DE700041C - Numeric transmitter with a set of buttons - Google Patents

Description

Numeric transmitter with a set of keys The object of the invention is a numeric transmitter with a set of keys, through whose keys a mechanical scanning device being affected. The invention aims at such a design of the numerator, that its operation is simplified and accelerated with simultaneous correction of the transmitted impulses.

Numbers are already known which have only one set of buttons i-o work so that to send out multi-digit numbers for each digit through the same button sow a corresponding series of impulses is sent out. With these a switching mechanism that emits current impulses probes the contacts set by the buttons electrically one after the other, with the setting of the next digit immediately can be done before the previously set digit is fully scanned. However, this arrangement has a very complicated structure. With other arrangements known type with only one set of buttons is either pressing the next one Key until the series of pulses identified by .the first key is sent, or it comes with a hasty actuation of a second Key special warning signs to take effect. Furthermore, numerators are known which have only one set of keys, with the keys of which stops in the flow path of a Cam disc are switched on, so that a mechanical scanning and an electrical The series of impulses to be transmitted is emitted. With this arrangement, the operation of the key strip is relatively long delayed.

Numbers have also already become known, which with the help of of switching mechanisms customary in telephony technology, e.g. B. voters, on electric Ways allow a conversion and correction of the pulses to be transmitted. These bodies However, the switching means used and the relatively complicated Wiring is expensive and too extensive.

The subject matter of the invention avoids the aforementioned disadvantages the known arrangements, in that according to the actuated by each Key of the key set determined angle of rotation of the scanning device an energy storage device, the one running independently, regulated by a regulator StronlätoßSender drives, charges and one of several limit stops is selected and adjusted. in connection with the subsequent key press selected limit stop d (, n drainage path of the Stromstof) transmitter divided.

-Mechanical pulse transmission devices, so-called lniptile transmitters,; velclie run independently of setting means controlled by incoming pulses all of them also already known for plants where under the influence of incoming Impulse an impulse relay is activated and at which these incoming impulses corrected or intensified «should be grounded. By assembling a single-line encoder and a mechanical scanning device with a mechanical The impulse transmitter is a predominantly mechanical numeric transmitter created whose structure is simple and space-saving, due to its mechanical Training works safely and reliably, quick operation of the key set and the current surges to be emitted regardless of the operating speed of the button strip. in the right amount of time, eil permitted, whereby through a simple unification of the arrangement it becomes readily possible to reduce the current surges to be sent converted. Another advantage is the low power with of the buttons of the strip can be adjusted as only the power of their Return spring is to be overcome.

In the following the subject matter of the invention is described and enclosed Drawing shown. It means Fig. I a schematic representation of the numerator in partial section, Fig. 2 is a schematic representation of the key strip with its scanning device, FIG. 3 shows a basic circuit for the arrangement according to Fig. I, Fig. 4 shows a further basic circuit for another embodiment of the numerator, FIG. 5 is a schematic partial illustration of a further exemplary embodiment of the number encoder.

