first throws part 3 ' and second embodiment that throws part 4 ' can be the rifle body, also can be shell reflector, dart thrower device, bow and arrow reflector, spheroid reflector in other embodiments or other can be in order to emission or the utensil of throwing; This first contact 3 and 4 of this second contacts can be to be thrown or the emission type weapon, embodiment can be bullet, also can be shell, dartlike weapon, bow and arrow, spheroid or other the various device that can throw in other embodiments, the circuit of this first contact 3, second contact 4, the first throwing part 3 ' and the second throwing part 4 ' is being arranged at wherein by miniature also.In the present embodiment, this first power supply of throwing part 3 ' and this second throwing part 4 ' is a DC power supply, this first and second contact 3 and 4 circuit for the non-transformer supply, only portion establishes the power supply charge/discharge unit within it, electric capacity for example, and before throwing, first throw part 3 ' and second and throw part 4 ' respectively at this first and second contact 3 and 4 chargings by this; This first and second contact 3 and 4 throw respectively leave this first and second throw part 3 ' and 4 ' after then discharge automatically, this electric energy that discharges need make this first and second contact 3 and 4 contact this second and first object 6 and respectively at 5 o'clock, still has this first and second signal of emission S respectively 1And S 2Electric energy.In recreation, this personage A utilizes this throwing part 3 ' (rifle body) to throw this throwing weapon 3 (bullet) to attack this personage B, and when this throwing property weapon 3 contacted any part of these armours 6, then this armour 6 just sent this second triggering signal S T2To this throwing property weapon 4, even, in other embodiments, also can select with this second triggering signal S so that it when contacting any part of this armour 5, still can't trigger this armour 5 T2Be sent to this throwing part 4 ' so that it can not be pulled the trigger, scrutable is that this moment, second radio receiving unit 44, the second forbidden energy unit 46 and second reset cell 48 of this second contact 4 can be selected being arranged in this second throwing part 4 ' by microminiaturization.Otherwise the situation that the situation of personage B attack personage A and personage A attack personage B is similar, repeats no more here.Scrutablely be, the application of this gunbattle recreation also can divide into groups to carry out, and its executive mode and aforementioned fight game class seemingly carry out the grouping of signal by channelizing, so that the contact induction of particular artifact or contact is not responded to, its detailed execution mode repeats no more here.In addition, described contact 3 and 4 also can not thrown via throwing part, but is thrown voluntarily by personage A and B, and just this first throwing part 3 ' and this second throwing part 4 ' can be selected and will not implement.
Please refer to shown in Figure 9ly, it discloses the schematic diagram of contact induction system applies when sword hits recreation of second embodiment of the invention.Among Fig. 9, dress this first object 5 and this second object 6 of second embodiment of the invention respectively, and utilize this first contact 3 and this second contact 4 to go to attack the opposing party respectively by two personage A, B.At this moment, this first object 5 and this second object 6 are one group of armour, embodiment can be chest protector, backpiece, Protective clothes combined with cap and mask, wrister, knee-pad or other any apparatus in order to protection, and the circuit of this first object 5 and this second object 6 is being arranged on wherein by miniature then; This first contact 3 and this second contact 4 can be gripping type weapon, embodiment can be sword type weapon, for example: Western sword and Japanese sword etc., it also can be the weapon of various grippings such as cutter type, axe type, excellent type, and the circuit of this first contact 3 and this second contact 4 is being arranged at wherein by miniature also.In recreation, this personage A utilizes this gripping type weapon 3 to play with personage B, when this gripping type weapon 3 (first contact 3) contacts any part of this armour 6 (second object 6), and this first signal S 1Just reach the surface of this second object 6 via the surface of this first contact 3, when this second object 6 picks out this first signal S 1After, then this armour 6 just sends this second triggering signal S T2To this gripping type weapon 4, this second forbidden energy unit 46 in therefore should gripping type weapon 4 can continue to produce this secondary signal S by this secondary signal generation unit 42 of forbidden energy 2, so that should gripping type weapon 4 (second contact 4) even when contacting any part of this armour 5, still can't trigger this armour 5; Otherwise the situation that the situation of personage B attack personage A and personage A attack personage B is similar, repeats no more here.Scrutablely be, this sword hits the application of match and also can divide into groups to carry out, and its executive mode and aforementioned fight game class seemingly carry out the grouping of signal by channelizing, so that the contact induction of particular artifact or contact are not responded to, its detailed execution mode repeats no more here.
