EP1608042A1 - Electrical connector arrangement - Google Patents

Abstract

The connector has aa number of supply contact fields [3] of a first connector that relater to groups of output contacts [A,B,C,D] of a second connector. The contact surfaces are held together using magnetic or mechanical force. The diameter of the output contacts [5] is smaller that the minimum distance between the input contacts.

Description

The invention relates to an electrical connection arrangement comprising at least a first and at least one second connecting element, wherein the at least one first connecting element a plurality of spaced apart and in one Contact surface arranged dispensing contact fields, the Abgabekontaktfelder be connected to at least one voltage source such that a first Subset of the output contact fields a first voltage value and at least one second subset of the dispensing contact fields one from the first voltage value having different second voltage value, and the at least one second Connecting element a plurality at a distance from each other and in one Counter contact surface arranged receiving contact fields, comprising. such Connection arrangements are z. B. generally known as parallel interfaces. However, each individual delivery contact field and each one is typically used Recording contact field of transmission of different information.

It is an object of the present invention to provide a connection arrangement of to provide the type mentioned above, which makes it possible, the first Connecting element and the second connecting element within a Workspace in any relative position to each other for reliable Contact power or data transmission with each other.

This object is achieved in an electrical connection arrangement of the above mentioned type solved with the characterizing features of claim 1.

When the maximum recording contact field diameter is smaller than each inside the contact surface given distance between two for different Voltage values provided release contact fields, can when joining Contact surface and mating contact surface never be generated a short circuit. at The contact surface and the mating contact surface need not be objective continuous areas act. It can be a mental Act surface, which is spanned by the individual contact fields. Of course, the contact fields may well from any Base structure sticking out like an island. The arrangement of the output contact fields and the Recording contact fields and the distribution of voltage values on the Dispensing contact fields can be designed in a variety of ways so that each any joining of the contact surface with the mating contact surface of the Recording contact fields at least two different voltage values be tapped. If z. B. any diameter arbitrarily shaped Dispensing contact fields in each direction is greater than the largest distance from each other adjacent and provided with different voltage levels Recording contact fields, is from a minimum number of output contact fields and Recording contact fields the tapping of the two different voltage values ensured. The above condition is not mandatory, because z. B. by certain regular arrangements, eg. B. a hexagonal or a square structure and be ensured with a suitable choice of distances can not that the contact fields of a kind never all exactly in given gaps the contact fields of a different kind can be placed. Under "Diameter" becomes each distance measured in a straight line between two boundaries of a Output contact field or recording contact field understood, these fields can have any geometric shapes.

Advantageous embodiments of the electrical according to the invention Connection arrangement can be given by the subclaims.

Diverse training opportunities are given. At the first connection element it can be e.g. around a part of nearly arbitrary surface elements or around the complete surface of such an element act. Examples are walls, in particular also movable walls, e.g. Exhibition walls, floors, ceilings, Work surfaces. On horizontal elements, such as, on a table, a second Connecting element can be conveniently stored to the electrical contact manufacture. At such a second connecting element can arbitrary electrical consumers, e.g. a lamp, in particular a desk lamp, or Computer connected. It would also be possible in a comfortable way, through simply place the accumulator of a second connector of the Charge device according to the invention. The first or the second Connecting element may also be of a textile nature, for. B. as wallpaper or as Clothing. The wallpaper could serve as a second fastener on it Surface consumers wear, e.g. Diodes or speakers. In this example could be a wallpaper-bearing wall in part or in full first Serve connecting element. In the case of garments, e.g. the second Connecting element, e.g. in the form of a jacket, over the first fastener, e.g. a sweater, to be worn. Relative movements of the connecting elements In principle, the energy transfer does not interfere with each other as long as there is contact surface and mating contact surface have sufficient contact.

Basically, all possible flat objects come into question, the Transmission of energy or information in electrical form are useful, including z. B. Carpets, surfaces on furniture or in the interior of vehicles.

It is not only the transmission of electricity to drive consumers useful. Alternatively or simultaneously, information, in particular data for the electronic data processing, from the first to the second connection element be transmitted.

A substantially regular arrangement of the dispensing contact fields and the Recording contact fields can be a secure contact while avoiding of shorts. If the arrangements agree, i. are both the output contact fields as well as the pickup contact fields e.g. in one arranged square grid, it may be necessary to different Grid dimensions to use. For circular contact surfaces, the grid would be the Sum of contact field diameter and shortest clear distance between immediately adjacent contact fields. This can be ruled out that the Pickup contact fields always placed exactly in the gaps of the dispensing contact fields are.

Below are individual examples of training for the electrical according to the invention Connecting arrangement described with reference to figures.