A key strip i (Fig. I and 2) has ten keys 2 fully i-o, which are held in their rest position by a spring 3. In the actuation path Each key 2 is a lever 4 is arranged, which pivotbhr about an axis 5 is. The lever 4 has a foldable end 6 in one direction When the button 2 is pressed, the lever 4 comes into engagement with its end 6 with a Here17 and swivels it about its axis B. In the course of this movement, the slides End 6 from the edge of the lever 7 so that it is released immediately and returns to its rest position under the influence of its spring 9. This becomes independent the lever is only actuated briefly for the duration with which button 2 is pressed. If the button 2 IOS-gulassen, the lever 4 returns under the influence of its spring io also üi its rest position back, with the foldable end 6 the lever; evade can. By operating the lever; are pins t i that are in a washer 12 are slidably housed, adjusted. Along the circumference of the disc 12 the pins i i are arranged in such a way that they correspond to one of the levers 7 Have a distance from each other. They hold out in their respective positions Friction, for example through a spiral spring encompassing it. The disc 12 is seated on an axis 13, which carries a gear 14, the finite pinion 15 one Motor M is engaged. Furthermore, another gear 15 'is on the axis 13 attached, which is in engagement with a gear 16 with a ratio i: i, which is arranged on a hollow shaft 17 which is mounted in a carrier 18. On the hollow shaft 17 sits a slidable one that is entrained by it in the direction of rotation Bush or washer i g, which by a claw 2o, which is under the influence of a Spring 22 is, can be adjusted. The Klae 2o is under the influence of one Electromagnet 21. In the position shown in Fig. I it is assumed that the Magilet 21 is excited so that the socket 19 is moved to its left stop is and in this position pushes a pin 23 to the left, which on a lever 24 acts and this adjusted counter to the force of a spring 25 clockwise Has. In this position, the lever 2.1 protrudes from the adjustable pins 26 given profile. The sliding pins 26 are circular in the carrier 18 stored, in the same number as the pins t i, z. B. 4 y i o. If the If magnet 21 is de-energized, the pin 23 returns below the one that becomes effective via the lever 24 Influence of the spring 25 back and pushes the socket i9 up to its right stop back as it was released by the claw 20. This pushes the lever 24 on one of the circularly arranged pins 26, which he is currently facing, and moves it to the left. The pin 26 thus comes into the path of a pin 27, which is mounted in a rotatable disk 28. The rotatable disk 28 is stationary under the influence of a spiral spring 3o, one end of which is attached to the disc 28 is attached and at its other end to a spring housing 31 on the Hollow shaft 17 is seated. A push rod 32 extends through the hollow shaft 17, the one end of which is in contact with an armature 33 of an electromagnet 34, the armature 38 being influenced by a spring 35. The other end of the push rod 32 works on a double-armed lever 36 which can be pivoted four about an axis 37 is, which is arranged in a bearing block 38 on the disc 28. The one end 39: the lever 36 is in contact with the pin 27, which is under the influence of a Spring 4o stands. The disc 28 is designed as a gear with a gear , 4 i cooperates, which via a worm gear 42 and a brake 43 den The flow of the disc 28 is regulated. One with the disk 28 still in engagement Gear 44 is in communication with a cam 45, which is on a surge contact 46 acts so that when the disc 28 runs through this contact 46 by the Button 2 set current surges can be issued.

The arrangement works as follows: From a previous setting, one of the pins ii is in its pressed state opposite a contact nh and holds it open. If one of the buttons 2 is now pressed, one of the pins ii is adjusted via the levers 4 and 7 and, at the same time, a contact anl is temporarily closed as a function of the pressure on the button (FIG. 3). This creates a current path via earth, atzl, relay 21, battery, so that the relay 2 i is excited. The relay 21 brings the lever 24 from the area of the pin ring 26 so that the connected to the hollow shaft 1 7 Hebes 24 can be freely adjusted. Simultaneously with the excitation of the relay --i it closes its contacts 21 'and 21 ". The motor M is excited via earth, a111, 21', - M, battery and begins to turn. The relay 2i remains after actuation of contact aitl via battery, 21, 21 ', ab, 21 ", earth. At the beginning of the rotation of the disk 12, the pin ii, which was still pressed by the previous actuation, leaves its place, so that the contact nh closes, so that the motor is now kept switched on via earth, nh, M, battery. At the same time the contact ab is opened as a function of the start of movement of the disk 12, so that now the motor M and the relay 21 only hold as a function of the contact ttk. In the course of the rotation, the pin ii pressed by the previous actuation is returned to its initial position by a guide 47. The motor now continues to rotate until the next pressed pin ii opens the contact tzh and thus switches off the motor M and the relay 21 and at the same time allows the lever 24 to return to its initial position under the influence of the spring 25, the lever 24 moves the pin 26, which it is facing due to the simultaneous rotation of the hollow shaft 17, to the left and thus brings it into the area of the path of the pin 27. Via the pin 26 pushed to the left from the previous setting, the pin 27 in contact with it in this position, the lever 39, the push rod 32 and the armature 33, the relay is now activated depending on the termination of the energization of the relay 2 i 34 excited, so that it moves the push rod 32 to the left by means of its armature 33, in such a way that the pin 27 is pressed to the right via the lever 39 and thereby pushes the pin 26 out of its drainage path. The excitation of the relay 34 is only brief, so that under the influence of the spring 4o the pin 27 returns to its initial position, whereby the lock for the disk 28 is canceled, which is now under the influence of the spring 3o, which when the hollow shaft 17 is adjusted has been drawn up, begins to run until the pin 27 strikes the next pin 26 pushed into its path. During this movement, the cam disk 45 has actuated the impulse contact 46 corresponding to the pressed button 2.