Please refer to shown in Figure 10 a and the 10b, it discloses the schematic diagram of contact induction system applies when play house E of second embodiment of the invention.In Figure 10 a, this contact induction system comprises that in addition first throws part 3 ' in order to throwing or to launch this first contact 3, and second throw part 4 ' in order to throwing or to launch this second contact 4, and comprises the 3rd object 7 in addition.In the recreation, personage A dresses this first object 5 of second embodiment of the invention, and utilize this first to throw part 3 ' and throw or launch the activity target 6 that this first contact 3 removes to attack play house E, and this mark is 6 these second objects 6 that are in the present embodiment, and play house E then utilizes this second to throw part 4 ' and throw or launch this second contact 4 and remove to attack this personage A.In the present embodiment, this first object 5 is one group of armour, and embodiment can be chest protector, backpiece, Protective clothes combined with cap and mask, wrister, knee-pad or other any apparatus in order to protection, and the circuit of this first object 5 is being arranged at wherein by miniature then; This first throws that part 3 ' and second embodiment that throws part 4 ' can be rifle body, shell reflector, dart thrower device, bow and arrow reflector, spheroid reflector or other can be in order to emission or the utensil of throwing; This first contact 3 and 4 of this second contacts can be to be thrown or the emission type weapon, embodiment can be bullet, shell, dartlike weapon, bow and arrow, spheroid or other the various device that can throw, this first contact 3, second contact 4, first are thrown circuit that part 3 ' and second throws part 4 ' also by being arranged at wherein of miniature, and this target 6, second is thrown part 4 ' and is subjected to computerized automatic control.In the present embodiment, this first power supply of throwing part 3 ' and this second throwing part 4 ' is a DC power supply, this first and second contact 3 and 4 circuit for the non-transformer supply, only portion establishes the power supply charge/discharge unit within it, electric capacity for example, and before throwing, first throw part 3 ' and second and throw part 4 ' respectively at this first and second contact 3 and 4 chargings by this; This first and second contact 3 and 4 throw respectively leave this first and second throw part 3 ' and 4 ' after then discharge automatically, the electric energy of this release need make this first and second contact 3 and 4 contact this second and first object 6 and respectively at 5 o'clock, still has this first and second signal of emission S respectively 1And S 2Ability, this moment this first and second contact 3,4 first and second radio receiving units 34,44, first and second forbidden energy unit 36,46 and first and second reset cell 38,48 can be selected being arranged at this and first throwing part 3 ' and second and throw in the part 4 ' by microminiaturization.In recreation, this personage A utilizes this throwing part 3 ' to throw this throwing weapon 3 attacking this target 6, and when these throwing property weapon 3 these targets 6 of contact, this first signal S that it produced 1Then reach the surface of this target 6 via the surface of this throwing weapon 3, then this target 6 just sends this second triggering signal S T2An embodiment to the 3rd object 7, the three objects 7 can be counter, so that it writes down the number of times that this personage A hits this target 6; Otherwise it is similar to the above that play house E attacks the situation of personage A, repeats no more here, can set when this personage A is subjected to certain number of times contact of this second contact 4 then game in the recreation.In addition, scrutablely be, this player A not necessarily must throw this contact 3 by throwing part 3 ', also can be thrown voluntarily by this player A, and just this first is thrown part 3 ' and can select and will not implement.
