DE1016805B - Device for receiving and executing remote control commands, preferably transmitted by means of audio frequency pulses - Google Patents

Description

Device for receiving and executing, preferably by means of Remote control commands transmitted by audio frequency pulses It is already a procedure proposed for remote control of electrical switching devices, in which the transmitted electrical control power on the receiver side in a storage device is stored for a certain time, whereupon the stored energy in comparatively shorter time, but with greater power for actuating a switching device is delivered. A storage device, preferably in Form of a capacitor connected to a relay circuit. The means The audio frequency transmitted pulses are an input circuit on the receiving end supplied, which is designed such that it the control voltage to a desired Limited value. A glow lamp is expediently provided for voltage limitation, which is connected in parallel to the storage capacitor. When the start impulse arrives a synchronous motor is switched on, which drives a mechanical selection element. When others arrive, they are used to select or execute commands Impulses, a shaft driven by the synchronous motor is shifted in the axial direction and thereby in the area of command execution contacts arranged in a circle brought.

The invention relates to a remote control receiver for receiving the Network of imprinted audio frequency pulse patterns for switching on or off in the network as required Distributed consumer, in which when a start pulse is received via a relay a synchronous motor is started up, the mechanically acting selection elements drives. According to the invention, a particularly advantageous arrangement is created by that the armature of the relay responding to the pulses on the rotating part of the selection member attached and mechanically separated from the fixed relay coil is. This triggers the relay or the movement of the contact piece in every angular position possible and does not require any additional operating linkage, such as which is necessary in the above-mentioned arrangement. Also with the device according to the invention, the shaft driven by the motor is not shifted in the axial direction, rather, a contact piece is arranged on a disc driven by the motor shifted in the radial direction when the impulses arrive. This also makes the Previously necessary axial displacement in the gear mesh avoided.

An exemplary embodiment of the invention is shown schematically in the drawing shown, namely Fig. 1 shows a (cross section through the receiving device, 2 shows a view from the front with the housing cover partially removed. In the base plate 1 are embedded some electrical circuit parts, such. B. the band filter 2, the capacitor 3 and the glow lamp 4. The base plate 1 is covered by an insulating plate 5, which has a recess in the middle part. In this recess, the synchronous motor 6 is on the insulating plate 5, and that is practical attached to the flange 7. A housing 8 is screwed to the motor 6, which with regard to its shape corresponds to the shape of the motor housing.

In the housing 8 a gear 9 is housed, the output of which through the axis 10 is shown. On the axis 10, a flange 11 is attached, which is provided with a cross hole. A bolt 12 is guided in this Ouerbbohrung. The bolt itself is in turn drilled transversely and contains the at this point Locking pin 13. A spring 14 placed around the bolt 12 presses the locking pin against the inner wall of a hole in the relay armature 15. The locking pin 13 is also guided in an elongated hole 16 which is located in an insulating disk 17. This insulating washer is also attached to the flange 11 and rotates as well the relay armature 15 with the axis 10. The insulating disk 17 carries on its circumference Switching cams for actuating a contact spring set 18 with the contact spring pairs a, b and d, e. On the circumference of the housing 8 toggle switches are also screwed, of which in section (Fig. 1) the toggle switch VI is shown. The; Number of these Toggle switch depends on the number of commands to be recorded and on the available space. In general, there can be up to eleven toggle switches on the circumference of the housing screwed in this way. While the contact spring set 18 then comes into action when the first impulse belonging to a command, i. H. the Start impulse arrives, the toggle switches, z. B. VI, the execution of the intended and received commands. There is an indicator on the toggle spring 20 of the toggle switch VI 21 attached, which makes the respective circuit visible through a glass window 25. For this purpose, there are breakthroughs in the dial above the indicator 22 to which the relay 23 is attached. The switch assembly is through the cap 24 covered with the window 25.

