DE966447C - Number switch for telephone self-access systems - Google Patents

Description

ISSUED AUGUST 8, 1957

M 16042 VIIIa j'21 α ³

The invention relates to a number switch for telephone self-access systems, in which the Axis of rotation of the finger washer, the spring housing with mainspring and the pulse generator ring after a common center axis mounted on one side in a bearing bush are oriented, between the Pulse generator ring and the centrifugal governor a multi-stage gear is provided and the pulse generator ring when winding the dial is fixed, but with the central axis when running is coupled and taken along.

In known embodiments of this number switch, are the finger disc, the centrifugal governor, the impulse cam disc (or the respective drive of the switching device for Actuator serving impulses) and the switching device itself in different positions each other housed on or in the housing. Arrangements have also been proposed in which the pulse disk is on the central axis ao is arranged.

There are also number switches known in which the pulse contact is radial to the number disk axis is operated. However, these known arrangements have the disadvantage that the dei Contact through specially trained intermediate

709 621/8

members is controlled by the front toothed pulse generator ring. In doing so, form a pulse generator ring and drive wheel for the gearbox of the governor separate components, which together are screwed. Such known number switches are expensive and expensive to build unsuitable for series production '.

The invention has the purpose of the number switch in construction and assembly ίο to simplify the parts. This makes production easier and more reliable at the same time Continuous operation achieved. According to the invention this is achieved in that a multi-stage, preferably two-stage spur gear is arranged in such a way that the pulse generator ring with the drive wheel the first gear stage forms a part, and that the teeth of the pulse generator ring the pulse contact Actuate immediately in the radial direction.

ao According to a further invention, the adjustability of the centrifugal governor is achieved in that tension springs between the double-armed brake lever and the flyweight carrier of the governor are tensioned, which are attached to a common pallet centered around the controller axis are. The pallet can be rotated around the controller axis. The brake levers are driven by the centrifugal force of pressed against a brake ring on the outside, which also serves to support the controller axis. A major advantage of the number switch according to the invention is that the moving components are arranged so that they are protected against severe contamination of their bearings. The invention is shown in FIGS. 1 to 6 at hand an exemplary embodiment described in more detail.

Fig. Ι represents a plan view of the number switch seen from the controller side;

FIG. 2 shows a representation in section AB of FIG.

FIG. 3 shows a representation in section CD of FIG.

Fig. 4 is a side view of the number switch represents and reveals the governor clutch;

FIG. 5 shows a view in section EF of FIG. 4;

Figures 6 and 7 illustrate the arrangement of the mainspring in the spring housing; Fig. 8 illustrates the principle of operation of the number switch;

Fig. 9 illustrates the torque characteristic of the mainspring in relation to the angle of rotation; Fig. 10 shows the mechanical and temporal actuation the impulse contacts and the number disc work contact dar;

Figs. 11, 12 and 13 illustrate the arrangements of the Finger disc and the rows of numbers.

Fig. Ι shows the top view of the number switch from the controller side. Dielmpulsnockenischeibei is combined as a pulse generator ring with the ring gear 2 and is driven by the ratchet teeth 3 of the central axis 4 via a pawl 5 !. The pulse generator ring 1 has 14 teeth on the circumference for generating pulses, corresponding to the division of the finger holes 7 in the finger disk 8.Since the pulse generator ring 1 is not retrieved when the dial is lifted, it only rotates continuously when it is running, it must have cams 6 over the entire circumference be provided. The contact springs for the pulse contact 9 and for the number switch working contact 10 are combined one above the other to form a set of springs and are fastened horizontally to the base plate 11 on a base 12 of the base plate. The cam 15 is clamped on the central axis 4 by the nut 14. The centrifugal governor 23 has two double-armed brake levers 16 made of plastic which are mounted on bolts and which carry the centrifugal weight 17 on one side and the brake lever 18 on the other. The brake pads 18 drag on a brake ring 19 which is fastened to the gear plate 20. The regulator shaft 21 is mounted in its bore. Two helical springs 24 are tensioned between the brake levers 16 and a pallet 22 on the flyweight conveyor 23. The pallet 22 is centered on the controller axis 21 and fastened in slots on the flyweight carrier 23 with two screws. By rotating the pallet 22, the spring force of the two coil springs 24 can be changed. The flyweight carrier 23 has graduation marks and the pallet 22 has pointer marks for easier setting of the regulator.

