DE1093419B - Impulse generator for telecommunications, especially telephone systems with mechanical storage of the pulses - Google Patents

Description

Impulse generators are used to switch calls with a limited and predetermined number of interlocutors instead of switching with the usual dials. You gain increased Significance for telephone areas in which direct long-distance dialing with a considerably increased number of telephone numbers has been passed over. It avoids incorrect connections, memorizing or looking up the call numbers are omitted, and the call process takes place in the lower area of the officially required Pauses between the individual series of impulses.

There are already known arrangements for the mechanical storage of the number impulse series Use rotating cam disks, with the number of cams corresponding to the desired pulse series differ. These cams actuate a contact, which in turn is separately generated, continuous and releases uniform pulses in the corresponding number. All cams are in place on a common wave that circulates once with each call. The choice of interlocutor is done by moving the contact.

The arrangement described is set up so that the operating time even with short call numbers always corresponds to the longest planned phone number. This means when the call frequency is high cumbersome waiting times. Since the cams cannot be made arbitrarily small, there are many digits Numbers of numbers relatively large dimensions for the cam disks.

Another arrangement is known which differs tangentially for the storage of the pulse series Cams used. With this arrangement, the cam disks stand still after the setting has been made, with the cam lengths of uniformly rotating cam lengths that differ tangentially according to the pulse series Brush contacts are tapped. This means that the maximum cam length must first be coated must before the following brush contact in turn the cam assigned to it the next May paint the dial. The consequence is a delay in the operating time, especially in the case of multi-part Phone numbers.

Known arrangements that in place of the cam disks with removable pins or disks Using reversible slats have the same operational disadvantages. All these Arrangements lead to considerable structural dimensions and are unsuitable for a tabletop device.

It is also known to use a sheet-like or foil-like pad, with the means for power interruption as grooves, impressions, holes or the like. Are attached. The document Impulse generator for telecommunication,

in particular telephone systems

with mechanical storage

the impulses

Applicant:
Franz Keil, Berlin-Britz, Hanne Nute 51

Franz Keil, Berlin-Britz,
has been named as the inventor

Be designed as a space-saving tape that can be wound on rollers. This arrangement presents difficulties while maintaining small time tolerances for the current pulses. Also requires the recording an undesired sheet or bandwidth in the case of multi-digit numbers.

The invention is based on the object of providing space-saving accommodation for the power interruption to connect serving means with a reduction in the necessary manufacturing accuracy and to shorten the operating time in the event of busy signals.

According to the invention storage sheets are stored in a storage drum so that their tongues or lugs differ in their radial length by an amount corresponding to the respective number of pulses and that the differences in length of the tongues or noses are operated by a latching step Button can be tapped with its feeler nose.

When the button is released, an impulse relay that is presumed to be known and that is precisely timed is activated and is able to give impulses corresponding to the telecommunications requirements, so switched on for a long time and emits pulses until the button is in its initial position and thus a Has reached the limit switch and stops the relay. The decline takes place gradually by adding the Pulse relay via a separate contact a small lifting magnet to respond to each pulse brings, which causes the release of a locking lever system, which the button by one Snap step back. When the starting position is reached again, the tongues are shortened corresponding impulses have been delivered.

The pushbutton is advanced by the actuation controlled by a rotating cam disk.

009 649/105

3 4

vibrate a force-fit by a spring.
Each sequence for the duration of the scanning is stopped - Fig. 6 a section of the key and guide is set. The spring force, based on the plate with the frames for guiding the pawls, grip point of one lever with the button, must be greater than the force of the return spring in some cases. When the cut GH of FIG. 1.

Running the cam a second locking device is not shown, the known device were brought into action, so that a by spring electrical devices, relays, capacitors, force or weight-loaded elevator lever for the resistors, signal lamp, terminal strips, switch, storage drum around a Detent division continues io the connection and the wiring,
The housing, the storage drum, the bevel gears, slides. A small electric motor drives the cam disk via a single-tooth worm, contact disks, pushbuttons, reduction gears, so that the control disk and cam disk can be made of the necessary material from art, the housing frame is made of injection molding, easily corresponds to the interval between two series of pulses. The 15 weight, perfectly shaped and inexpensive to manufacture, each one revolution of the cam disk is The current impulse transmitter consists of the following components, depending on the button position: the housing frame with the established contact is achieved by the fact that, as long as the button is away from clocks and the Lifting magnet, the drive is removed from its initial position, the current motors and the relay, not shown, the circuit of the motor is interrupted. A second with 20 storage drum with axis and bevel gear, the reduction toothed worm connected to a cam disk drive with input and output, the push button and gear unit brings a control disk to the only one-time elevator gear, the push button system, the electrical circulation during the entire working period. An Irish gear and the case,
The roller attached to it takes before the start or after. At the end of the scanning period, the two drive motors 3 and 4 provided with the elevator lever and worms 2 are disengaged into its starting position on the housing frame 1. The special curve-changeable attached. The solenoid is held by the shape of the control disc and locks the screw that is adjustable. On projections 6, 7 push the button provided lever during and 8 in Fig. 7 and the console 9 of the housing frame elevator. are the contact sets 10, 11, 12 and 13. The