In addition, in the application of this play house E, with different designs different execution modes is arranged also, shown in Figure 10 b, wherein, this personage A be not with throwing property weapon as this first contact 3, and be to use gripping type weapon as this first contact 3, and embodiment that should gripping type weapon can be the weapon of various grippings such as cutter type, axe type, excellent type, and its circuit is being arranged at wherein by miniature then; This play house E uses mobile model weapon 4 (second contacts 4) to attack this personage A, the embodiment of this mobility weapon 4 also can be the weapon of various grippings such as cutter type, axe type, excellent type, its circuit is then by being arranged at wherein of miniature, and this activity target 6 (second object 6) can be set to a plurality ofly attack for this personage A.Same, this personage A utilizes this gripping type weapon 3 (first contact 3) attacking these targets 6, and when these gripping type weapon 3 entities contacted these targets 6, then this target 6 just sent this second triggering signal S T2To the 3rd object 7, so that it writes down the number of times that this personage A hits this target 6; Otherwise it is similar to the above that play house E attacks the situation of personage A, repeats no more here, can set when this personage A is subjected to certain number of times contact of this second contact 4 then game in the recreation equally.In addition, mandatory declaration is that the kenel of this play house E is not limited in the house type, also can be used for other various kenels such as flatbed, column type.
As implied above, the normally used touch switch discrete capacity effect of system's utilization touching with nonspecific objects such as induction human body or animals, maybe can respond to the entity contact of other any object greater than predetermined capacitance value, respond at the entity contact of particular artifact but only can't set, and can't get rid of other entity contact induction without the nonspecific object of setting.Compared to touch switch commonly used, the touch induction device of various embodiments of the present invention, owing to produce signal specific between the object, so that object of the present invention must respond to this signal specific and have the effect of forbidding or contact perception at the contact of particular artifact, and the triggering that can get rid of human body or other nonspecific object is disturbed.
Though the present invention discloses by aforementioned preferred embodiments, so it is not in order to qualification the present invention, any those skilled in the art, without departing from the spirit and scope of the present invention, when doing various changes and modification.Therefore protection scope of the present invention claims institute restricted portion is as the criterion.

Claims (90)

1. a touch induction device is characterized in that, described device comprises:
Contact, this contact comprises:
The signal generation unit is in order to produce signal specific; And
First contact mat is electrically connected to described signal generation unit, in order to send described signal specific; And,
Object, this object comprises:
Second contact mat is in order to receive described signal specific; And
Signal processing unit is electrically connected to described second contact mat, in order to the described signal specific of identification;
Wherein, described contact and object are not altogether and by two independent objects of different electrical power supply, when the first contact mat entity contacts second contact mat at least once and after continuing at least one scheduled time, described object is then carried out reaction and triggered object to show contact.
2. touch induction device according to claim 1 is characterized in that, described signal generation unit comprises:
Signal generator is in order to produce signal specific; And
Transmitting terminal is in order to be emitted to described signal specific described first contact mat.
3. touch induction device according to claim 1 is characterized in that, described signal generation unit comprises encoder, in order to encode at described signal specific; Described signal processing unit comprises decoder, in order to the signal specific behind the coding is decoded, only responds to the entity contact of contact to limit object.
4. touch induction device according to claim 3 is characterized in that, described encoder makes signal specific be converted into the oscillator signal of channelizing.
5. touch induction device according to claim 4 is characterized in that, the mode of described channelizing is for to compile at least one group of oscillator signal by described encoder, and by the described oscillator signal through compiling of decoder decipher.
6. touch induction device according to claim 5 is characterized in that, sets at least one group of described oscillator signal through compiling and can trigger object.
7. touch induction device according to claim 5 is characterized in that, sets at least one group of described oscillator signal through compiling and can not trigger object.
8. touch induction device according to claim 1 is characterized in that, described signal processing unit comprises:
Receiving terminal receives described signal specific via described second contact mat; And
Signal processor is electrically connected to described receiving terminal with the described signal specific of identification.
9. touch induction device according to claim 8 is characterized in that described signal processor comprises the removal interference units, when contacting described first contact mat and second contact mat in order to remove other object, to the interference that described signal specific caused.
