DE863230C - Receiver for remote control with time-coded pulses - Google Patents

Description

Receiver for remote control with time-coded pulses The invention refers to a receiver for time-coded pulses in remote control systems. In the simplest case, such systems work in this way. that by sending a start impulse Drives are set in motion by receivers via any remote control channels, which stop automatically after a transmission period has expired. You prepare Enforcement circuits exist for certain moments, but only then closed become, if at this very moment an execution; pulse is sent. Begin- and completion impulse can be of the same type. If the enforcement impulse hits Recipient sooner or later, then it is ineffective for the recipient concerned. By setting the time of the receiver accordingly and by means of appropriate intervals In this way, a large number of remote control files can be used between the start and completion impulses be performed.

In the narrower sense, the invention relates to that type of receiver, in which a drive has a rotating arm along a contact ring during the transmission period moved for the execution of the remote control file. The invention is based on a particular advantageous, reliable and inexpensive design for such a receiver create.

According to the invention, an actuating member which actuates the respective adjacent completion switch of this contact ring is movably mounted on the rotary arm, which actuates with an armature of a switching magnet that is mounted concentrically to the rotary arm. verbJ.ndür * "g. Aeht,` the jewcils_ from his .to. the Remote control impulse. You responding receiving relay, is switched when the pulse passes through. A particularly favorable arrangement - if one behaves - by the fact that one of the preferential switches is one -Self-locking> gives and that on the rotating arm Belly - still - (one - with .the actuating element- --coupled; - but in the direction of rotation, however, set trigger member is stored, which the self- blocking (of the respective neighboring enforcement counter when the pulse passes through the receiving relay triggers, with such an order the enforcement switch, B, actuation (and release elements that each because it's just the actuator: or the release member is adjacent to your enforcement desk .-- _. . The invention further relates to means @the Irregularities in the starting conditions of the - Making the recipient harmless and thereby the Accuracy in the time selection of the - impulses heights. The invention is based on the drawing explained in more detail. In Figs. I and 4, a receiver arrangement is shown in FIG two different views, partly in section, shown. Figs. Z and 3 show details the arrangement; the Fig. 5- serves = for explanation the starting conditions. To a remote control network N (Fig. 4), which is Storage oaf control at the same time a strong Stromnetz Stein is a receiving relay 12 with Contact 13 included. It closes during the duration this contact. At this contact is a switching magnet 8 with armature 7 via a switch z7; angie, closed. He pulls each- because when you close the contact 13 Anchor at. A rotary arm -3 - can - via .ein -Zfdnrad 3o. from. a la iufwerk r; - b @ dspieIS-W eise eirieiri Synchrön- small motor, driven. Will:.: 'A. with the Anchor 7 connected bolt 5 - eats - concentrically. in the hollow shaft of the arm 3. .It's firm connected to a part 6, the end of which is 60 ' hereinafter referred to as Auslösegli @ ed. It reaches through a cutout of the arm 3. The other end 6 i of this part acts through one Angle lever 9, which is mounted on the arm 3, on unite Shocks14. - The shaft of the arm 3 is firmly arranged in the neten- parts i II and 5o rotatably mounted, Lase On the shaft, the gear wheel 30 is firmly seated on the Shaft - its cam disk 21 is attached. In the -, Rad3o (see also Fig.3) sits firmly a pin i9 ,. which is located in a slot 2o of the disk 2 i because of can. A pin is firmly seated in the disk 21 24, which, in its cutout 25 of the wheel 30 can pass between the pins 19, 24 is a - spring 26 - clamped, which the pins one another seeks to approach. A pawl 22 is also attached to the disk 2 i stored in teeth (one attached to part iii brought notch disc 23 and with @einein the bent arm protrudes into the path of the pin i.9. The cam 21 controls the switch 27, On your part 50 'isfi a Franz von'"Vollzugsis, cha, ltern 4o to 49 is arranged. Switches 14 and 15 are also located on it . The movable contact of switch F4 (see FIG. 2) is with a Understand approach ioo .. In the starting position of the arm 3, the plunger 4 is opposite the switch 14. In the space between the movable contact of the switch 14 and the plunger 4, an extension 17 of the switch 15, which is striving towards the closed position, protrudes Switch 14 connected in series. The two switches 14 ″ 1 5 are parallel to its switch 1 6, which, when the arm 3 is in its initial position, is in the effective area of part 6o. The drive motor can be switched on using the switches. . Like the magnet 8, it is fed from a network L, which coincides with the network N in the case of the overlay remote control.