As can be seen from the above, the Power surges through the contact 46 in a controlled manner by the brake 43 completely independent of the setting speed of buttons 2 and the speed of rotation the identification facility,. namely the disk 12. Through this independence can be the speed at which the marking device is driven by the engine M is driven, can be made of any size, so that very quickly the easily buttons to be operated 2 can be operated one after the other, d. H. the actuation can be achieved practically without a break. Because of the quick turns the disk 12 is by means of the motor M via the hollow shaft 17 also entrained lever 24 a plurality of specific pins 26 corresponding to the actuated Buttons 2 switched in the path of the pin 27, the slow-moving disc 28 is switched from pin to pin by taking appropriate switching measures after touching the pin 27 with a set pin 26, the relay 34 each time is briefly excited and thereby the further rotation of the disc 28 in the above-described Way to the next set pin. By using in itself known delay relay is when the pin 27 is touched with the last set Pin 26 in itself as is known, the forwarding is suppressed and causes the shutdown.

Through the combination of a mechanically independent current impulse transmission device with a mechanical, externally driven scanning device, the numerator in its overall structure not only simple and space-saving, but it becomes through the predominantly mechanical training ensures that the numerator works reliably guaranteed.

From the basic circuit according to FIG. 1, the circuit-related processes can be seen which come about when the arrangement according to FIG when the button is pressed. In addition, the above-described indexing of the pulse generator disk 28 from pin to pin is effected by a special breaker. If the starter contact an1 is pressed for a short time or longer when the button 2 is pressed, the relay An is excited via earth, an1, Ani, an., To "Battery and opens its contact to" so that now the relay An. is excited, which with its contact on .. the relay on ,, short-circuits. As a result, the relay Ani is only energized for a short time, regardless of the duration of the actuation of the contact an1. The relay An, closes its contact, 'which, as in Fig. 3, the contact artl, brings the relay 21 to respond. The relay 21 closes its contact 21 'and switches off the motor M eise via earth, 21'. When the rotation begins, the two cam contacts n1,: 1 and nk are closed as a function of the movement of the disk 12. nk1 brings the relay Ab to earth, nk1, resistor, battery. From the relay opens from its contact, so that the motor is now switched nk in response to the contact is opened ii to this under the influence of the depressed pins. The starting magnet 34 for the current impulse generator disc 28 is actuated by a breaker U via earth, breaker U, relay H, winding 1, contact h1, relay 34, in such a way that, for. B. the interrupter U sends out a pulse of 50 milliseconds every 300 to 500 milliseconds. However, this also causes relay H to respond, which opens its contact 1t1 and thereby immediately switches off relay 34 and closes its contact. As a result, the second winding relays H via battery, resistor. lt., H II, earth is excited. As a result, the relay H holds itself until the contact 26 "2;" formed by the pin 27 on the one hand and the pin 26 on the other hand is closed, ie until the disk 28 has reached the next set pin 26, whereby the Winding H II is short-circuited via earth, H 1I, 26, '27, earth and drops out and thus restores the circuit governed by the breaker for the relay 34. By appropriate switching measures, the switching of the disc 28 from the last pressed pin 26 in on This can be done, for example, in that a contact (not shown in the drawing), which comes into effect when the disk 28 of the adjusted hollow shaft 17 has completely lagged behind, is used to indicate the emptying of the accumulator For example, a relay not shown in the drawing can be made to respond, which through its contact opens the circuit of the interrupter U interrupts and stops it. The reconnection of the subclaimer C1 then takes place with the first keystroke of the new program.