10. touch induction device according to claim 9 is characterized in that, the mode that described removal is disturbed is to utilize the mode of filtering, isolation and noise attentuation.
11. touch induction device according to claim 10, it is characterized in that, signal specific is a periodic signal, described filtering, isolation and noise attentuation mode are for to preestablish a frequency range with described signal specific, the signal of described frequency range is considered as useful signal, and isolate described frequency range signal in addition, and the signal beyond the described frequency range is removed interference by noise attentuation and filtering.
12. touch induction device according to claim 11 is characterized in that, signal processing unit at least 2 signal specific waveforms of the signal acquisition in the described frequency range as signal recognition.
13. touch induction device according to claim 1 is characterized in that, described object comprises the contact display unit, in order to carry out described reaction.
14. touch induction device according to claim 13 is characterized in that, described contact display unit is light display unit and/or sound display unit.
15. touch induction device according to claim 1 is characterized in that, described signal specific is the wherein a kind of of the signal of telecommunication, magnetic signal and light signal.
16. will remove 15 described touch induction devices, it is characterized in that the described signal of telecommunication is voltage signal or current signal according to right.
17. touch induction device according to claim 16 is characterized in that, first contact mat and second contact mat are conductive material, and signal specific is sent via the surface of described first contact mat, and receive via the surface of described second contact mat.
18. touch induction device according to claim 16 is characterized in that, the described signal of telecommunication is a periodic signal.
19. touch induction device according to claim 18 is characterized in that, the first contact mat entity contacts second contact mat once, and the scheduled time is 2 electric signal waveforms.
20., it is characterized in that described magnetic signal is magnetic field or flux signal according to the described touch induction device of claim 15, wherein signal processing unit comprises that in addition converting unit is converted to the signal of telecommunication in order to the magnetic signal that will be received.
21. touch induction device according to claim 20 is characterized in that, first contact mat and second contact mat are magnetic conductive material, and signal specific is sent via the surface of described first contact mat, and receive via the surface of second contact mat.
22. touch induction device according to claim 20 is characterized in that, magnetic signal is the formed periodic signal of variation by variation of magnetic force or magnetic polarity.
23. touch induction device according to claim 15 is characterized in that, described light signal is a light-sensing signal, and wherein signal processing unit comprises that in addition converting unit is converted to the signal of telecommunication in order to the light signal that will be received.
24. touch induction device according to claim 23 is characterized in that, first contact mat is the light emitted body, and second contact mat is the light sensation material.
25. touch induction device according to claim 23 is characterized in that, described light-sensing signal is by the power of light or the formed periodic signal of variation of tone.
26. touch induction device according to claim 1 is characterized in that, described contact and object are Portable object or packaged type object.
27. touch induction device according to claim 1 is characterized in that, described first and second contact mat is respectively formed at the part or all of surface of described contact and object.
28. touch induction device according to claim 1 is characterized in that, described power supply is a DC power supply.
29. a contact induction system is characterized in that, described system comprises:
First contact, it comprises the first signal generation unit, in order to produce first signal, the described first signal generation unit is electrically connected to the surface of described first contact, and sends described first signal via the surface of described first contact;
Second contact, it comprises the secondary signal generation unit, in order to produce secondary signal, described secondary signal generation unit is electrically connected to the surface of described second contact, and sends described secondary signal via the surface of described second contact;
First object, it comprises first signal processing unit, described first signal processing unit is electrically connected to the surface of described first object, receives described secondary signal to carry out identification via the surface of described first object; And
Second object, it comprises the secondary signal processing unit, described secondary signal processing unit is electrically connected to the surface of described second object, receives described first signal to carry out identification via the surface of described second object;
Wherein, described first contact, second contact, first object and second object are not altogether and by the independent object of different electrical power supply, when the described first contact entity contacts this second object at least once and after continuing at least one first scheduled time, described second object is then carried out second reaction to show that first contact triggers second object; When the described second contact entity contacts described first object at least once and after continuing at least one second scheduled time, described first object is then carried out first reaction to show that second contact triggers first object.