A wreath of springs ii is attached to part iii, which together with projections io of the movable contacts of the enforcement switches 4o to 49 each form a locking mechanism that holds the contacts in the closed position. The same applies to the parts i oo, i 12 of switch 14, the switches: #o to. 49 are all or only partially connected to enforcement circuits for enforcement of the various holiday tax acts. When the arm 3 is rotated, the plunger 4 serving as an actuating element first brushes the switch ring 4o to 49 during the first half-turn. During the second half-turn, the release part moves to 6o. - Pass the locking springs ii of the switch lock. A special cam 1 8 on the arm 3 is used to trigger the locking spring 1 12 (FIG. 2), which in the rest position of the arm - the spring 112 off - keeps it disengaged.

Uze arrangement works as follows: Assume that the Switch 44 is to be operated remotely, uaid .that -in a corresponding time interval a completion pulse is sent after a start pulse.

When the start pulse occurs, relay 12 closes contact 1 3 and switches magnet 8 on. This moves the glass actuator 4 and the trigger element 6o in the direction of the arrow. The part 6o closes the switching circuit 1 6 (cf. also FIG. 5) in which the start pulse AD is plotted as a function of the time and, below it, the switching states of the switching parts actuated at the start. By closing the switch 1 6 , the motor r is switched on. It rotates in the arrow sense the arm 3. At the same time also has: the actuator 4 the switch 14 closed and switch 1 5, time A .. At time B (Fig. 5) of the cam slides 1 8 of the spring 1 12, and thus locks the switch 14 in the closed position. At the point in time C, the trigger element 6o slides away from the switch 1 6 which is now opening. As a result, the motor i is switched off again because the switch 15 is open. still open. The drive will come to a standstill again. At time D, when the start pulse stops, parts 4 and 6o return to the position shown because relay 12 switches off magnet 8. Thereby, the switch 1 5 is closed the engine -and i via the switch 14, turned 15 °. After this preparation, the actual revolution of the arm 3 begins, for which the start of the start is precisely defined by the end of the start pulse. All irregularities in the response of the receiving relay etc. can therefore affect the actual running of the rotary arm and thus the times at which the rotary arm reaches the individual execution:,: switch; not affect.

The rotary arm now continues to run in the direction of the arrow; from switch to switch with a creeping movement of the gear wheel 3o. The arm is temporarily blocked against Mitl.auf by the pawl 22 until the spring 26 is sufficiently tensioned and the pin i 9 disengages the pawl 22. The rotary arm 3 then jumps to the next switch. The swivel arm is locked in place. In the transitional positions from detent to detent, the switch 27 is temporarily opened by the cam disk 2i, so that the switching magnet 8 cannot respond in these positions if a completion impulse occurs inaccurately. As soon as the arm 3 reaches the switch 4. ¢, a completion pulse arrives as required. The switch is closed by the actuating part 4. and locks itself in the closed position. the Fernstenerakt completed. Then the actuating hatchet runs past the other switches, as does the trigger part 6o. At the end of .the control period of the cam 1 8 opens by depressing the spring 11 2 14 for self-holding of the motor i serving switch, keeping the drive is stopped again in the starting position.

If the switch 44 is to be opened again, then as above a start impulse given a completion impulse at that time, in which just the trigger part 6o the switch 44 faces. This then presses the spring i i down and moves thereby the self-locking of the now opening switch. depending on The time interval between the start impulse and the completion impulse can also be different Completion switches can be closed or opened in the same way.

D) the receiver shown can execute ten commands. Is the The number of commands to be executed is smaller, then the corresponding switch no enforcement circuits connected or these switches are omitted at all. The commands can be distributed to the various recipients, like this. that z. B. one recipient group receives switch 44, the other only receives switch 47, and so on.