FIG. 5 shows a variant of the numeric transmitter according to FIG. B. complementary digits are passed through this arrangement. If you have identified a series of four current surges by pressing the "4" button, the arrangement according to FIG. 5 passes on a series of six current surges. If the Klotor I41 is started by pressing a button 2, which drives the axle 13 via its pinion 15 and the gear 14 and thus also the gear 16 via the gear 15 ', the gear 16 takes a hollow shaft 48 with it. The magnet 21 is not yet excited, so that the claw 20, under the influence of the spring 22, releases the socket i9 which rests against its right stop on the hollow shaft 17. The hollow shaft 48 and the hollow shaft 17 are separated from one another in this position, since a coupling 49 is provided which is connected to the claw via the lever 50 in such a way that the coupling 49 is separated from the hollow shaft 48 when the relay 2 1 is not energized . With the hollow shaft 48 driven by the motor M, a switching arm 51 is carried along, which slides on contact segments 52 which are arranged on a disk 53. Is z. B. the button "4" is pressed, then via the contact nk, if the corresponding pin ii actuates it, first causes a shutdown of the motor and at the same time the switching on of the relay 21, which then via the sliding contact 51, 52 of the circuit independently of the Contact ttk for the motor is restored .. When the magnet 21 is excited, the lever 24 is moved out of the area of the pins 26 in the manner described above and the clutch 49 is engaged at the same time, so that the motor, which now continues to rotate, causes an adjustment of the lever 24, and until the contact arm 51 has left the segment 52, thereby stopping the motor and de-energizing the magnet 21. . As described, the pin 26 opposite which the lever 24 is located is displaced. The segments 52 are dimensioned so that their total length corresponds to ten current impulses, so that six current impulses are transmitted in the manner described above by marking the key for four current impulses. This coupling device which effects the conversion can also be used with advantage to convert incoming current surges, with a stepping mechanism controlled by the incoming straw surges acting on the gear wheel i 6 instead of the motor ./H and the gear 15 '. Such conversion devices allow the use of the numerator in systems with a non-decadic system or the use of the impulse transmitter part for coupling a system that works with a decade system with your system that uses a non-decade system. is working. This coupling device is particularly simple due to the structure of the numerical encoder according to the invention, which is achieved by the combination of a strip of keys. and an externally driven scanning voyage with the current = shock transmitter is mainly identified.

Claims (7)

PATENT CLAIMS: i. Numbers with a set of keys, through whose Keys a mechanical scanning device is influenced, characterized in that that according to the key (2) of the key set (i) pressed in each case certain angle of rotation of the scanning device (11, 12) an energy storage device (3o), the an independently running rush current transmitter regulated by a controller (45) Q28) drives, charges and one of several limit stops (27) is selected and is adjusted, which in connection with the following key press selected limit stop (27) divides the flow path of the impulse transmitter (28). 2. Numeric transmitter according to claim i, characterized in that a scanning device (11, 12) motor (M) driving the elevator. one the sequence of the impulse transmitter (28, 45) causing spring (3o) and the setting of one of the stops (26) influencing Link (24) caused. 3. Numeric transmitter according to claim i, characterized in that that the keys (2) of the key set via snap levers (4, 6) pins (I I) of the scanning device (I I, 12) influence. 4. Zal-4, encoder according to claim 2, characterized in that that a selected stop (26) controlling magnet (z i) according to its dependent by pressing a button (2) temporary excitement keeps itself the Motor (M) switches on and, depending on the start-up of the motor (M) with this, under the influence of a pen (i i) actuated by a button (2) of the scanning device (i 1, 12) is brought. 5. Numeric transmitter according to claim 2, characterized in that that when a key (2) of the key strip is pressed, two switching means (Ani and An,) come into effect, which influence each other in such a way that one the switching means (Ani), which causes the magnet (21) to be excited, only temporarily is excited. 6. Numeric transmitter according to claim 4 or 5, characterized in that the switching of the impulse transmitter disk (28) from a stop (26) to the other caused by a magnet (34) controlled by a breaker (U) whose circuit is controlled by a switching device (H) as a function of one via the stop (26) and parts (27, 36) of the impulse transmitter running circuit is brought. 7. numeric transmitter according to claim i, characterized in that between the scanning device (i i, 12) or its drive (M) and the independently running Strornimpsender (28, 45) a coupling (49) is arranged, which the Stromimpsender (28, 45) depending on the complementary number of the set or incoming Current impulse number on the scanning device (11, 12) or on its drive (M). B. numeric transmitter according to claim 7, characterized in that the coupling (49) through the magnet (21) influencing the stops (26) is actuated as a function a sliding contact (51, 52) controlled by the scanning device (11, 12).