As can be seen from Fig. 2, the spring housing 25, the finger washer 8, and attached to the bearing side of the cam 15. · The central axis is within the pulse generator ring 1 4 formed as a ratchet toothing 3. The central axis 4 is on one side in the central bearing bush 26 stored. It is axially fixed on the regulator side by a flange 34 of the Center axis 4 itself and on the number side through the Fed.ergeha.use 25. The pulse generator ring 1 is axially fixed by the flange 26 'of the bearing bush 26 and by a washer 27 on the central axis 4 between the cam 15 and the ratchet teeth 3 is clamped by the nut 14. The cam, 15 is made of molding material and has two cam tracks 13 and 13 '. The pulse generator ring ι has a flange 2 which is provided with teeth on its end face.

From Fig. 3 and 4 it can be seen that the ring gear 2, which is united with the pulse generator ring 1 and aaf the central bearing bush 26 (Fig. 2) is mounted, is in engagement with a pinion 28, which is mounted on the gear shaft 29. The coupling between the gear shaft 29 and the pinion 28 takes place by a wrap spring 31 over the pinion shaft and axle. When the dial is running, it pulls the wrap spring 31 together and thereby causes the entrainment of the gear shaft 29. A gear wheel32 is attached to the iao gear shaft 291st, which is in engagement with a further pinion 33 and is connected to the controller shaft 21.

From Figs. 4 and 5 it can be seen that the gear axis 29 and the controller axis 21 in the basic plate 11 and in a special gear plate 20

are stored. The gear plate 2o is screwed onto a ring segment 36 of the base plate 11. the Pinions 28 and 33 and the gear 32 are located within this segment and are therefore against strong pollution protected.

6 and 7 show the arrangement of the central winding spring in the spring housing. The spring housing 35 ′ lies loosely against the inner edge of the spring housing 25. Between the spring housing 25 and 'the An intermediate piece 37 is located on the outer spring coil, which is located on the one hand on a rivet head 38 the spiral spring 35 and on the other hand on a rivet head 39 of the spring housing 25 supported .. It forms thus a coupling between the spring housing 25 and spiral spring 35 and causes it to be a End is bent and thereby prevents the spring from jumping, a continuous process of the pulse generator ring.

8 shows the principle of operation of the number switch. In the rest position, the impulse contact 9 is through the cam track 13 lifted from the pulse generator ring 1 (Fig. 1). The number switch working contact is also 10 opened by the cam track 13 '(Fig. 1). When pulling up the finger washer 8, both contacts released, so that the pulse contact 9 by means of its actuating tab 39 (Fig. 4) between two cams 6 of the pulse generator ring 1 come to rest and the number disk work contact closed is. The pawl 5 is lifted out of its engaged position, so that the pulse generator ring ι remains in rest position. The disk 27 is also rotated. When the finger washer 8 expires the pawl 5 with the ratchet teeth 3 frictionally, and the pulse generator ring 1 rotates with the same rotational speed as the finger washer. The pulse contact 9 is during the Sequence by means of its actuating tab 39 from the cam. 6 of the pulse generator ring 1 is open (Fig. 1). The impulse spring then falls into the next one by its own spring force as it continues to turn Gap between two cams of the pulse generator ring 1 and the contact 9 is closed (Fig. 1). The last two pulses are suppressed by blocking the pulse contact 9 (Fig. 10). This blocking takes place in that the cam track 13, the contact springs 9 by the The actuating tab 39 lifts off the pulse generator ring 1. The cam track 13 'opens via a pimple on the normally open contact spring 10, the contacts after the impulse has ended. The cam track 13 lifts both pulse springs 9 via a pimple of the pulse spring 9 after the pulse has been given from, so that the actuating tab 39 of the pulse spring is lifted out of the tooth gap and the pulse contact 9 remains closed. When the finger washer 8 expires, the restoring force the spiral spring 35 over the central axis 4 and ratchet teeth 3 and 5 of the pulse generator ring ι driven with the ring gear 2. The pinion 28 meshing with the ring gear 2 is by the wrap spring 31 with the gear 32 coupled, which actuates the centrifugal governor via the pinion 33. By centrifugal force the centrifugal weights 17 of the governor, the brake pimple 18 is so strong against the brake ring 19 printed that the process takes place evenly. The restoring force of the springs 24 acts as a result of the centrifugal force the flyweights 17 against. By changing the spring tension, the Contact pressure of the brake pimple 18 on the brake ring 19 changed and the speed of rotation of the governor regulates and thus also the speed of rotation of the pulse generator ring 1. When sudden stopping of the pulse generator ring 1 by the finger washer running against the stop the governor keeps turning due to its kinetic energy. The wrap spring 31 is turned back; and thus releases the clutch between the pinion 28 and the gear shaft 29, so that the pulse generator ring 1 is not rotated any further in the run-off direction.

