DE1158614B - Locking switch with motor drive - Google Patents

Description

Latching switch with motor drive The invention relates to an arrangement for remote control of a latching switch.

A step-by-step mechanism is known in which everyone is on the winding A current pulse given by a solenoid via a ratchet and a ratchet wheel the further rotation of a switching arm causes a contact. Every contact is there another solenoid is assigned to trigger other processes. A selection skipping the contacts is not possible.

There are also latching switches with preselection devices for setting certain channels, so that the switch is only available for these preset Channels. In general, however, adjustment is difficult and often can can only be carried out by a specialist using certain tools.

A remotely controllable motorized latching switch is also known, in which -the motor is first switched on briefly via the remote control, whereupon the motor, after starting, has a switch in series with the first switch Changeover switch actuated and the excitation circuit continues to close via this changeover switch, until a cam rotating with the motor triggers the switch after exactly one revolution continues to be operated and thereby switches off the motor. In this known arrangement Several selection disks are attached to the motor axis via toggle relay arrangements to control z. B. pumps, electric boilers, etc. can be used.

It has also been proposed to fix one to the switch shaft connected or independent of their movement fixed disk with transmitter adjustment members to be provided, which are arranged on different diameters of the disc and actuate a contact assigned to a specific transmitter. At this The solution, however, is several contacts for stopping, depending on the number of transmitters of the engine is required. In addition, another pair of contacts must ensure that this is the case that the motor is in the correct position and not between two locking positions stop.

The invention is based on the object of creating a latching switch, which can be set both manually and with remote control and gradually Stop of the control command when stopping, do not overrun the contact position can.

The invention is based on a latching switch with a motor drive, the Drive motor short-circuits the control contact when it starts. It consists in that the motor circuit via the short-circuit contact and via a settable cam controllable contact is guided and that a latching in every possible contact position Arm is driven by a shaft which is positively-elastic with the switch drive shaft connected is.

As a result of the open switch, the motor can initially only run through Operation of the remote control switch are energized. As soon as the engine starts moving an anchor pin closes the open switch to close a path of the voltage source to the input of the motor via the two switches. After manufacture This current path can be used to turn off the remote control switch, and the The motor keeps moving. A disc provided with slidable cams is rotated near the closed controllable contacts by the motor. When turning of the disc, each cam that is moved to a certain point opens the normally closed controllable contact, so that the engine is switched off. Every button corresponds to a detent position, so that the receiving channels corresponding to the detent positions can be set simply by shifting the cams in the preselection. As a result of the normally open short-circuit contact connected in series with the motor input a channel switch button can be operated by hand.

For a more detailed explanation of the arrangements characterized in the claims an exemplary embodiment is described below with reference to the drawing. In Fig. 1 is a channel switch with a reversible, two pairs of windings 14 and 16 and a motor 12 having a drive axle 18. Instead of the reversible Motor, a motor with one direction of rotation can also be used. For controlling the direction of rotation of the axis 18, a capacitor 20 and a switch 22 are provided. The contact arm 24 of the switch 22 is via a line 26 to the terminal 28 of the two input terminals 28, 30 of an AC voltage source 32 connected. The two Contacts 34 and 36 of switch 22 are contacted individually by contact arm 24 and are each connected to one end of the windings 14 and 16 via lines 38 and 40, respectively. The other ends of these windings are connected via line 42.

The last-mentioned ends of the windings 14, 16 can have three different ways to ground. One path leads to one via line 44 normally open contact system 46 and via line 47 to a normally closed contact system 50. The contact system 46 includes a fairly solid Contact spring 52 and a compliant contact spring 54, both on an insulating block 56 are arranged. A pair of contacts attached to the ends of springs 52 and 54 58 completes the cycle when both springs are through the pin attached to spring 54 60 are moved together. This pin 60 is drawn into the by solenoid action Motor in as soon as it is fed, and therefore brings the contacts 58 together, by pulling the spring 54 towards the spring 52. The other contact system 50 includes one fairly firm contact spring 62 and a resilient contact spring 64, which on a Insulating block 66 are arranged. Touch because of the slight bend in the springs normally the contacts fixed on these springs 67. When pressing on the button 68 located at one end of the spring 64 becomes the spring 64 of the spring 62 to separate the contacts 67 removed. The spring 64 lies over the line 70 to ground and via the ground connection to input terminal 30.

A second way to earth for the mentioned winding ends leads over a line 74 to one side of the switch located in the remote control. 76. The switch 76 is actuated by a push button 77 which is depressed by two to close contacts not shown, which close the path via the switch 76. The other side of switch 76 is grounded via line 78.