If the elevator is in a time = 4 break times 30 tabs 14 of the housing frame with the hole 15

operated and the elevator time is halfway before it is used to accommodate a double relay group. In the

and placed halfway after the scanning period, so he eyes 16 of the housing frame are made of hardened

For the telephone number 1 - 1—6, the waiting time for steel-made tip bearing pins 17 is held in place

of (8 + 2) 700 ms = 7 seconds, with which one is held by screws, which during assembly an adjustment

significant reduction was achieved. 35 enable. The vertical bearing is used

The demand for push-button drive for which is pressed to accommodate the axis 18, on which the bevel gear onAselection of the interlocutor takes place according to a. The storage drum consists of two further developments of the invention by means of the locally determined halves 20 and 21 of the same shape. Both halves are firmly connected with an adhesive to block a slowly rotating single-tooth worm. Also pressed by means of locking 40 lugs 22 lying in one plane with their axis slide in the axis groove 23 and serve to link. These must be the same distance from each other. Manufactured from thin sheet metal, it is possible to obtain similar angular amounts when twisting, licherweise also made of plastic injection-molded storage of the single-tooth worm until it is blocked. Sheets 24 with tongues 25 are inserted in radial slots A deflection of the mostly vertical pushbuttons 26 of the storage drum and by two movement in a horizontal position can be done by a 45 rubber rings 27, the oblique angled tabs on the pushbuttons by means of endless steel wire springs. can be replaced. A slight off-The retention of the switch that is under spring tension is guaranteed.
Locking members in the locked position are made in a known manner, formed in the housing frame, horizontal manner and is canceled as soon as another key tip storage is used to hold the toothed button is pressed. The drive of the single-tooth worm is followed by the screw axis 28, which is followed by using so that after the motor has been blocked, intermediate rings 29 and the single-tooth worm 30 can continue to run for a short time. The start of the motor bevel gear 31 are rigidly connected. On the axis, by pressing down the pushbuttons, there is also the slip clutch, consisting of being initiated at the same time. The single-tooth worm is connected to the counter bearing 32 and the rotatably mounted worm gear directly or via an angular gear with the wheel 33, the pressure disk 34, the adjusting ring 35 and the axis of the storage drum and brings the pressure spring 36.

The button and elevator gearbox assigned to the desired conversation partner is

Storage tray in working position. hanged on the house frame and attached to the eyes 37

The drawing shows an embodiment of the screws. The suitably made of brass and Subject of the invention for 50 interlocutors with 60 designed as a bearing housing consists of the front maximum 12-digit number, namely shows plate 38, the spacer bolt 39 and the back plate

Fig. 1 shows the impulse generator in a front view in 40, which are screwed together. That of the

Longitudinal section according to AB in FIG. 7, with a partial section of the worm-driven worm wheel 41 is with pinion 42

Bevel gear drive, the single-tooth worm and the and the axis43 firmly connected. The axle carries in front

Slipping clutch, 65 the cam 44 and on the back the insulating

Fig. 2 shows a side section according to CD in Fig. 1, fabric-made contact disk 45. The pinion drives

Fig. 3 shows a memory sheet with the number of the gear pairs 46,47 and the gear 48. The latter

1 - 1–6 corresponding reductions in the tongues, is connected to the axis 49, which in front the

4 shows the storage drum in section according to EF in control disk 50 and, backwards, the contact disk 51