9 shows the torque characteristics of the winding spring 35 as a function of the angle of rotation The angle of rotation is determined by the Vv eg one of the finger disk holes 7 up to the stop of the finger washer 8. For comparison, the corresponding torque characteristic is shown as a dashed line the winding springs of well-known number switches are shown. You can see that the Open the finger disk (arrow "open") the torque of the number switch according to the invention (solid line) rises flatter and in the is significantly smaller than the torque of the winding springs of known number switches. Against it the torque when the finger washer is running (arrow »down«) is significantly higher and is constant over a larger angle of rotation range. By comparing the two characteristics is the main advantage of the invention The number switch can be seen particularly clearly. Although opposite the well-known number switch !! less force is needed to open the finger grip, is still necessary for the process and thus there is also a greater restoring force for the pulse generator ring. '

Fig. 10 shows the mechanical (Fig. 10 a) and the temporal (Fig. Iob) sequence of the pulse contact 9 (nsi) and the number switch working contact 10 (nsa) .

In Fig. 10 a, the cam tracks of the pulse generator ring ι and the cam 15 are shown in their development ^: 1, 13, 13 '. The pulse contact is actuated on the one hand by its actuating tab 39 from the pulse generator ring 1 and on the other hand via the pimple and the actuating tab 40 by the cam track 13 '. The pulse generator ring i has 14 cams 6 on its circumference and is only moved from right to left in the figure when the finger washer expires, while the two cam tracks 13 and 13 'are moved in both directions, from left to right when the finger washer is opened , and when running from right to left. Fig. 10 a represents the number switch in

When it expires, the pulse contact 9 is opened and closed by the cam 6 of the pulse generator ring 1 via its actuating tab 39. There are pulses corresponding to the upper pulse series of Fig. Iob. sent by the pulse contact. The last two pulses (eleventh and twelfth pulse) are suppressed by the pimple running onto the cam 13 'and lifting the pulse contact 9 from the pulse generator ring 1 via the actuating tab 40 (FIG. 4). Simultaneously with this, the number switch is terarbeitkontakt 10 (nsa) opened in that his pimple on the cam track 13 runs. The time sequence of the lifting of the pulse contact 9 from the pulse generator ring 1 is shown in the middle pulse series of FIG. 10 b. The lower pulse series of Fig. Iob represents the time sequence of the actuation of the number switch work contact 10 (nsa) .

ao In your Figs. 11 to 13 are the arrangement of the Finger washer 8 and the necessary series of numbers shown in more detail. Fig. 11 shows the view of Finger disc from behind. The finger washer 8 consists of a transparent plate made of plastic with the finger holes 7. Corresponding to the finger holes 7 is in the middle part of the Finger disk 8 a row of numbers on the underside in mirror writing and with fluorescent paint designed. The middle part of the finger washer 8 is then coated with an overcoat. The finger washer 8 has in the middle a slot 43, in which the central axis 4 with a corresponding trained approach engages and which thereby moves when the finger washer 8 is actuated will. In the base plate (Fig. 12) is a row of numbers embedded in a recess 41 corresponding to the finger holes 7 (Fig. 13), which is also designed with luminous paint. A ring 42 made of transparent plastic protects this series of numbers against damage. The arrangement is particularly shown in FIG. The transparent ring 42 is secured against falling out by a snap ring 44. Fig. 13 shows the arrangement of FIG. 12 from above. As not shown in detail in the figures, is the number switch on its controller side with a cover made of transparent plastic, like him for example known as Plexiglas, covered so that the individual components are protected. the The hood can be fastened to the base plate 11 (FIG. 2) or to the base 12, for example by means of screws will. Covering the regulator side by a hood also has the advantage that those when pulling up and when the switch expires the resulting noises are strongly muffled.

Claims (1)