The third way to the ground leads via a line 79 to one side of the momentary switch 80. This switch is controlled by a mechanical coupling 81 actuated, which close the contacts not shown in the switch 80, when the arm 24 moves. The other side of the switch is on line 82 80 in mass. A normal television receiver would have switch 80 and the Switch 22, possibly in a single arrangement, next to the control button of the Install the channel switch.

Since the torque required to drive the tuning axis is quite large is, the drive motor 12 itself must be quite large if it is the axis directly drives. But it can also be relatively small if it has the axis via a gearbox drives. In the arrangement described, both the large and the small Motor can be used. In the embodiment shown in Fig. 1 is the motor 12 is small so that a reduction gear 83 is required. This The transmission consists of a small drive wheel i arranged on the axle 18 84 and a large drive wheel, not shown, arranged on the axis 86. The type of reduction gears is arbitrary.

The axle 86, at one end of which a locking device is attached, is driven by the transmission 83. This locking device consists of a with of the axis 86 connected drive plate 90 and a preferably coaxial to the Plate 90 arranged, driven plate 92. Several preferably in the right Springs 94 tensioned at angles relative to the axis of plates 90 and 92 connect both Plates together.

The driven plate 92 is at one end of the tuning axis 96, the channel switch button 98 is attached to the other end. When turning the axis 96 by the button 98 is on the plate 92 in the tuning device 100 the Channel tuning changed.

The end of the axis 86 opposite the latching device 88 is connected to the center of a program disk 102, which rotates in the vicinity of the button 68 of the contact system 50. This disc consists of a circular member 104 provided with a plurality of radial notches 106. The position of the notches is chosen so that if any notch is adjacent to button 68, the tuner is tuned to a channel. In other words: If a notch 106 lies next to the button 68, the television receiver is tuned to a channel because of the angular position of the tuning axis 96. Each notch is provided with a cam 108 displaceable from the center to the circumference of the link 104. When the cam 108 movable in the notch 120 is displaced circumferentially, it presses on the contact piece 68, so that the contacts 67 are separated. The washer 102 also includes a ring 110 secured to the periphery of the member 104 by rivets 111. The purpose of the ring 110 can be better explained with reference to FIG.

A broken away part of the disk 102 is shown in FIG. Near the periphery of member 104, each notch 106 has an enlarged portion 112 for the insertion of the cam 108. After the insertion of the cams 108, the Extended parts 112 of the ring 104. Covered to a possible deviation of the cams in these parts and thus to prevent their removal from member 104. Random Movements are further prevented by the projections 113 over which the cams only by the application of a fairly strong external force, e.g. B. by hand. pushed can be.

In Fig. 3, the cross section of a cam 108 is along the line 3-3 shown in FIG. Each cam 108 accordingly consists of a U-shaped Link with side walls 114, 116 and connecting part 118. This latter part is in contact the head 68 of the contact system 50. The cam 108 engages with its notch 120 of the Notch 106 in the side wall. As a result of the U-shape of this cam, its side walls are compressed so that it can be moved over the projections 11.3.

If a television set equipped with the channel switch system is used for The first time a house is set up, the desired ones should be available Transmitters corresponding cams are immediately shifted to the outer ends of the notch 106, since only these cams open the normally closed switch 50.

After setting the desired channels in the channel switch system this is ready for use. A channel switch can now be made by any of the three means can be achieved: the switch 76 in the remote control, the switches 22 and 80 and manually by button 98.

The remote control is activated by pressing the button 77 of the switch 76 executed, which form a circuit from the voltage source 32 via the windings 14 and 16 closes. The resulting excitation of the motor 12 generates a magnetic one Field that pulls armature pin 60 into motor; this closes the normally open contacts 58. When these contacts are closed, the is Switch 76 bridged by switches 46 and 50 via line 44. Then can the button 77 can be released without affecting the circle. The whole process takes place in such a short time that it is sufficient to briefly press the button 77 to press.

The motor 12 drives the latching device 88 via the axis 86 and the Gear 83 on. Although the motor drive has a smooth and smooth rotation is, the tuning axis 96 of the locking device 88 due to a with the Axis 96 connected, not shown latch driven intermittently, whose Snap action the angular position of the tuning axis that always corresponds to a channel secures when this axis is not necessarily held between channel positions. In the case of a direct connection between axes 86 and 96, if the former does not stop exactly on one channel, the frictional force of the axle 86 driving it could be Elements be large enough to despite the force of the latch, the axis 96 between to keep the channel positions. Means must be provided to avoid this disadvantage be to couple the rotational force of the axle 86 to the axle 96 so that the latch always maintains its effectiveness. This means is the latching device 88. During the plate 90 of the locking device rotates, the plate 92 remains immobile, until the force generated by stretching the springs 94 is large enough, the force of the Overcome latch. Only then does the plate 92 drive the axle 96. If this happens, the force generated by the springs 94 is canceled because the springs are no longer stretched as they were before. The latch can then be the axis 96 stop at a position corresponding to a channel. If therefore the feathers 94 are stretched enough, the axle 96 is driven to a new channel position. But if the springs are not stretched enough, the axis 96 remains in their old channel position. This axis is therefore always in a channel corresponding to a channel Position.