Fig. 1 on an enlarged scale, 70 carries. When the cam disc rotates through

their cam 52 of the lever 54 rotatably arranged on the shoulder screw 53 made to swing out. He stressed with the nose 55, held by the rotatable at the same paragraph screw drive lever 56 torsion spring 57. Does the drive lever to resistance, then only the torsion spring biases. The control disk is designed so that its control path 58 holds a roller 59 and thus the drive lever in its rest position for the duration of its winding. After releasing the drive lever, it pushes up the roller 61 of the rotatably mounted bolt 62 with its inclined edge 60 , which then runs along the arcuate path 63 of the drive lever, the roller acting on the contact 10 above it. The nose 64 of the bolt is lifted from the displaceably mounted button, after which the drive lever, rotating further via drive pin 65 and while tensioning the return spring 66, pushes the button forward until the sensing nose 67 of the button touches the opposite tongue. The nose 69 of the pawl 71, which is tensioned by a spring 70 , engages in a locking toothing 68 of the button (which is only shown symbolically). It holds the button in the position it has reached while the drive lever goes back, whereby the bolt, supported on the back of the button, initially remains in its raised position. As the cam disc continues to rotate, its cam controls a latching device formed from the rotatably mounted latching lever 72, the latching pawl 73 and the tension spring 74, which can turn the tensioned latching wheel 75 abruptly by one pitch. The ratchet wheel is fastened to the rotatable shaft 77 by means of a pinion 76. The gear 80 , which is fixedly connected to the elevator lever 78 and the rotatable shaft 79 , engages in the pinion. The elongated arm 81 of the elevator lever carries the storage drum via a spacer ring 82. The downward movement takes place by one tongue division each. Inaccuracies resulting from the respective angular position of the elevator lever are subordinate. When the cam reaches its starting position again, the contact sets 10 and 12 switch on a pulse relay. This in turn operates the lifting magnet, which actuates the small angle lever 85 through the roller 84 attached to its armature 83. The arm 86 of the angle lever lifts the latter out of the latching teeth of the pushbutton via tabs 87 of the pawl 71. A nose 88 located on the angle lever engages in the ratchet tooth pitch, so that the button jumps back by about half a pitch. At the end of the pulse, the solenoid drops and releases the latching device, causing the button to jump back by the remaining amount of the division. This is repeated until the button has reached its starting position again and the bolt 62 can fall back into the indentation of the button. Contact 10 drops out, the pulse relay is shut down and the motor circuit that was interrupted during the pulse output is switched on again. This process is repeated until the last tongue has been scanned and the storage drum is in its lower position. The control disk 50 continues to rotate in the meantime until its roller 89 touches the arm 90 of the elevator lever, which is rotated upwards; on further rotation, this arm is pressed down, the other arm 81 rotating upwards, taking along the storage drum. If the initial position is reached again, the drive motor is switched off by the contact disk 51 and the contact set 13. Re-commissioning takes place by means of pushbutton 91 in a manner not shown in any further detail.

The pushbutton system consists of the pushbutton plate 92 and the guide plate 93, the slidable keys 96 with angled tabs 94 and sprayed-on pushbuttons 95 , the transmission rods 97 of different lengths and the rigid axle 99 supported by two angles 98 and tensioned by tension springs 100 rotatable locking levers 101. If the associated locking lever is ejected by pressing down a pushbutton, the locking bar 103 pulled down by springs 102 ensures the retention, with locking levers that have already been ejected earlier being deleted in a known manner. When the locking bar is raised, the second drive motor is switched on via a delay relay by means of insulating pimples 104 and contact set 11 , which ensures at least one-fold rotation of the single-tooth worm even with brief contact. The locking levers are guided at the same distance through frames on the guide plate. The pushbutton plate has exchangeable labels 105, it is screwed to the guide plate at suitable points. A Z-shaped bar 107 carrying two fastening rods 106 is fastened to the guide plate. Two consoles 108 and eyes 109 are located on the housing frame for mounting the pushbutton system. The whole thing encloses a common housing.

Push-button operated impulse generators of this type stand out in terms of automation Office operation due to their simple operation. You save time and memory work and reduce Incorrect connections compared to the usual connection establishment using call number discs.

Claims (2)

Patent claims: 1. Impulse generator for telecommunications, in particular telephone systems with mechanical storage of the pulses using memory metal sheets or discs, the tongues or lugs carry, the equivalent in length to one of the required pulse train amount differ, characterized in that the storage trays (24) in a storage drum (20 and 21) are stored in such a way that the tongues (25) or lugs differ in their radial length by an amount corresponding to the respective desired number of pulses, and that the differences in length of the tongues (25) or lugs are activated by a step-by-step button can be tapped with its feeler nose (67). 2. Impulse generator according to claim 1, characterized in that a rotatable Einzahnschnecke is locked by serving as a bolt and in the same axial plane that are available equally spaced elements, for example locking levers (101) by equal angular amounts or multiples thereof. Considered publications:
German patent specifications No. 572 072, 649 713,
665 854, 706 201, 925 301; German interpretative document No. 1 034 700. In addition 3 sheets of drawings © 009 649/105 11.