DE1640092A1 - Ripple control receiver of a remote switchgear operating according to the pulse selection process - Google Patents

Description

Ripple control receiver of a working according to the pulse selection process Remote switchgear In ripple control receivers, the control contacts have a high switching accuracy required because the width of a transmitted pulse is only about 1/300 of the circulation cycle and the readiness to receive a pulse for reasons of selectivity shouldn't be much bigger. With known types of ripple control receivers, where the control contacts are operated by cam switches, it is difficult to to comply with the required switching accuracy of the cam switches. It will therefore often those for selecting the desired command contact. provided, circumferential Control disk coupled by a converter gearbox with an additional disk, whose Rotational speed is many times greater than that of the control disk, which influences the cam contacts with greater accuracy.

The aim of the invention is to simplify the construction of ripple control receivers and to reduce their complexity. This is achieved by the invention in that the command selection .Contact disk is designed in the manner of a printed circuit and is scanned by sliding contacts. The formation of a Rundateuer receiver according to the invention makes it possible. that . which is made usable for the switching processes with printed circuits with simple checkout production ~ -accessible contour accuracy. The switching inaccuracy of cam contacts does not apply to sliding contacts. Because of the high accuracy of printed circuits and sliding contacts, the contact. selection can be made without a circumferential additional disk. With an arrangement according to the invention, conductive, narrow, radial webs can be attached to the outer edge of the disk, the spacing of which corresponds to the transmitted pulse rate and the width of which corresponds to the duration of a control pulse. With a normal rotation time of the selection wheel of 30 seconds and a control pulse duration of 110 ml%, with a wheel diameter of z. 9. 70 mm a land width of 0.8 mm, which is easily adhered to with printed circuits and by grinding. contacts can also be safely scanned ka =. It is advisable to arrange wider conductive segments on the inner tracks of the pane, and all webs and segments are conductively connected to one another. The standard control signals are fed to the sliding contact of the outer narrow webs and fed from the sliding contacts of the inner wide segments to the various triggering devices. This has the particular advantage that an exact adjustment is synchronized with the pulses transmitted by a transmitter.

for all switching commands of the same disk only on its sliding contact is required for the outer narrow webs, while the sliding contacts of the inner tracks can be inaccurately adjusted because of the wide segments. Some examples of the invention are shown in the drawing. It shows, see Fig.1t, an Iiuswahl contact disk shown according to the invention.

Fig. 2 & Another embodiment of a contact disc. Fib. 3s The basic circuit of a ripple control receiver. According to FIG. 3 of a ripple control receiver, mains voltage is supplied via a converter 1 to a filter 2, which filters out audio frequency signals and supplies them to a pulse relay 3. By a delay element 4, which is switched on by each switching pulse through the contact 31 of the relay 3, only the pulse that exceeds a minimum duration, namely the start pulse, is passed on to a magnet 5, which closes a contact 6 and at the same time the selection -Contact disc 7 releases. The disc 7 is driven via a slip clutch 8 by a synchronous motor 9, which is switched on by a contact 32 of the relay 3 at the beginning of the start pulse. Since the disc 7 is only released after a minimum duration of the start pulse, it has a precisely defined position to the control pulses Disc 7 executes a full revolution, the control impulses for triggering. Switching commands only have a very short duration, e.g. 110 milliseconds. They are only ever given when one of the narrow webs 11 runs through the outer edge of the disk 7 under a sliding contact 12. A control pulse only triggers a command via the contact 33 of the relay 3 if at the same time one of the segments 13-16 passes through the relevant web 11 under one of the sliding contacts 17 to 20, with each of which one of the relays 21 to 24 is connected that initiates the execution of the switching command assigned to it. The Fig. 1 shown in detail disc 7 is made of insulating material; on the outer edge it has scimal, radial, metallic elements 11, which can advantageously be etched out in the manner of a printed circuit, so that the spacing and width of the webs are precisely defined. The webs are connected to one another by a ring 25. On the inner tracks of the disk 7, wider, metallic segments 13-16 are arranged which, by their angular position in relation to the starting position, are assigned to a specific command and by their track to a specific one of the execution relays 21-24. The segments 13 - 16 are electrically connected to the webs 11 via the ring 25. Since many ripple control receivers are supposed to execute a command at the same time, for example to control street lighting, their logs 7 are designed in the same way. So you have the same position of the segments. If the number of pieces is larger, the disks 7 can be manufactured cheaply using printed circuit technology.

In certain cases it is desirable for the segments 13, 14 to be adjustable so that they can be set for the reception of any commands Embodiment of the invention are the wide segments 13-16 not part of a printed after the, art circuits manufactured rigid arrangement, rather than metal strips 34935 arranged on a disk 37 in the manner of a clock hand, The metal rivets 34.35 can be rotated with a detent at a distance of the webs 11 are set, with which they electrically connect are bound. If it is desired that a round trip receiver can carry out more than four commands, then further disks 7, 37 of the same type are expediently firmly coupled to one another on the drive shaft of the motor 9.

The connection between the rotor 9 and the drive shaft of the disk 7 37 is expediently made via a slip clutch with a defined torque. The Kotor can be started by every impulse. The disk is only released when the delay element 4 has determined by checking the pulse width that a start pulse was present. This also ensures exact synchronicity of the target with the control pulses from the transmitter.

The circulation is expediently released by the same Eut 19, which also controls the through contact 6 of the motor.

Claims (1)

Claims 1. Ripple control receiver for network remote control, according to the pulse selection process, characterized in that the command selection contact disk (7g37) rotating synchronously with a transmitter is designed in the manner of a printed circuit and is sampled by sliding contacts (17-20). 2 .. ripple control receiver according to claim 1, characterized in that conductive, narrow, radial webs (11) are attached to the outer edge of the disc (7, 37), the length of which corresponds to the pulse rate of the transmitter and the width of which corresponds to the duration of a pulse. 3. ripple control receiver according to claim 1 und'2, characterized in that on inner tracks of the disc. (7.37) wide conductive segments (13-16) are arranged. 4. Rundateuer receiver according to claim 1-3, characterized in that all webs (11) and segments (13-16) are conductively connected to one another. 5. ripple control receiver according to claims 1-4, characterized in that a voltage-carrying sliding contact (12) scans the outer path of the narrow webs (11) and other, different triggering devices (21-24) associated sliding contacts (17-20) the inner paths of the broad. Segments (13-16) scanned 6. ripple control receiver according to claim 1 - 5, characterized in that the wide segments (13-16) are not part of the printed circuit, but on the disc (37) in the manner of clock hands (34,35) are designed and rotatable angeotdnet and z. ß. can be adjusted with detent in the pulse distance. 7. Round trip receiver according to claim 1, characterized in that several disks (7,37) of the same drive shaft provided bind. B. Round trip receiver according to claim 1, characterized in that the disc (7, 37) is connected to the drive synchronous motor (9) by a clutch with a defined slip torque. 9. Round tax receiver according to claim 1, characterized in that the disc (7,37) on the outer edge has a groove for actuating a contact (6) for the purpose of ensuring rotation and locking in the idle position.