DE354314C - Electric clock - Google Patents

Description

Electric clock. The object of the present E, rfindung forming electric clock is shown in the attached drawings, in an exemplary embodiment, in which: FIG Figure i, the movement in front view;. Fig. - shows an end view; Fig. 3 is the arrangement of the spring drive housings; Fig. 4 and 5 show the contact device.

The electric clock shown in the drawing has plates i and: 2, which are rigidly connected to one another by means of bolts. Electronics 3 and 4 are screwed to the two boards. These are temporarily excited with the current of a lighting network by a device to be described in more detail. Anchors 5 and 6 play with the electromagnets 3 and 4, which on the one hand are linked to the plates by hinges 7, as shown in Fig. I. On the other hand, the armatures each rest on a pawl 8 , which engage in ratchet wheels 9 and io. The switching pawls 8 are arranged displaceably on the plates and are constantly pressed against the teeth of the switching wheels 9 and io by springs ii. The parts 5, 6 and 8 can, as the arrow in Fig. I shows, move, whereby the ratchet wheels 9 and io are switched; by means of the springs ii, the parts 5, 6, 8 are returned to the starting position, whereby the switching pawls engage the next following teeth. The ratchet wheels are secured against backward rotation by pawls 12 and 13. The ratchet 9 sits firmly on an axle 14 on which a spring housing 15 rests loosely belonging to the engine. The same arrangement is made with the ratchet wheel io in that it is coupled to an axle 16 which loosely carries the spring housing of the striking mechanism 17. Both housings r5 and 17 are equipped with ring gears which mesh with transmission gears, not shown in detail, which are known per se. The axles 14 and 16 are stored at one end in the plates, at the other end an intermediate piece 18 loosely engages in bores of the axles 14 and 16, whereby the parts 14 and 16 with part 18 secure each other in their horizontal position. A mainspring, not shown in detail, rests in each of the housings.

The switching device, from which the Elel, tromagnete 3 and 4 are excited at certain time intervals, is as follows: As Fig. I and 2 show, an electromagnet ig is screwed to the board 2, insulated. The iron cores: 2o and: 21 protruding from the coils are milled out, between which a rotatably mounted armature: 2: 2 plays. According to Fig. 1, 4, 5 it has a contact nose 23 with which a contact brush 24 comes into contact at times, whereby a circuit is closed for a short time and the magnets 3 and 4 are excited. The armature 5 and 6 are tightened, the pawl 8 shuffling on, and switched io whereby the shift gears 9 and are thus tensioned the springs in the housings 15 and 1. 7 The armature 22 also has a driver 2.5 (Fig. 4), which protrudes between two arrne42 and 43 of a stop: 26. The armature 22 is rotatably seated on an axis: 27 and is isolated from the same by means of an insulating sleeve: 28. The same is seated from Anschlag2i the case, only (let the same firmly on the shaft next to the latter part is firmly seated on the axis 27 an escape wheel 29, over which the known armature is disposed 3o the clock means the in - Fig.. i schematically indicated translation wheels, the escape wheel # 9.9 in front of the spring drive housing 17 is moved gradually (according to the arrow in Fig. 4) by armature 30 and pendulum 31. The contact brush 24 sits firmly on the pendulum axis 32. On the axis: 27 is still isolated a slip ring 33 which is conductively connected to armature 22. This slip ring is in constant contact with a brush 34.

The current flow is as follows: One conductor each goes from a terminal 35 to the electromagnets 3 and 4, while the other end of the wire 36 is connected to the ground. From a terminal 37 , the current flows through a pin 38, a spring 39, through conductor 4o into the magnet, and from that through conductor 41 through brush 34 into grinding ring 33 and into contact lug 23.

The functioning of the clock is as follows: The escape wheel 29 is set in screeching rotation from the spring drive housing by the transmission gears and pendulum. One arm 4: 2 of the stop --6 comes to rest against the driver 25 , whereby this, thus also the anchor: 22, together with the contact nose 23, is taken along. As a result, the last mentioned is guided against the contact brush: 24 and brought into the contact position shown in Fig. I. The circuit is then closed, since the current now flows from the nose: 23 into the brush 24, from the same into the mass, whereby all the magnets are now excited. The armatures 5 and 6 are tightened, pushing the pawl 8 against the ratchet wheels 9 and io. These are rotated according to the arrow, whereby the spring of the striking mechanism is tensioned. This happens very quickly, in a fraction of a second, as soon as the magnet 1 9 is energized, the cores 2o, 2 1 anchor 2.2 usurp, whereby the contact parts: 23 24 brought out of contact immediately. The driver has now placed itself against the other arm 43 of the stop: 26. The escape wheel: 29 continues to work quietly, the arm 43 now lies against the - driver 25, whereby the armature 22 including the contact lug: 23 is rotated until the latter is brought into contact with the brush 24 again, which occurs with each revolution of the escape wheel 29 occurs once, whereby the circuit is closed again to operate the circuit of the ratchet wheels 9 and io again.

This electric clock works almost without spark and the application of platinum to the contact surfaces of the parts 23 and 24 rubbing against each other is thereby superfluous. The stroke of the armatures 5 and 6, and thus also the switching of the ratchet wheels 9 and io, can be regulated by screws 44.

The electric winding of the mainsprings is such that only a fraction the pulling force is consumed, the excess is in the spring housings stored so that in the event of a power failure the clock will continue to work for up to 12 hours continues unhindered.

Claims (2)

PATENT CLAIMS: i. Electric clock at which by the escape wheel-a Cam serving as a contact in the path of a contact swinging with the pendulum is set, characterized in that the cam (: 23) is rotatable with the mounted armature (22) of an electromagnet (ig) is rigidly connected in the through, cam and vibration contact is installed in a closed circuit, in such a way that that by the excited electromagnet the circuit just established is repeated is interrupted. 2. Electric clock according to claim i, characterized in that the armature (: 22) with the cam (23) is loosely rotatable on the escape wheel shaft (: 27) and is entrained by a fork-shaped driver (42, 43) of the other (#Iben #vird, in such a way that cams (23) and drivers 42) can rotate with respect to one another within certain limits.