DE1242154B - Electric elevator clock - Google Patents

Description

Electric elevator clock The well-known electric elevator clocks work with an electromagnet whose armature is at its due to the excitation of the magnet caused movement the clock spring winds, whereby the excitation of the magnet by a mechanical contact is effected, which by one with the clock spring shaft coupled oscillating part is opened or closed in its end positions. These Watches have the advantage that they can be manufactured very cheaply; They have however, the disadvantage that is inherent in all contact watches that the contact consumed relatively quickly, which leads to a deterioration in accuracy, partly leads to repairs. To use an extremely high quality contact material, excludes itself with these watches, because this affects their cost effectiveness would.

The invention is based on the object of avoiding this disadvantage.

It is already known to work with electric pendulum clocks and balance clocks direct electrical drive of the aisle folder the mechanical contacts by application to avoid electronic means. Furthermore, contactless spring lifts are known as Known motor elevators with non-self-starting synchronous motors that run on direct current, z. B. a battery can be fed brushless via transistor controls. Leaves if you run the engine constantly, the power consumption is unnecessarily large, and you need it Safety clutches od. Ä. To prevent over-tensioning of the tension spring; would you can temporarily brake or stop it, as is known with Ferrari engines, like this you need special starting devices again. In addition, engines are always more expensive as magnetic lifts. With such periodically from the clockwork or from the running mainspring controlled electromagnetic spring windings is in any case this contactless way Control has not yet been used. These arrangements require a special one Release device for starting and / or interrupting the elevator process. This triggering has so far always taken place through mechanical contact with the previous ones described defects.

It is already in the case of an electronic, preferably transistor circuit powered elevator watch has been suggested that the electronic circuit is dependent periodically either through the expiry of the drawn mechanical energy storage device practically powerless, from the clockwork, especially its winding mechanism, controlled contacts or via the clockwork, in particular its winding mechanism, periodically moving parts of the electronic circuit, i.e. contactless, in working positions can be brought in such a way that periodic pulses from its output into the drive coil of the elevator system are given, preferably such that this drive coil in a blocking oscillator circuit of a transistor blocking oscillator is located by the practically powerless working contacts or the moving parts of the clockwork the transistor circuit arrangement can be unlocked periodically. This is further been proposed as a lift organ by a trigger or Anwurforgan to use controllable elevator motor.

The invention relates to an electric clock with electronically contactless controlled electromagnetic impulse winding of the mainspring with a release device, the periodic relative movement that generates a control pulse between two Can trigger parts of a pulse generator, one member of the pulse generator is connected to the electromagnet via an electronic circuit in such a way that that each control pulse is sufficient for the necessary post-tensioning of the mainspring Causes excitation of the electromagnet.

According to the invention, the task set is achieved while avoiding the ones mentioned Disadvantages solved in that means for triggering the control pulse sufficiently suddenly are provided by a special energy store and a trigger element are formed in such a relative arrangement that the slow mainspring sequence first the special energy storage is biased, then suddenly one with the one link of the pulse generator connected lever to fall in or out permit.

The electronic switch is expediently with at least one such a semiconductor component working as a switch, for example a transistor arrangement, equipped that immediately with the onset of the control pulse the full drive pulse occurs in the output of the electrical circuit. At the release device is according to a particularly expedient embodiment of the invention to a cam arrangement, z. B. thought of a trip star that is in a biasing relationship to one of the Magnet-carrying pivoting device under the action of a return force, z. B. a lever.

Expediently, it finally lies parallel to the electronic one Arrangement as before a mechanical contact 17, which for throwing the armature serves when the spring has run out completely; this contact will only be practical needed when changing the battery, so that it is not used, so is not a source of interference.

In the drawing is an embodiment of the electric elevator watch according to the invention shown as a schematic diagram, for example.

1 means the armature of the pulse magnet 2 of an electric elevator watch, which under the action of the electromagnet 2 transmits a rotary movement to the lever 3, which in turn transmits the winding impulses by means of a pawl to a ratchet wheel 5 to which the outer end of the intermediate spring 4 is attached; the clock spring 20 is wound up by this movement. The ratchet wheel 5 has the task of protecting the spring 4 from sudden expiry while the lever 3 is pulling open. The escapement should not be powerless in the time the lever 3 is lifted. The wheel chain 6 with the pointer drive and the seconds shaft 7 is now in a frictional connection. This is coupled to the gear regulator 18 in a known manner. On this shaft 7 sits a ratchet wheel designed as a release star 8 or 8 '; this is in FIG. 1 and 2 shown in two different shapes. A two-armed lever 9 (FIG. 1) or 19 (FIG. 2) is actuated by the individual prongs of the release star 8 or 8 ', which is rotated around the axis 10 against the restoring force of a spiral spring 11 (FIG . 1) or the weight effect of the magnet 12 (FIG. 2) is rotatably mounted.

A permanent magnet 12 is arranged at its end facing away from the trip star. The lever 9 is raised or rotated by the rotary movement of the release star. As the trigger star continues to rotate, the lever falls over the tip of one trigger tooth, oscillates in the induction coil 13 and generates voltage pulses in the process. The coil 13 is located in the input circuit of a transistor 14, in whose output circuit an electrical voltage source, expediently a battery 15, and the winding of the elevator pulse magnet 2 are located. 16 denotes an oscillating mass which is arranged on the lever 3 and causes the spring 4 to move smoothly. Since the control magnet is periodically made to oscillate by the star switch, the spring 20 is periodically re-tensioned at certain time intervals.

It is within the scope of the invention that the pulse generation for actuation the electronic circuit arrangement also by means other than a plunger coil arrangement can be generated. On the one hand, the coil arrangement can be different; on the other hand can also be replaced by another contactless, for example capacitive one electrical impulse generation occur.

Claims (2)

Claims: 1. Electric clock with electronically non-contact controlled electromagnetic impulse winding of the mainspring with a triggering device which is capable of periodically triggering a relative movement between two parts of a pulse generator that generates a control pulse, one element of the pulse generator being connected to the electromagnet via an electronic circuit, that each control pulse causes sufficient excitation of the electromagnet for the necessary post-tensioning of the mainspring, characterized in that means are provided for the sufficiently sudden triggering of the control pulse, which are provided by a special energy store (9, 11 or 19, 12) and a triggering element (8, 8) are formed in such a relative arrangement 'that during the slow driving force flow at first the special energy store (9, 11 or 19, 12) biased to then suddenly a with the one member (12) of the pulse generator associated lever (9,19 ) a- or let it fail. 2. Electric clock according to claim 1 with an inductively triggered transistor circuit during the mainspring sequence, characterized by the arrangement of a control permanent magnet (12) on the lever (9, 19) controlled by the triggering element (8, 8 '). 3. Electric clock according to claim 1 or 2, characterized by the use of a spiral spring (11) as a special trigger energy store. 4. Electric clock according to claim 1 or 2, characterized by such an arrangement of the lever (19) controlled by the triggering element (8 ') that the lever (19) is raised during the mainspring sequence and the dead weight of the lever and the control magnet ( 12) serves as an energy store. 5. Electric clock according to one of claims 1 to 4, characterized by an additional contact (17) which only comes into operation as a starting contact when the mainspring is completely relaxed. Documents considered: German Patent No. 724 020; "Die Schweizer Uhr", 1957, issue 2, p. 2. Earlier patents considered: German patents No. 1081387, 1092 390.