30. contact induction according to claim 29 system is characterized in that,
The described first signal generation unit comprises:
First signal generator produces described first signal; And
First transmitting terminal is electrically connected to described first signal generator, in order to described first signal is emitted to the surface of described first contact;
Described secondary signal generation unit comprises:
The secondary signal generator produces described secondary signal; And
Second transmitting terminal is electrically connected to described secondary signal generator, in order to described secondary signal is emitted to the surface of described second contact.
31. contact induction according to claim 29 system is characterized in that,
Described first signal processing unit comprises:
First receiving terminal, the surface that is electrically connected to described first object is to receive described secondary signal; And
First signal processor is electrically connected to described first receiving terminal in order to the identification secondary signal;
Described secondary signal processing unit comprises:
Second receiving terminal, the surface that is electrically connected to described second object is to receive described first signal; And
The secondary signal processor is electrically connected to described second receiving terminal in order to identification first signal.
32. contact induction according to claim 31 system, it is characterized in that, each comprises the removal interference units in addition described first and second signal processor, when contacting described first contact, second contact, first object and second object from other object, to described first signal and interference that secondary signal caused in order to remove.
33. contact induction according to claim 29 system, it is characterized in that, described first and second signal generation unit comprises that respectively encoder is in order to encode at described first and second signal respectively, described second and first signal processing unit respectively comprises decoder in order to decoding at first and second signal behind the described coding respectively, only responds to the entity contact of second contact and the entity contact that described second object is only responded to first contact to limit described first object.
34. contact induction according to claim 33 system is characterized in that described encoder makes described first and second signal be converted into the oscillator signal of channelizing.
35. contact induction according to claim 34 system is characterized in that, sets at least one group of oscillator signal that encoder compiled through the first signal generation unit and can trigger second object; And set at least one group of the oscillator signal that encoder compiled and to trigger first object through the secondary signal generation unit.
36. contact induction according to claim 34 system is characterized in that, sets at least one group of oscillator signal that encoder compiled through the first signal generation unit and can not trigger second object; And set at least one group of the oscillator signal that encoder compiled and to trigger first object through the secondary signal generation unit.
37. contact induction according to claim 29 system, it is characterized in that, described first signal is identical with secondary signal, thereby contact first object at least once and after continuing at least one the 3rd scheduled time, described first object is then carried out the 3rd reaction to show that first contact triggers first object when the described first contact entity; When the described second contact entity contacts second object at least once and after continuing at least one the 4th scheduled time, described second object is then carried out the 4th reaction to show that second contact triggers second object.
38. contact induction according to claim 29 system is characterized in that, each comprises the contact display unit in addition described first and second object, respectively in order to carry out described first and second reaction.
39. contact induction according to claim 29 system is characterized in that described first and second signal is the wherein a kind of of the signal of telecommunication, magnetic signal and light signal.
40. want 39 described contact induction systems according to right, it is characterized in that the described signal of telecommunication is voltage signal or current signal.
41., it is characterized in that the described signal of telecommunication is a periodic signal according to the described contact induction of claim 40 system.
42., it is characterized in that the first contact entity contacts second object once according to the described contact induction of claim 41 system, first scheduled time was 2 electric signal waveforms; The second contact entity contacts first object once, and second scheduled time was 2 electric signal waveforms.
43., it is characterized in that described magnetic signal is magnetic field or flux signal according to the described contact induction of claim 39 system, each comprises that in addition converting unit is converted to the signal of telecommunication in order to the magnetic signal that will be received first and second signal processing unit.
44., it is characterized in that described light signal is a light-sensing signal according to the described contact induction of claim 39 system, each comprises that in addition converting unit is converted to the signal of telecommunication in order to the light signal that will be received first and second signal processing unit.