The shaft 86 rotates until a cam 108 contacts the button 68. When this happens, contacts 67 separate and open the circuit of the motor 12. As a result of the engine switching off. if the anchor pin 60 is released, so that the contacts 58 open. Because of the mass of the moving parts of the engine 12, of the gearbox 83, etc., the axis 86 can be turned off after the motor has been switched off turn a little further. It follows that the cam interrupting the motor circuit 108 still pass the button 68 and therefore cause the contacts 67 to close can. However, this is not important, since those connected in series with the contacts 67 Contacts 58 have been opened. Because the angular position of the Motor 12 causing cam 108 corresponds to a channel, holds the tuning axis 96 on a selected channel.

For a further channel switching, the switch 76 is used again associated button 77 is pressed so that the motor 12 is energized and those described above Process repeated. If there is a cam 108 on the button 68 at the beginning of the process, so that the contacts 67 remain open, there is no difficulty in starting of the motor, because as soon as the motor is started by the switch 76, he the the disk 102 drives rotating shaft 86. The cam 108 is then released from the button 68 separated.

As mentioned before, you can switch channels using the switches 22 and 80 can be achieved. These switches are in the receiver housing as auxiliary channel switches of the button 98 is provided. These switches also have a directional property. To explain these direction-determining features, it is assumed that the tuner 100 is set to channel 6 and switched to channel 4 shall be. If the drive is from a motor with one direction of rotation, then must the tuner sweeps ten channels instead of two channels in the opposite direction. When using a reversible motor, the Arm 24 of switch 22 touch the appropriate contact (either 34 or 36) so that the tuner sweeps the smaller number of channels. This happens, because the motor 12 in one position of the arm 24 (contact 34) in one direction and in another position (contact 36) rotates in the opposite direction.

To explain the directional control of the switch 22, it is assumed that the arm 24 is at the contact 34. In this case, one end of the voltage source 32 is connected directly to one end of the windings 14 , but only indirectly to one end of the windings 16 via the capacitor 20. When the circuits containing these windings are closed, the current flowing through the windings 16 leads the current flowing through the windings 14 by 90 ° because of the presence of the capacitor 20. The axle 18 then rotates in one direction. If the arm 24 lies on the contact 36, then said end of the voltage source 32 is connected directly to the winding 16 and indirectly to the winding 14 via the capacitor 20. Then the current flowing in the winding 14 leads by 90 ° with respect to the current flowing in the winding 16, so that the motor runs in the opposite direction.

As previously stated, the switch 80 is momentarily closed when the switch 22 is operated. Since the switch 80 is connected in parallel with the switch 76 this closing has the same effect as the operation described above of switch 76. Accordingly, when switch 22 is actuated, motor 12 is energized, so that the axis 18 to carry out the fastest channel search in the appropriate Direction is running. To change the introduced in the selection system It is sufficient for channels to move the cams 108 with your fingers. This is very easy does not require any experience and can be done without tools.

Claims (5)

PATENT CLAIMS: 1. Motorized latching switch, its drive motor short-circuits the control contact when starting, characterized in that the motor circuit via the short-circuit contact (58) and via a settable cam (108) Contact (67) is guided, and that a latching in every possible contact position Arm is driven by a shaft (96) which is connected to the switch drive shaft (86) is positively-elastic (90, 92, 94) connected. 2. Latch switch according to claim 1 and 2, characterized in that the short-circuit contact (58) by an anchor pin (60) is closed; which is drawn into the motor (12) when it starts up will. 3. Locking switch according to claim 1, characterized in that the preselection device (102) is designed as a disc with radial slots in which the cams (108) are movable. 4. latching switch according to claim 1 to 3, characterized in that that the control button for manual operation is arranged opposite the motor drive is. 5. latching switch according to claim 1 to 4, characterized in that a switch to reverse the direction of rotation of the motor. Considered publications: German Patent Nos. 686190, 890 071, 758 819; Austrian patent specification No. 167 803; USA: Patent No. 2138,243. Earlier Patents Considered: German publication No. 1031347.