Fig. 1: eine mögliche Verteilung von Abgabekontaktfeldern für ein erstes Verbindungselement,

Fig. 2: mögliche Anordnungen von Aufnahmekontaktfeldern der Anordnung der Abgabekontaktfelder gemäß Fig. 1, überlagert,

Fig. 3: eine alternative Anordnung von Abgabekontaktfeldern,

Fig. 4: mögliche Anordnungen von Aufnahmekontaktfeldern, der Anordnung von Abgabekontaktfeldern gemäß Fig. 3, überlagert,

Fig. 5: eine weitere Alternative zur Anordnung der Abgabekontaktfelder,

Fig. 6: ein weiteres Beispiel für eine Anordnung von Aufnahmekontaktfeldern,

Fig. 7: die Anordnung der Aufnahmekontaktfelder gemäß Fig. 6, der Anordnung der Abgabekontaktfelder gemäß Fig. 7 überlagert, und

Fig. 8: eine Verschaltung in einem zweiten Verbindungselement.

It shows schematically

1 shows a possible distribution of dispensing contact fields for a first connecting element,

2 shows possible arrangements of receiving contact fields of the arrangement of the dispensing contact fields according to FIG. 1, superposed, FIG.

3 shows an alternative arrangement of dispensing contact fields,

4 shows possible arrangements of receiving contact fields, the arrangement of dispensing contact fields according to FIG. 3, superimposed, FIG.

5 shows a further alternative to the arrangement of the dispensing contact fields,

6 shows a further example of an arrangement of receiving contact fields,

FIG. 7 shows the arrangement of the recording contact fields according to FIG. 6, superimposed on the arrangement of the output contact fields according to FIG. 7, and FIG

8 shows an interconnection in a second connecting element.

Fig. 1 shows a possible arrangement of dispensing contact fields 3 in one Connecting element whose contours are not shown separately here. The Abgabekontaktfelder 3 are arranged in a contact surface 4, in the present Example is, but can take other forms. The Dispensing contact fields 3 are arranged in a regular square grid, where next Nachbam of Abgabekontaktfeldern 3 each poled differently are. The different polarities are by the numbers 1 and 2 in the Dispensing contact fields 3 shown schematically. The polarity is achieved by the respective connection of the output contact fields 3 to the corresponding pole one here not shown voltage source. To the contact between the Make output contact fields 3 and a consumer, the contact surface 4 with a mating contact surface (12a-d) of a likewise not shown in its contour merge the second connecting element.

FIG. 2 schematically shows the arrangement of the dispensing contact fields 3 according to FIG. 1 together with a plurality of arrangements A, B, C, D of receiving pads 5 of FIG a total of four second connecting elements after the assembly of the Contact surface 4 with the respective mating contact surface (12a-d). At each of the four Connecting elements may, for. B. in each case a separate, not shown here, Consumer be connected. The joining can z. B. by means of magnetic Forces between the contact surface 4 and mating contact surface 12 a-d be effected or as exemplary alternatives through mechanical aids, such as screws, hooks, Adhesive or substantially horizontally mounted contact surfaces through the Gravity. In a marked in Fig. 2 with "A" first arrangement of Recording contact fields 5 are the individual recording contact fields 5 hexagonal positioned to each other. The diameter of the circular receiving contact fields 5 is smaller than the smallest distance between the dispensing contact fields 3. This is ensures that no short circuit between the dispensing contact fields 3 arise can. On the other hand, due to the hexagonal arrangement to the selected Intervals between the pickup pads 5 ensures that at least two output contact fields 3 different polarity 1 and 2 of the Recording contact fields 5 are contacted. The arrangement "B" of Pickup contact fields 5 is identical in itself to the arrangement "A", however For example, an arrangement "A" has a different orientation relative to the output contact pads 3 elected. Again, short circuits are excluded. In addition, there is always a contact to two output contact fields 3 different polarity 1 and 2 guaranteed.

The arrangements "C" and "D" are further examples of a hexagonal arrangement of Recording contact fields 5, but with a smaller number of Recording contact fields 3. Safe contacting of at least two Abgabekontaktfelder 3 different polarity 1 or 2 is given in the given Arrangement of the output contact fields 3 achieved in that the gaps between adjacent receiving contact fields 5 are dimensioned so that in them no Abgabekontaktfeld 3 without contact to one of the receiving contact fields 5 placed can be.

Fig. 3 shows an alternative arrangement of dispensing contact fields 6, whose different polarity is now represented by the symbols "+" and "-". The Dispensing contact fields 6 are again arranged in a square manner and have opposite to the arrangement in Fig. 1 each have a square field surface. In addition is the distance between the Abgabekontaktfeldern 6 significantly lower than that of the Dispensing contact fields 3 in Fig. 1. With the changed arrangement and dimensioning the output contact fields 6 is also the arrangement of the receiving contact fields 7 (FIG. 4) adapt. The diameter of the receiving contact fields 7 is again smaller than the shortest distance between the output contact pads 6, so that a short circuit in avoided in any case. The distances and arrangement of the receiving contact fields 7 is shown in four examples E, F, G and H in FIG.

FIG. 5 shows another example of an arrangement of dispensing contact pads 8 in FIG a contact surface 13, the different polarity in turn by the numbers "1" and "2" is reproduced. The dispensing contact fields 8 are completely irregular designed. However, a certain minimum distance between the Output contact fields 8 never fallen below. Fig. 6 shows a possible arrangement for this purpose matching receiving contact fields 7 in a mating contact surface 14, whose Diameter is always smaller than the aforementioned minimum distance. Fig. 7 shows the Arrangement of the receiving contact fields 9 superimposed with the arrangement of Dispensing contact fields 8.