45. contact induction according to claim 29 system is characterized in that,
Described first object comprises that in addition first wireless transmitting unit is in order to launch first triggering signal;
Described second object comprises that in addition second wireless transmitting unit is in order to launch second triggering signal;
Described first contact comprises that in addition first radio receiving unit is in order to receive described first triggering signal;
Described second contact comprises that in addition second radio receiving unit is in order to receive described second triggering signal;
Wherein, described first reaction is launched first triggering signal to described first radio receiving unit for described first wireless transmitting unit, and described second reaction is launched second triggering signal to described second radio receiving unit for described second wireless transmitting unit.
46. according to the described contact induction of claim 45 system, it is characterized in that, launch first triggering signal to described first radio receiving unit when described first wireless transmitting unit, described first contact is carried out first response and is moved to show that described first radio receiving unit receives described first triggering signal; Launch second triggering signal to described second radio receiving unit when described second wireless transmitting unit, described second contact is then carried out second response and is moved to show that described second radio receiving unit receives described second triggering signal.
47. according to the described contact induction of claim 46 system, it is characterized in that, described first contact comprises the first forbidden energy unit in addition, described second contact comprises the second forbidden energy unit in addition, the described first response action refers to the described first forbidden energy unit according to the described first triggering signal forbidden energy, the first signal generation unit, and the described second response action refers to that the described second forbidden energy unit is according to the described second triggering signal forbidden energy secondary signal generation unit.
48. according to the described contact induction of claim 47 system, it is characterized in that, described first contact comprises first reset circuit in addition, described second contact comprises second reset circuit in addition, described first reset circuit is subjected to the first signal generation unit of forbidden energy in order to manually or automatically to reset, and described second reset circuit is subjected to the secondary signal generation unit of forbidden energy in order to manually or automatically to reset.
49. according to the described contact induction of claim 45 system, it is characterized in that, other comprises at least one the 3rd object, described the 3rd object comprises radio receiving unit, described first reaction is launched the radio receiving unit of first triggering signal to described the 3rd object for described first wireless transmitting unit simultaneously, make described the 3rd object carry out corresponding response action, described second reaction is launched the radio receiving unit of second triggering signal to described the 3rd object for described second wireless transmitting unit simultaneously, makes described the 3rd object carry out corresponding response action.
50. according to the described contact induction of claim 49 system, it is characterized in that, described the 3rd object is a counter, and described response action refers to that described first contact of the 3rd artifact record triggers the number of times of described second object and the number of times that described second contact triggers described first object.
51., it is characterized in that described first contact, second contact, first object and second object are Portable object or packaged type object according to the described contact induction of claim 45 system.
52., it is characterized in that be applied to fight recreation, wherein said first and second object is an armour according to the described contact induction of claim 51 system, described first and second contact is gripping property or throwing property weapon.
53. according to the described contact induction of claim 52 system, it is characterized in that, other comprises that first throws the part and the second throwing part, described first throws part in order to throw described first contact, and described second throws part in order to throw described second contact, wherein, described fight recreation is the gunslinging recreation, described first and second object is an armour, and it is the rifle body that described first and second thrown part, and described first and second contact is a bullet.
54. according to the described contact induction of claim 51 system, it is characterized in that, other comprises that first throws the part and the second throwing part, described first throws part in order to throw first contact, described second throws part in order to throw second contact, wherein, described contact induction system applies is in play house, described first object is an armour, described first contact is throwing property weapon, described first throws part in order to throw described throwing weapon, described second object is the moving target in the play house, and described second contact is the throwing weapon that play house is thrown, and described second throws part in order to throwing property weapon, wherein, second object in the play house, second contact and second is thrown part and is carried out automation control by game host or computer terminals.
55. according to claim 53 or 54 described contact induction systems, it is characterized in that, described first power supply of throwing the part and the second throwing part is a DC power supply, the power supply of described first and second contact is the power supply charge/discharge unit, and before throwing, throw part and second and throw part respectively to first and second contact charging by first, the then discharge automatically after first and 1 second throwing part is left in throwing respectively of described first and second contact, when the electric energy that is discharged makes described first and second contact contact second and first object respectively, still has the ability of first and second signal of emission respectively.