PATENT CLAIMS: i. Number switch for telephone self-access systems, in which the axis of rotation of the finger washer, the spring housing with mainspring and the pulse generator ring according to a common, are oriented on one side in a bearing bush center axis, between the pulse generator ring and the centrifugal governor a multi-stage gear is provided and the pulse generator ring when the dial is lifted is fixed, but is coupled to the central axis during the process and is taken along, characterized in that a multi-stage, preferably two-stage spur gear is arranged such that the Pulse generator ring with the drive wheel of the first gear stage forms a part, and that the Teeth of the pulse generator ring directly actuate the pulse contact in the radial direction. 2. Number switch according to claim 1, characterized in that the pulse generator ring (1) is mounted on the bearing bush (26) and is axially fixed by a flange (26 ') the bearing bush and through the washer (27) on the central axis (4). 3. Number switch according to claim 1 and 2, characterized in that the pulse generator ring (1) has a flange on which the teeth of the ring gear (2) are milled or injected are. 4. Number switch according to claim 1 to 3, characterized in that the pulse generator ring (1) with the ring gear (2) made of polyamide, e.g. B. Ultramid, is made. 5. Number switch according to claim 1 to 4, characterized in that in a recess of the pulse generator ring (1) a pawl bolt is arranged on which a The pawl (5) is mounted so that it engages in the pawl toothing (3) of the central axis (4). 6. Number switch according to claim 1, characterized in that within one Ring segment (36) of the base plate (11), the pinion (28, 33) and wheels (32) of the clutch gear arranged and plate through a gear (20) are covered and that their axes in the base plate (11) and in the gear plate (20) are stored. 7. number switch according to claim 1 and 6, characterized in that the shaft has a pinion (28) and the gear shaft (29) protrude through the gear plate (20) to the outside and that around the protruding parts a Loop spring (31) is arranged. 8. number switch according to claim 7, characterized in that after the expiry of the Finger washer (8) the clutch by continuing to run as a result of its kinetic energy Centrifugal governor (23) is released until the governor comes to a standstill. 9. number switch according to claim 1 and 6 to 8, characterized in that the of the iac Gear axis (29) driven controller axis (21) by a, designed as a brake ring (19) Bearing bush is guided, and that the centrifugal governor with the free stub shaft a double-armed flyweight carrier (23) is attached. ίο. Number switch according to claim g, characterized in that the centrifugal governor, with the exception of the centrifugal weights, is made of light metal or plastic.
ii. G number switch according to claim and io, characterized in that the double-Brem ^c levers are mounted (16) on the two bolts of Fliehgewichtsträgers (23) which on the one hand, a centrifugal weight of specific gravity material, on the other hand a Bremspimpel ( 18) wear. 12. Number switch according to claim ii, characterized in that between the double-armed brake lever (16) and the flyweight carrier (23) tension springs (24) are tensioned, and that both springs (24) on a common Pallet (22) sit, which are centered in the stub shaft (21) and by loosening the screws can be rotated in slots. 13. Number switch according to claim 12, characterized characterized in that pointer marks on the pallet (22) and on the flyweight carrier (23) Graduations are arranged. 14. Number switch according to claim 1, there- «5 characterized in that on a base (12) the base plate (11) the pulse and Number switch work contact springs (9, 10) are attached combined in a spring set. 15. Number switch according to claim 14, characterized characterized in that the one spring of the pulse contact (9) has a tab (39), which engages in a tooth gap of the pulse generator ring (1), and that the other spring of the pulse contact a tab (40) for actuating the contact through the upper cam track (13) owns. 16. Number switch according to claim 14, characterized characterized in that the one spring of the number switch working contact (10) one Pimpel carries through which the working contact of the lower cam track (13 ') of the Cam is opened. 17. Number switch according to claim 1, characterized characterized in that a number row is injected or poured into the base plate (11) and with a transparent plate is covered from plastic. 18. Number switch according to claim 17, characterized characterized in that the numbers in the series of numbers are designed with luminous paint. 19. Number switch. according to claim 1, characterized characterized in that the finger washer (8) is made of transparent plastic. 20. Number switch according to claim 19, characterized in that numbers are injected in mirror writing on the back of the finger disc. 21. Number switch according to claim 19 and 20, characterized in that the numbers the row of numbers are designed with luminous paint. 22. Number switch according to claim 1, characterized in that the for the return the mainspring (35) necessary for the finger washer (8), a resilient intermediate piece (37) of the outer spring end (35 ') for reduction the winding friction carries. 23. Number switch according to claim 1 and 2, characterized in that the disc (27) for the axial fixation of the pulse generator ring (1) is designed as a plate spring and when the elevator on the flat side of the pulse generator ring (1) rubs (slip clutch), so that this against a stop is rotatable. · 24. Number switch according to claim 1, 2, 14 and 23, characterized in that a leaf spring is arranged in the layering of the spring set which protrudes into a gap between the cams (6) of the pulse generator ring (1) and with the elevator of the number switch as a backstop a rotation of the pulse generator ring (1) only allowed up to the cam flank (stop), but from the Cam edge is lifted off. 25. Number switch according to claim 1 to 24, characterized in that the regulator side is covered by a hood made of transparent plastic. Publications considered: go German Patent No. 495 078; Austrian Patent No. 100 340; U.S. Patent Nos. 1518056, 1543662; "Electrical Communication", 1942, vol. 21, p. 6; "The Bell System Technical Journal," April 1951, p. 257. For this purpose 3 sheets of drawings