DE2613739A1 - Angular measurement transducer arrangement - uses circular array of microswitches and ladder connected resistances mounted on either side of nonconductive plate - Google Patents

Abstract

The angular measurement transducer consists of a circular array of magnetically operated microswitches with a small permanent magnet mounted on a central shaft and an associated ladder connected resistance chain. A non conducting plate (1) has mounted on it a circular array of magnetically operated, glass encapsulated microswitches (5) and on the other side of the plate, a corresponding number of ladder connected resistances (18). The relays make or break contact with each resistance and with a central track (14) common to all the relays. A small permanent magnet (23) mounted on an arm (22) on a central shaft (20) operates one relay at a time dependent on its angular position, and, if a voltage is applied to the resistor chain, a voltage proportional to the shaft angular position can be taken from the central common track (14).

Description

Electric transducer for a protractor

The invention relates to an electrical transducer for a protractor with a resistor arrangement extending along an arc of a circle, which with the aid of an actuator which can be rotated relative thereto about the arc center a potentiometer tap and has fixed taps at its ends.

In a known transducer of this type, the resistor arrangement is a circular arc-shaped resistance layer on which is designed as a conductive contact Potentiometer tap slides when the actuator is rotated. The one on this resistance layer The voltage value picked up in each case is a measure of the angular position of the actuator.

Sliding contacts are unsuitable for many applications because they Subject to frictional wear, which leads to inaccuracies, also requires this known transducer touch contact between actuator and resistor arrangement, in many applications, for example when the actuator is in a liquid is arranged and the resistor arrangement outside of this liquid, not is possible.

The object of the invention is to provide a transducer of the type mentioned at the beginning Kind of design so that no sliding contact and no physical contact between Actuator and resistor arrangement is required.

The invention is characterized in that the resistor arrangement a resistor series circuit is used for connecting the resistors to these stationary via a switch each leading to the common potentiometer tap Tap lines are laid, and that the switches are shielded gas switches, the equal to each other and each from one into an elongated tube with leads Magnetically operated switching elements fused to both tube ends exist, which, in relation to their tube axis, extend radially to the center, along the circular path and in the area of action of one attached to the actuator Permanent magnets.

are lined up in such a way that in every position of the permanent magnet only a small part of the intended switches along the row of switches, but at least one of the switches is always operated.

According to the invention, tap lines are activated by operating the switch activated, depending on the position of the permanent magnet, therefore depending on the angular position of the actuator. The one on the resistor series connection The voltage that can be tapped off by the potentiometer tap is therefore a measure of the angular position of the actuator. Since the magnet actuates the switch without contact, it is not a mechanical one or electrically conductive contact between the actuator and the resistor arrangement is required.

The resistor series circuit can be designed very finely, so that practically a continuous dependence of the tapped voltage value can be achieved from the angular position.

In the invention, it comes only to the relative movement between the Permanent magnets and switches. The invention is therefore applicable to stationary Magnets and, on the other hand, movable switches, in the case of stationary switches and the other movable magnet and also in cases where both the switch and the Magnet are movable.

The invention will now be explained in more detail with reference to the accompanying drawing.

In the drawing: FIG. 1 shows a first exemplary embodiment in plan view of a transducer according to the invention, FIG. 2 shows the rear view of FIG 1, FIG. 3 the section III - III from FIG. 1, FIG. 4 a switch from FIG. 1, FIG. 5 shows a second exemplary embodiment in the sectional view corresponding to FIG. Figure 6 in the sectional view corresponding to Figure 3, a third embodiment, FIG. 7 shows a fourth exemplary embodiment in the sectional view corresponding to FIG. 3, FIG. 8 shows the section VIII - VIII from FIG. 7, and FIG. 9 in a corresponding view Figure 3, but not in section, a fifth embodiment, Figure 10 in the A sectional view corresponding to FIG. 3, broken off, shows a sixth exemplary embodiment, Figure 1i broken off the view according to the arrow XI from Figure lo, Figure 12 in the View corresponding to Figure 1, a seventh embodiment, and Figure 13 that Exemplary embodiment from FIG. 12 seen from the rear.