It becomes clear that in suitably coordinated arrangements of Abgabekontaktfeldern 3, 6, 8 and recording contact fields 5, 7, 9, the orientation of the Arrangements to each other for the production of the desired electrical contact is arbitrary. That is to say that a consumer working on a suitable arrangement of Recording contact fields is connected, in any way to a first Connecting element, z. B. a wall can be attached without you on Any absolute positions or orientations would need to be considered. This is especially advantageous in trade fair construction, where relatively short-lived bodies as variable and easy to be designed.

It is also readily possible for a variety of consumers, each one second connecting element, with a single first Contact connection element.

FIG. 8 shows by way of example how the voltage which can be absorbed by receiving contact fields 5 can be forwarded to a consumer 10. The recording contact fields 5 in Fig. 8, no specific polarity is assigned, as this depending on the positioning of the associated second connecting element on the contact surface 4 of the first Connection element is dependent. Each receiving contact field 5 has two Rectifier elements, connected here by way of example in the form of diodes 11. The each two to one of the receiving contact fields 5 belonging diodes 11 are connected in parallel opposite to each other. Is z. B. the receiving contact field 5a connected to a positive pole, the diode 11a is connected in the forward direction, while diode 11b is off. On the other hand, the pickup contact field 5b is at the Negative pole connected, the diode blocks 11a, while the current through the diode 11b can flow. The diodes 11 of the same orientation are in electrical contact with each other and thus lead to a pole for the connection of the consumer 10. Instead of the individual diodes 11, it may be useful, for. B. bridge rectifier circuits provided.

Due to the rectifier, the affected here electrical connection assembly be supplied with both AC and DC, since in the case of Sign change at AC voltage the opposite switched Rectifier, z. B. the diodes 11a and 11b in Fig. 8, the blocking function or Exchange the pass function. In the case of time-varying voltages, z. B. in the Transmission of signals for speakers, it may be useful to use a DC voltage to superimpose, so no sign change in the voltages at the consumer accumulates and distortions due to the rectifier can be avoided.

LIST OF REFERENCE NUMBERS

1

Output contact field for first voltage value

2

Output contact field for second voltage value

3

Dispensing contact field

4

contact area

5

Recording contact field

6

Dispensing contact field

7

Recording contact field

8th

Dispensing contact field

9

Recording contact field

10

consumer

11

diodes

12a-d

Against the contact surface

13

contact area

14

Against the contact surface

Claims (7)

Electrical connection arrangement comprising at least a first and at least one second connecting element, wherein b) the at least one first connecting element has a multiplicity of dispensing contact fields (3, 6, 8) arranged at a distance from one another and in a contact surface (4, 13), c) the output contact fields (3, 6, 8) can be connected to at least one voltage source such that a first subset (1) of the output contact fields (3, 6, 8) has a first voltage value and at least a second subset (2) of the output contact fields (3 , 6, 8) has a second voltage value different from the first voltage value, and d) the at least one second connecting element has a multiplicity of receiving contact fields (5, 7, 9) arranged at a distance from one another and in a mating contact surface (12, 14), characterized in that e) each within the contact surface (4, 13) given distance between two provided for different voltage values Abgabekontaktfeldern (3, 6, 8) is greater than the largest in the mating contact surface (12, 14) given receiving contact field diameter and f) the output contact fields (3, 6, 8) and the receiving contact fields (5, 7, 9) are arranged in such a way and the voltage values are distributed on the output contact fields (3, 6, 8) such that when the contact surface (4 , 13) with the mating contact surface (12, 14) of the receiving contact fields (5, 7, 9) at least two different voltage values are tapped. Electrical connection arrangement according to claim 1, characterized in that at each receiving contact field (5, 7, 9) a first rectifier element (11a) and a second rectifier element (11b) are connected in opposite parallel opposite one another, wherein on the one hand the first rectifier elements (11a) and the the second rectifier elements (11b) are in each case electrically connected to each other to form in each case one pole for the connection of a load (10). Connecting arrangement according to claim 1 or 2, characterized in that a separate DC voltage source is arranged on the first connecting element, the output voltage of an AC voltage, for. B. for the transmission of analog speaker signals, can be superimposed. Connecting arrangement according to one of claims 1 to 3, characterized in that the at least one first connecting element is at least part of a tabular element, in particular a wall, a ceiling, a floor or a work surface. Connecting arrangement according to one of claims 1 to 3, characterized in that the at least one first connecting element and / or the at least one second connecting element is at least part of a wallpaper. Connecting arrangement according to one of claims 1 to 3, characterized in that the at least one first connecting element and / or the at least one second connecting element is at least part of a fabric, in particular a garment, a mat, a carpet or a blanket. Connecting arrangement according to one of claims 1 to 6, characterized in that the dispensing contact fields (3, 6, 8) and / or the receiving contact fields (5, 7, 9) in a regular structure, such as a square or hexagonal grid, are arranged.

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