56. according to the described contact induction of claim 51 system, it is characterized in that, other comprises that second throws part, described second throws part in order to throw second contact, wherein, described contact induction system applies is in play house, described first object is an armour, first contact is throwing property weapon, second object is the moving target in the play house, and second contact is the throwing weapon that play house is thrown, and second throws part in order to throw described throwing weapon, wherein, second object in the play house, second contact and second is thrown part and is carried out automation control by game host or computer terminals.
57. according to the described contact induction of claim 51 system, it is characterized in that, described contact induction system applies is in play house, described first object is an armour, first contact is gripping property weapon, and second object is the moving target in the play house, and second contact is the mobility weapon of play house, wherein, second object in the play house and second contact are carried out automation control by game host or computer terminals.
58., it is characterized in that according to the described contact induction of claim 51 system, be applied to sword and hit in the match, described first and second contact is gripping property weapon, described first and second object is an armour.
59., it is characterized in that described sword hits match and is Western sword match or the match of Japanese sword according to the described contact induction of claim 58 system.
60. a contact induction method is applicable to the entity contact of object induction contact, it is characterized in that described method comprises the following steps:
The surface that provides the signal generation unit to be electrically connected to contact is to produce signal specific;
With at least one time of contact entity contact object and lasting at least one scheduled time;
The surface that provides signal processing unit to be electrically connected to described object is with the described signal specific of identification; And
Carry out reaction to show that described contact triggers described object;
Wherein, described contact and object are not altogether and by two independent objects of different electrical power supply.
61. according to the described contact induction method of claim 60, it is characterized in that, utilize the contact display unit to carry out described reaction.
62., it is characterized in that described contact display unit is light display unit and/or sound display unit according to the described contact induction method of claim 61.
63., it is characterized in that described signal specific is the wherein a kind of of the signal of telecommunication, magnetic signal and light signal according to the described contact induction method of claim 60.
64., it is characterized in that described signal specific is a periodic signal according to the described contact induction method of claim 63.
65., it is characterized in that the contact entity contacts object once according to the described contact induction method of claim 64, the scheduled time is 2 described signal specific waveforms.
66., it is characterized in that described method comprises the following steps: in addition according to the described contact induction method of claim 60
When removing other object contact contact and object, to the interference that described signal specific caused.
67., it is characterized in that the mode that described removal is disturbed is to utilize the mode of filtering, isolation and noise attentuation according to the described contact induction method of claim 66.
68. according to the described contact induction method of claim 67, it is characterized in that, signal specific is a periodic signal, described filtering, isolation and noise attentuation mode are for to preestablish a frequency range with described signal specific, the signal of described frequency range is considered as useful signal, and isolate described frequency range signal in addition, and the signal beyond the described frequency range is disturbed to remove by noise attentuation and filtering.
69. according to the described contact induction method of claim 68, it is characterized in that, object at least 2 described signal specific waveforms of the signal acquisition in the described frequency range as signal recognition.
70., it is characterized in that the described step of utilizing contact to produce signal specific comprises step: encode at signal specific according to the described contact induction method of claim 60;
The described step of object identification signal specific of utilizing comprises step: decode at described signal specific;
Limit the entity contact that object is only responded to contact with this.
71., it is characterized in that the mode of described coding is to make described signal specific be converted into the oscillator signal of channelizing according to the described contact induction method of claim 70.
72., it is characterized in that the mode of described channelizing is for to compile at least one group of oscillator signal by encoder according to the described contact induction method of claim 71.
73., it is characterized in that described method comprises the following steps: to set at least one group of oscillator signal through compiling in addition can trigger object according to the described contact induction method of claim 72.
74., it is characterized in that described method comprises the following steps: to set at least one group of oscillator signal through compiling in addition can not trigger object according to the described contact induction method of claim 72.