According to Figures 1 to 3, 1 denotes an insulating board, on its front side 2 facing the viewer of FIG. 1 on an arc of a circle 3 a plurality of switches 5 are lined up around the center 4 radially to the center 4. the Switches 5 are the same as shown in Figure 4 as a protective gas switch formed and each consist of an elongated tube 6 with leads 7, 8 at both tube ends that are melted down there and one inside magnetically closable, normally open switching contact housed in the tube 9 lead. If the switching contact 9 is in the magnetic field of a permanent magnet, then it closes and remains closed as long as the magnetic field on the switch contact acts. The switches 5 are with their tube axis in the radial direction to the center 4 arranged. The leads corresponding to leads 7, 8 are through holes, for example the hole 12 in the board 1 inserted through it.

Auf.der back 11 are the same along the circular path 3 among themselves Resistors 13 lined up and connected to form a resistor series circuit. The radially outer leads, for example the lead 7, is used as a tap connected between two resistors to the resistor series circuit. Between An external tap is connected to every two resistors, while preserving the order in which the switches and resistors are arranged. The other inside Leads located, for example lead 8, are connected to a common potentiometer tap lead 14 connected. With 15, 16 and 17 three connection terminals are designated, the terminal 15 and 17 for tapping at the two ends of the resistor bank circuit 18 and the terminal 16 for the potentiometer tap line 14.

In the center 4, an actuator 20 is rotatable about the axis 21 of the center stored. A permanent magnet 23 is arranged on an arm 22 of the actuator 20, which is rotatable in relation to the circular path 3 or in relation to the row of switches 24 and in each rotary position a maximum of three of the switches are actuated at the same time.

The magnetic field of the permanent magnet is dimensioned so that the permanent magnet whenever it is opposite the row of switches. 24, i.e. when it is is not exactly in the recessed sector 25, always at least one switch actuated.

The embodiment shown in Figure 5 differs from that shown in Figure 3 only by the arrangement of the permanent magnet 23 on the actuator 26. According to FIG. 5, the permanent magnet 23 moves radially within switch row 27.

The third exemplary embodiment shown in FIG. 6 differs differs from the first only in that the insulation board 1 corresponding Insulating board 28 pivotable or rotatable about the axis 29 of the center 30 a shaft 31 is mounted, while the permanent magnet 23 corresponding Permanent magnet 32, on the other hand, is mounted in a stationary manner. The permanent magnet 32 is Arranged in a radial extension outside the row of switches 33. The not shown, are connected to the lines connected to the terminals 15, 16, 17 corresponding to the terminals flexible to swivel movements or limited rotary movements of the insulating board 28 to allow.

The magnetic field effect is also in accordance with the exemplary embodiments according to FIGS. 5 and 6 dimensioned so that at the moment a maximum of three switches can be operated that but as long as the magnet is facing the switches, there is always at least one switch is actuated.

In the fourth embodiment shown in FIGS two insulating boards 40 and 41 are provided. On the insulating board 40 are in the same radial arrangement as in Figure 1, inert gas switch 42 an arc 43 lined up around the center 44. Extends around this row of switches On the same side of the board there is a series of resistors made up of individual ones equal resistances 45 taken from the external leads, for example 46, the Switches are tapped, corresponding to the first embodiment. The two taps 47 and 48 at the ends of the resistor series arrangement are below Interconnection of a protective resistor 49 connected to a voltage source 50. The internal leads, for example lead 51, are connected to a potentiometer tap lead 52 connected, the tap 53 of which is connected to one pole of a voltmeter 54 leads that with his other pole connected to tap 48 is. The second plate 41 is plane-parallel and at a distance 55 from the first plate 40 mounted on this so that the switches and Find a protected place for resistors. The resulting disk-shaped arrangement 56 is arranged stationary and opposite it is with a distance 57 therebetween Actuator 58 is mounted rotatably about axis 59 passing through center 44. On an arm 60 of the actuator 58, a permanent magnet 61 is arranged, which when rotating the actuator along the circular path 43 moves the switches opposite and its magnetic field is so dimensioned that it has a maximum of four in each angular position Can operate switch, but operated at least one switch, except it is located with a tolerance in that shown in FIG. 8 by dash-dotted outlines 62 indicated rest position in the middle of a sector recessed by switches 63.

