DE1921965C - Ripple control receiver for remote control systems that work according to the pulse spacing method - Google Patents

Description

wheel 24 drives a coupling axle 4, which a

Coupling wheelS carries. With this clutch wheel 5 if a ring gear 6 acts as a synchronous selector

The invention relates to a ripple control 40 the disc 36 together, which has a flange receiver for according to the pulse spacing method 31 with a recess 32. The flange 31 working remote control systems, in which by means of is used to mechanically lock a dome synchronous selector a start pulse is timed to be assigned to that of a coupling magnet 17 Nete command pulses are processed, one axis 27 being pivotable. On the coupling lever 26 Synchronous selector from a synchronous motor 45, an arm 30 bent at right angles is driven Disk consists and by means of this syn- forms, which in the initial position of the disk 36 in chron selector is one of the command pulses assigned to the recess 32 (Fig. 6a). The dome contact device is actuated. axis 4 is in the coupling lever 26 in a longitudinal

Such a receiver is passed through the German slot 37 and is ge-Auslegeschrift by a spring 38 I 186 535 became known. These are printed on the upper end of the longitudinal slit. the sem known receiver is a with the spring 38 also serves as a return member for the Synchromesh selector connected to a clutch lever 26. The front end 29 of the clutch lever controlled, then in turn a lever 26 can actuate a contact member 34, which Switch operated. To this receiver on a the circuit of the synchronous motor 1 to a network to set a certain command pulse, it must close with 55 21. On the disk 36 is with the help of Niedem Switching disk connected to synchronous selectors 39 a contact spring 40 attached, the two-armed solves and can be adjusted accordingly. is formed, the shorter arm with a single

Wetterhin is embossed by British patent 41 on a contact ring 42 grinds, wel-628 a receiving and transmitting device for coded rather in a fixed part 43 of the ripple control electrical signals known, in the code and con 60 receiver (Fig.2) with the help of sheared, clock pins in bores of a step-by-step rotatable disk through openings 45 of the fixed part 43 can be inserted, the code being held by the inserted lugs 44. Distance between the individual code and contact pins The other arm provided with a nose 46 of the

is formed to each other. In this known device contact spring 40 grinds over an annular groove 47 in the the code and contact pins act with the mechanically fixed part 43 of the ripple control receiver. In see locking members together, which in this annular groove 47 are bores 48 (F t g. 2 and 5) a signal not intended for the device, in the contact pins 49 for preselection of the Reset the target before the program can insert it. The contact pins 49 ra-

in the movement path of the nose 46 of the contact .T 40. The contact pins 49 are provided with a non-slip ierung 50. The contact pin 49 is in the> mkreis of a polarized trip relay 35, which has two windings, the contact pin 49 in series with one winding for the threading and in series with the other winding an achbar contact pin, which is shown in the drawing it for Turning off the shutter release-35 is. The other. The end of the winding is connected to one pole of a voltage supply line 53. The other pole of the DC voltage supply line 53 is a contact 18 controlled by the audio frequency and connected via a line 52 to an attachment of the contact ring 42. The disk 36 is also provided with a pin-shaped projection 15 on which one end rests on the leg spring 14, which serves to reset the disk 36 if an excessively short pulse arrives. The leg spring 14 is placed over a shoulder 54 and anchored at its other end in a recess 55. A pin 56 serves limiting the spring travel of the leg spring when the disc 36 is properly underway overall a.

) ie the bearing point 25 for the coupling axle 4 is formed so that in addition to a rotary movement e pivoting movement in the vertical direction according to FIG. 2 is possible.

The mode of action is as follows:

The contact element closes with a start impulse and applies voltage to the dome magnet 117.

; water attracts its armature 19 and swings it clockwise around the axis 27 through the coupling lever 26. Here, on the one hand, the front end 29 of the coupling lever 26 closes the contact member 34, thereby applying voltage to the synchronous motor 1. On the other hand, the clutch wheel 5 is brought into engagement with the ring gear of the disk 36 by the clutch lever 26. At the same time, the arm 30 of the coupling lever 26 is lifted out of the recess 32 of the flange 31, as FIG. 6b shows. If the start pulse has the predetermined length, the arm 39 of the coupling lever 26 remains on the upper side of the flange 31. The coupling lever 26 cannot therefore fall back into its original position after the end of the start pulse. The spring 38 secures the engagement between the clutch wheel 5 and the ring gear 6. The contact spring 40 is rotated together with the disk 36, with its impression; 41 aul the contact ring 42 grinds. The nose 46 a: i; The other arm of the contact spring slides over the annular groove 47 from which the inserted contact pins 49 protrude. If a pulse arrives via the contact element 18 when a contact pin 49 is passed through the nose <* 6 of the contact spring 40, the polarized release relay 35 receives voltage and switches its »5 contact 57, which triggers a certain switching process. At the end of a circumference of the disk 36, the arm 30 of the coupling lever 26 falls back into the recess 32 of the flange 31 (FIG. 6a). As a result, the contact member 34 is opened again and the synchronous motor 1 is switched off from the network 21. The receiver is then ready for the next interrogation process. The program preselection can be carried out by simply plugging in or repositioning the contact pins.

For this purpose I sheet drawings

Claims (4)

ι ζ contact pin a contact is made. The mechanical patent claims: such a receiving and transmitting device is agile and the production requires a high level of precision 1. Ripple control receiver for after the impulse. distance method working Fernsteue.anlagen, 5 The invention is based on the object of a to create a ripple control receiver by means of a synchronous selector, which can Start impulse temporally assigned command impulses enough mechanical locking elements processed werr ^ n, the synchronous selector and the in a simple manner on the command pulses can be set from one driven by a synchronous motor. There is a disc and by means of this synchronism io The solution to the task at hand succeeds in Selector one of the command pulses assigned to a ripple control receiver of the initially described Contact device is actuated, thereby given type according to the invention in that with the indicates that a two-armed contact spring is connected to the washer (36), a two-armed contact spring (40) is connected with one arm on a contact ring which grinds an arm with their arms on a contact ring 15 which is coaxial on one opposite the disc (42) grinds, which is held on a fixed part arranged opposite the disk, and the (36) coaxially arranged fixed part with its other ann with in the fixed part in (43) is held. and with its other arm concentric with the rotation axis of the disc angeoidnemit in feststeheni'-n part (43) in concentric bores th inserted contact pins in Konzur axis of rotation of the disc (36) arranged clock link 70 can be brought. Bores (48) inserted contact pins (49) using one shown in the drawing can be brought into contact connection. Embodiment is the subject of the invention 2. Ripple control receiver according to claim 1, described in more detail below. It shows characterized in that the bores (48) F i g. 1 is a schematic representation of a Rundim fixed part (43) in the axial direction 25 control receiver according to the invention, run and the contact pins (49) in axial Fig. 2 a Rundstei'frempfänger in section, Direction can be inserted. F i g. 3 another section of the ripple control 3. Ripple control receiver according to claim 1, the receiver along the line IH-111 of FIG. 2, characterized in that the holes in FIG. 4 a side view of the ripple control receiver fixed part in the radial direction run 30 gers, and the contact pins are radially plugged in ^K ar. Fig. 5 is a plan view of the ripple control receiver 4. ripple control receiver according to claim 2 according to F i g. 2, or 3, characterized in that ° - the con-F i g. 6 a and 6 b a partial view of the disk and clock pins (49) are designed as locking pins. of the clutch wheel at its point of engagement. 35 In Fig. 1 is denoted by 1 a syncnron motor, which has a worm pinion 23 and a worm