75., it is characterized in that described power supply is a DC power supply according to the described contact induction method of claim 60.
76. a contact induction method is characterized in that described method comprises the following steps:
The surface that provides the first signal generation unit to be electrically connected to first contact, and send first signal via the surface of described first contact;
The surface that provides the secondary signal generation unit to be electrically connected to second contact, and send secondary signal via the surface of described second contact;
The surface that provides first signal processing unit to be electrically connected to first object, and receive described secondary signal to carry out identification via the surface of described first object;
The surface that provides the secondary signal processing unit to be electrically connected to second object, and receive described first signal to carry out identification via the surface of described second object;
Utilize the described first contact entity to contact second object at least once and continue at least one first scheduled time, then described second object is then carried out second reaction to show that described first contact triggers described second object; And
Utilize the described second contact entity to contact first object at least once and continue at least one second scheduled time, then described first object is then carried out first reaction to show that described second contact triggers described first object;
Wherein, described first contact, second contact, first object and second object are not altogether and by the independent object of different electrical power supply.
77., it is characterized in that described method utilization contact display unit is carried out described first and second reaction according to the described contact induction method of claim 76.
78., it is characterized in that described first and second signal is the wherein a kind of of the signal of telecommunication, magnetic signal and light signal according to the described contact induction method of claim 76.
79., it is characterized in that described first and second signal is a periodic signal according to the described contact induction method of claim 78.
80., it is characterized in that the first contact entity contacts second object once according to the described contact induction method of claim 79, first scheduled time was 2 described first signal waveforms; The second contact entity contacts first object once, and second scheduled time was 2 described secondary signal waveforms.
81., it is characterized in that described method comprises the following steps: in addition according to the described contact induction method of claim 76
When removal contacts described first contact, second contact, first object and second object from other object, to described first signal and interference that secondary signal caused.
82., it is characterized in that described method comprises the following steps: in addition according to the described contact induction method of claim 76
Encode at first and second signal, only respond to the entity contact of second contact and the entity contact that described second object is only responded to first contact to limit described first object.
83. 2 described contact induction methods is characterized in that according to Claim 8, the mode of described coding is to make described first and second signal be converted into the oscillator signal of channelizing.
84. 3 described contact induction methods according to Claim 8, it is characterized in that, described method comprises the following steps: to set at least one group of oscillator signal through the encoder compiling of first contact in addition can trigger second object, and sets at least one group of oscillator signal through the encoder compiling of second contact and can trigger first object.
85. 3 described contact induction methods according to Claim 8, it is characterized in that, described method comprises the following steps: to set at least one group of oscillator signal through the encoder compiling of first contact in addition can not trigger second object, and sets at least one group of oscillator signal through the encoder compiling of second contact and can not trigger first object.
86., it is characterized in that described first reaction refers to that first object launches first triggering signal to the first contact according to the described contact induction method of claim 76, so that first contact is carried out the first response action to show that second contact triggers first object; Described second reaction refers to that second object launches second triggering signal to the second contact, makes second contact carry out the second response action to show that first contact triggers second object.
87. 6 described contact induction methods is characterized in that according to Claim 8, the described first response action refers to that forbidden energy first contact produces and send first signal, and the described second response action refers to that forbidden energy second contact produces and send secondary signal.
88. 7 described contact induction methods is characterized in that described method comprises the following steps: in addition according to Claim 8
Described first contact of resetting produces it once again and sends first signal; And
Described second contact of resetting makes it produce and send secondary signal once again.
89., it is characterized in that described first reaction refers to that first object launches first triggering signal to the, three objects according to the described contact induction method of claim 76, make it carry out corresponding response action; Described second reaction refers to that second object launches second triggering signal to the, three objects, makes it carry out corresponding response action.
90. 9 described contact induction methods is characterized in that according to Claim 8, described response action is that the 3rd object first contact that counts triggers the number of times of second object; And/or the 3rd object second contact that counts trigger the number of times of first object.
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