A protective gas switch 65 is inserted into the discharge line for tap 47, which is designed exactly as shown in Figure 4, but acts as an opener, which is normally closed and opened when exposed to a magnetic field will. This switch 65 is arranged so that it is then, and only then, opened when the permanent magnet is in its by the dash-dotted line 62 indicated rest position. The switch 65 then interrupts the power supply the voltage source 50.

In the embodiment shown in Figure 9 is a disk-shaped An arrangement which corresponds to the arrangement 56 from FIG. 7 is denoted by 80. These The arrangement 80 is rotatably mounted about the axis 81 of its center and on its periphery is stationary in the extension of the intermediate space corresponding to the intermediate space 55 a permanent magnet 82 is arranged, which on the housed within the arrangement 80 The switch acts magnetically in the same way as in the exemplary embodiment according to FIG 7 and 8. The connection cables are laid in the shaft of the arrangement 80.

In FIG. 10, one of the disk-shaped arrangement 56 is corresponding Arrangement shown in partial section and denoted by 83. The two boards are designated by 84 and 85 and in the space 86 are the switches and the Resistors arranged, of which a switch. 87 and a resistor 88 are shown is. The plates 84 and 85 are ring-shaped, as can be seen particularly well in FIG. and in the exposed inner area 90 is rotatable about the axis 91 of the center the row of switches a rotor 92 mounted, which is made of magnetically indifferent material exists and on the circumference of which a permanent magnet 93 is inserted, whose magnetic field is dimensioned so that when the permanent magnet faces the row of switches, so not exactly a sector omitted according to sector 63 - provided such a recessed sector is provided - but always a maximum of three switches at least one switch is always operated.

In the embodiment of Figures 12 and 13, the switches 101 arranged on a circuit board 102, on the rear side of which the resistors 103 are arranged are accordingly as described in Figure 1 along an arc 104 around the Center 105. The board 102 is, however, in contrast to the exemplary embodiment according to Figure 1, only one ring sector, in contrast to that on the actuator 106 around the axis of the center 105 rotatable .Permanentmagnet 107 is movable. The warehouse for that The actuator and the circuit board are each individually and with mutual adjustment as only symbolically indicated attached to mounting parts, not shown.

Claims (4)

ANS PRUC HE Electrical transducer for a protractor with a resistor arrangement extending along an arc with the With the help of an actuator which can be rotated relative to the circular arc center with a Potentiometer tap abt is mobile and has fixed taps at its ends, characterized in that the resistor arrangement is a resistor series circuit (18) is for which between the resistors (13) to these stationary over each a switch (5) to the common potentiometer tap (14) leading tap lines (8) are relocated, and that the switches (5) gas-shielded switches are mutually exclusive the same and each from one into an elongated tube with leads ( 7, 8) melted, magnetically actuated switching elements end at both tubes (9), which, based on their tube axis, extend radially to the center (4 ) extending along the circular path (3) and in the area of action of one on the actuator (20) attached permanent magnets (23) are lined up in such a way that in each Position of the permanent magnet along the row of switches always only a small part of the intended switches, but at least always one of the Switch, is operated. 2. Transmitter according to claim 1, characterized in that the switch (5) are arranged on one side of an insulating board (1) and with their derivatives (8) inserted through holes (12) in the insulating board (1) and to which the resistors (13) laid on the other side are connected are. 3. Transmitter according to claim 1, characterized in that the switch (87) and the resistors (88) in the space (86) between two plane-parallel IsolierstofSplatinen (84, 85) arranged at a distance from one another with a recess a central area (90) are laid and that the permanent magnet (93) in the central area (9o of the intermediate space movably arranged relative to the switches is. 4. Transmitter according to claim 1, characterized in that the switch around the resistances in the space between two plane-parallel spaced apart arranged insulating boards are laid and that the permanent magnet (82) radially outside the switch at the same axial height as this relative to the switches is movably arranged.