Assuming now that a command is received that consists of two audio frequency pulses with a specific time interval, the following effect occurs when the start pulse arrives: The audio frequency superimposed on the network flows through filter 2, is then rectified and fed to storage capacitor 3. As soon as the ignition voltage of the glow tube 4 is reached, the capacitor is discharged via the relay 23. The relay armature 15, which is located in the center of the structure, is attracted and the locking pin 13 engaging in its bore is released. The relay armature 15 is attached to the rotating insulating disk 17 by means of a spring 19 in order to ensure its mobility in the aforementioned sense. Since the locking pin 13 is now released, the spring 14 pushes the bolt 12 with the locking pin to the right as long as this movement is not terminated by the delimitation of the elongated hole 16 in the insulating washer 17. During this movement, the bolt 12 moves a contact piece 26 into radial direction, ie to the right in the drawing, and this pushes the switching pin 28 to the right with a lug 27 until the contacts a and b of the contact spring set 18 are closed The gear 9 drives and thus also sets the parts fastened on it in rotation via the axis 10. As soon as the switching piece 26 has executed a small rotary movement out of the position shown, the switching pin 28 is placed on the contact spring a on the cylinder jacket 29 of the disk 17, so that the contacts a, b remain closed and the motor continues to run en in the direction of rotation following toggle switch, z. B. So the toggle switch I reached, the switching piece 26 is moved into its starting position radially towards the center by means of a cam on this toggle switch until the locking pin 13 reaches the center of the structure again and engages in the bore of the relay armature 15. The start impulse has meanwhile ended and the relay armature has dropped out again.

The contact piece has thus reached the position required to operate the toggle switches I to KI. In the left part of FIG. 1, the position of the contact piece 26 for the disconnection is shown in dashed lines. For this purpose, there is a cam 31 on the contact piece, which pushes the lever 32 upwards until the spring 20 tilts outward under the influence of a toggle spring 33. So if, in the course of the rotation of the insulating disk 17, the contact piece 26 is just in front of the toggle switch VI and the command execution pulse is received at this moment; 3n in the same way as previously described, when the relay armature 19 is tightened, the locking pin 13 is released and the contact piece 26 is pushed radially by the bolt 12 into such a position that the cam 31 can lift the lever 32. In order to avoid too frequent start-up of the glow lamp 4, which has a limited service life, the toggle switch device is not carried out with the aid of an ignition of the glow lamp. When the motor 6 is switched on through the contacts a, b , the contacts d, e, through which the glow lamp is short-circuited, are also closed. On the circumference of the disks, cams only briefly open the contacts d, e. When a command pulse arrives, the storage capacitor 3 is now not charged until the glow lamp is ignited. Rather, the capacitor discharge takes place because of the connection between the contacts d, e directly via the relay 23, whereby, as already described, the contact piece 26 is moved radially outward. In Figure 2, the contact piece 26 is shown in the rest of the outer working position. The time at which the relay is triggered is determined by the position of the switching cams on the disk 17. The toggle switch VI can now be brought into the switched-on position by means of the lever 32 by the pressure of the nose 35 on the switch piece 26.

After a full revolution of the axis 10, the roller 30 slides on the contact piece 26 via the cam 34 on the contact spring set 18 back into the starting position. The bolt 28 jumps into a slot in the insulating washer 17 in front of the now inward. pushed nose 27 of the contact piece 26 and thus interrupts the motor circuit by opening the contacts a, b.

It is therefore essential for the device according to the invention, above all, that a radial movement of a contact piece to reach the switch-on or switch-off level the contact devices is used. An axial shift in the gear mesh is not necessary. The shift of the contact piece 26 into the starting position is only in the presence of a toggle switch by means of cams 34 attached to the switch necessary, d. H. when a command is identified by two impulses, i.e. only twice in the course of a full revolution. This causes greater wear and tear of the transmission parts avoided. Due to the offset arrangement of the switching cams 31 and 35 becomes an otherwise required movable switch pin arrangement, which is easy to Deadlock tends to be avoided. The triggering of the relay or the movement of the contact piece is possible in every angular position because the relay armature is in the center of the structure lies and rotates with the insulating disk 17. The arranged on the circumference of the housing Toggle switches are easily accessible, and each and every toggle switch can be used as a result its spring set-like construction can be easily monitored.