Claims (1)

PATENT CLAIMS: i. Receiver for remote control with time-coded impulses with receiving relay, which starts a self-holding timer for a control period when a start impulse occurs and causes a switching act to be carried out when a subsequent execution impulse arrives, and with one of the timing mechanisms along an execution switch ring. The rotary arm moved along the rotary arm, characterized in that the rotary arm (3) is movably mounted -eiri.-the respective adjacent enforcement switch @ e.g. -44 of the ring (4ö to 49) actuating actuator 4), which with, a concentric to the rotary arm `3 ) .bearing armature (7) of a switching magnet i 8) is in operative connection, which is switched by the receiving relay (12, 13) when the pulse passes through. . -2. Receiver according to claim i, characterized in that the pull-out switches (40 to 49) have a self-locking mechanism (io, ii) and that on the rotating arm (3) as well. one with the actuator @ 4) coupled; -ab: r, on the other hand, the release element (6o) offset in the direction of rotation is mounted, which triggers the self-locking ii) of the respective adjacent enforcement switch (e.g. 44th) when the pulse passes through the receiving relay, with such an: order of the enforcement switch (4. o to 49), actuating (4) and release members (6o) ,. - that in each case only the actuating element @ 4) - or `the triggering element (16o) is an enforcement switch, 'z. B. (44), is adjacent. 3 .. Receiver according to claim i and 2, characterized in that the closing ring (4o to 49) extends only over half of the circle covered by the rotary arm (3) and the actuating member (4) and the release member ( 6o) are arranged on diametrical ends of the rotary arm (3). ¢. Receiver according to Claims i to 3, characterized by two start switches li 5, i 61 for the drive (motor i) actuated under the action of the receiving relay (12, 13). of which the first; -16) with normally open contact, the second l'15-1), which is in series with a self-holding switch (14) that is open at the end of the transmission period, works with normally closed contact. 5. Receiver according to claim i to 4, characterized in that the self-holding sehalter (1 4) with self-locking (i oo, i 12) is provided, which is triggered at the end of the transmission period by a release cam (18) of the Dmeharms (3) . 6. Receiver according to claim i to 5, characterized in that in the starting position of the rotary arm (shown) the normally open contact start switch r 16) in the effective range of the release serving here for closing, eglivdcs (6o), the normally closed contact, aspiring to the closed position Start switch (1 5) and the self-holding switch (14) are in the effective range of the actuator 4). 7. Receiver according to claim i to 6, characterized in that the normally closed start switch f, 15) engages with an extension (17) in the space between the movable contact of the self-holding switch @ 14 i and the actuator cs (4). B. Receiver according to claim i to 7, ge characterized by such an arrangement and Dimensioning of the start switch, latching switch and the actuation and release elements as well as the Awslösockens that ß at the beginning of the start pulse (Ä, Fig. 5) by the receiving relay (i.2, 13) activated switching magnet (8) , the self-holding switch (1q.) with the release cam (i 8) of disengaged self-locking (ioo, ii2) by the actuator (, l) closed and at the same time the normally closed contact start switch (15) is opened while @ also at the same time the working contact starting clialter (16) is closed by the release element (6o), @ that - after the drive has started ('Motor i) and the rotary arm (3) first the Release cams (-18, time B, Fig. 5) the Self-locking (ioo, iii) of the self-holding switch (i 4) and then the Release member (6o) during its rotation in Time C) the now opening work contact start switch (16) triggers and thereby The drive (motor i) resets the now at the end (D !, Fig. 5) of the start pulse! 6s at the return of the actuator (q.) in the Starting position through the closing Normally closed start switch (1 5) is switched on again, and that finally at the end of the transmission period the release cam (1 8 ) triggers the self-locking (z oo, 1 12) .des self-holding switch (14) and thereby stops the drive (i). , 9, receiver according to claim i, characterized in that the rotary arm (3) has notches (disk 23) at the points of the individual execution switches (¢ o to 49) and between it and the drive (gear 1 8) . its tensioning mechanism (spring 26) and its backlash (slot 20) is switched on. i o. Receiver according to claims i to 9, characterized in that the rotary arm (3) is provided with its pawl (22) which engages in notches (of the disk 23) and which, depending on the loading of the tensioning mechanism (spring 26) of its creeping part (pin 1,9) actuated by the drive {motor i) is triggered. i i. Receiver according to claims i to io, @ da-: characterized in that the switching magnet (8) is in series with an interrupt switch (27) and a cam disk (2 i) is connected to the rotary arm (3), which this switch (27 ) jiewveils opens in the transition positions between two notches.