Claims (7)

PATENT CLAIMS: 1. Remote control receiver to receive the network imprinted Tonfr.equenzimpulsbilder for switching on or off in the network arbitrarily distributed loads, in which when a start pulse is received via a relay, a synchronous motor is started, which drives mechanically acting selection elements, characterized in that the armature of the relay responding to the impulses is mounted on the rotating part of the selector and is mechanically separated from the fixed relay coil. 2. Device according to claim 1, characterized indicates overall that the beeinfflußte from the armature (15) and move the selection of the commands causing mechanical element (26) in the radial direction. 3. Apparatus according to claim 1 and 2, characterized in that the radially shifted mechanical one causing the switching of the command contact Element (26) is only returned to the starting position when a command contact is introduced in the path of this element. 4. Apparatus according to claim 1 to 3. characterized in that the motor (6) has a flange (11) with one thereon attached insulating washer (17) drives. 5. Apparatus according to claim 1 to 4, characterized in that the flange (11) is provided with a transverse bore, in which a bolt (12) is guided, which is also pierced transversely and in this Bore a locking pin (13) carries one end into the relay armature (15) intervenes. 6. Apparatus according to claim 1 to 5, characterized in that the locking pin (13) in a radially directed slot (16) of the insulating washer (17) can move. 7. Apparatus according to claim 1 to 6, characterized in that the bolt (12) is under the action of a spring (14) which it and the locking pin connected to it (13) when tightening the relay armature, ie when a pulse arrives, moves in the radial direction, wherein the locking pin slides in the elongated hole (16) of the insulating washer (17). B. Device according to claim 1 to 7, characterized in that the insulating washer (17) carries a radially displaceable switching piece (26) on the circumference, which adjusts a switching pin (28) of a contact spring set (18) with a nose (27) and thereby at first. Impulse switches on the motor (6). 9. Apparatus according to claim 1 to 8, characterized in that after starting up and covering a small angle of rotation of the switching pin (28) from the cylinder jacket (29) of the insulating washer (17) taken over and thereby the contact spring set (18) for the motor supply is further closed is held. 10. The device according to claim 1 to 9, characterized in that on the circumference of the insulating washer (17) a plurality of contact springs consisting of contact pieces (I to XI) are arranged according to the number of commands to be executed. 11. The device according to claim 1 to 10, characterized in that the switching piece (26), as soon as it reaches the next switching piece (I) during rotation, is pushed back radially into its starting position, with the bolt (12) and locking pin (13) get into the original position and the latter with the relay armature that has since fallen off. (15) is latched. 12. The device according to claim 1 to 11, characterized in that each of the switching pieces (I to XI) is provided for the purpose with a wedge-shaped cam (34) and the switching piece (26) with a roller (30). 13. The device according to claim 1 to 12, characterized in that the rotating contact piece (26) is connected to a cam (31) for actuating the contact pieces (I to XI) and the associated toggle switch for command execution. 14. Apparatus according to claim 1 to 13, characterized in that the contact spring set (18) in addition to the. Contacts (a, b) closed at the start impulse, which ensure the rotation of the motor (6), contains further contacts (d, e), which are kept closed for one full revolution of the insulating washer (17) and later incoming command impulses are transmitted directly to the relay ( 23). 15. The device according to claim 1 to 14, characterized in that when a command pulse arrives, the contact piece (26) is moved outwards in the radial direction just like the start pulse, and the contact piece just reached (z. B. VI) actuated. 16. The device according to claim 1 to 15, characterized in that after a full revolution of the axis (10) the roller (30) of the contact piece (26) is returned to the starting position via a cam (34), the bolt (28) jumps into a slot in the insulating washer (17), thereby opening the contact spring set (18) and stopping the motor (6). Considered publications: Swiss Patent Specifications Nos. 238 741, 252 219; French patent specification No. 919 539.