DE956840C - Movement with electromagnetic drive - Google Patents

Description

Movement with electromagnetic drive The invention relates to on a clockwork with electromagnetic drive and a freely oscillating, armature directly coupled to a clock pendulum, whereby the pendulum oscillations by means of interposed gearless drive links the second wheel of the clockwork in steps move on. A well-known clock of this type is with a type of Hippschem Equipped with a sensing contact, which only then activates the excitation circuit of the electromagnet actuated when the pendulum amplitude has dropped to a certain minimum value. Apart from the sensitivity of this in precision clocks of other types due to the "free" oscillation of the pendulum, the sensor contact has proven itself over a long period of time, however, it is relatively complex and therefore demanding such high precision expensive contact arrangement with direct coupling of the pendulum with the armature and the hand movement advance Inexpedient, because the pendulum moves the armature with it even when it is not powered and also has to do the work of switching the hand mechanism. For such clocks, especially with battery operation, on more favorable drive ratios at the same time low power consumption should be respected.

In the case of a clockwork with electromagnetic drive and freely oscillating, with the armature directly coupled clock pendulum, whose oscillations by means of interposed, gearless drive links shift the second wheel of the clockwork step by step, are to create significantly more favorable drive conditions according to the invention the contact and switching organs like this arranged that the forwarding of the fourth wheel in the one zero position of the pendulum and the circuit closure only take place for a short time in the other zero position, with the anchor designed and is arranged that, when the circuit is closed at the beginning of its entry into the Magnetic field.

It has already become known in the case of electromagnetic pendulum drive of other types of clocks, the current can be short-circuited in one of the zero positions of the pendulum to let, however, according to the proposal of the invention additionally in the second Zero position of the pendulum causes the hand movement to advance. In both cases will exploited the fact that in the zero position the pendulum speed and thus the momentum exerted by the pendulum is greatest. By separating the two processes However, the mechanical loads are applied to the two different zero positions of the pendulum distributed, thus avoiding overuse of the pendulum. The only short-term Closing the circuit here enables considerable power savings. Important but it is also still that the circuit is only closed at the moment in which the lamellar iron body excited by the solenoid has its greatest effect exerts on the anchor. This creates a particularly good efficiency of the flowing Current achieved. The formation of the armature in such a way that it closes the circuit is at the beginning of its entry into the magnetic field, is as a single measure also known, however, it affects the other characteristics to a much greater extent. By combining the features, in addition to the Simplifying the structure of the clock created a work that stands out through special characterized by low power consumption, so that a normal low-voltage battery is used to drive it can be used. Even with the voltage drop caused by time the low-voltage battery used may be due to the peculiarities of the construction a reliable clock rate can be achieved.

Appropriate further developments of the invention relate on the one hand on the special training of the mechanical and on the other hand the electrical Switching elements, since only in the interaction of both parts the low power consumption and the simple structure can be achieved.

With regard to the mechanical switching elements is essential that a the ratchet that engages in the second wheel carries around the axis of the second wheel rotatable lever under the influence of a cam disk fixed on the armature axis stands, and that the rotation of the fourth wheel is transmitted to the minute wheel by inserting a pin attached to the fourth wheel into the Minute wheel engaging pawl moved.

Another expedient development relates to a new one One-way contact for closing and opening the circuit, which is connected to the armature by one oscillating, working together with a fixed contact lying at an angle to the plane of oscillation Contact pin is characterized, which is about a lying in its plane of oscillation Bolt is rotatable and resiliently supported in both directions. Further Features of the one-way contact result from the following description and the demands.

The new one-way contact ensures a very short circuit closure time, with the current short for the excitation of the electromagnet in the most favorable tightening torque to anchor takes place and is terminated. It's only a fraction of a time Second. After the circuit has been interrupted, the one in the iron core The remanence that occurs is used to give the armature the rest of the impetus. From it the result is an extremely favorable minimum power consumption. It has been achieved for the first time it has been found that a non-polarized magnet system has not been practical at one time achieved minimum power consumption of around 2 to 3 milliamps at 9 volts Drives clockwork with pendulum regulation. The clock is laid out in such a way that its pendulum carries out a complete oscillation within 1 second and that preferably wheels of the same size for the second and for the minute are provided with 60 teeth.

In the drawing is an embodiment of the new battery clock shown, with the representation on the clockwork without hands and dial limited.

Fig. I shows the clockwork in a view from behind; Fig.2 shows on a larger scale, a side view of the fixed switch contact in the direction B-A, seen from the section line.-1-B shown in FIG. 3 shows, likewise drawn on a larger scale, a section along the line A-B of Fig. i, wherein the representation on the armature and the associated, the movable contact pin load-bearing plate is limited; Fig. 4 shows a side view of the clockwork; Fig. Fig. 5 shows an interior view or a section along the line C-D of Fig. Q. daring where only the engine parts connected to the middle plate are drawn are; Fig. 6 shows the movement from the front, that is, seen from the pointer side, with again only the engine parts associated with the front plate are shown are.

Apart from insignificant details known per se is the clock value. from the three boards i, 2, 3, which in a known manner by Bolts or screw connections, 4 held together at a certain distance from each other are. The preferably laminated iron core 5 is located between the plates 2, 3 the electromagnetic coil 6 is stored. Between the dashed lines in FIG Pole shoes 5 'swing the likewise laminated armature 7, its in the sinkers 2, 3 mounted axle is denoted by 8. The anchor axis 8 is behind the plate 3 firmly connected to a plate 9, the lower pin io for example in a Long hole i i of the clock pendulum 12 engages, which is shown in simplified form is and swings around the upper suspension point 13.

The movable contact pin 15 is located in a slot 14 of the plate 9 rotatably mounted by means of the cross bolt 16. On this contact pin 15 rests a thin leaf spring 17 which is connected to the plate 9 at its end by a screw 18 is. As can be seen from Fig. 3, the spring 17 loads the contact pin 15 to both Soap the cross bolt 16, with the result that the one in Fig. 3 either down or the contact pin swung out upwards (see arrows) 17 lifts and by this spring automatically returns to its middle, shown in Fig.3 Rest position is brought back.

In order to work with the contact pin 15, there is a 3 on the circuit board Contact ig attached in the form of a sheet metal strip. This contact ig is inclined to the oscillation or to the board plane, as can be clearly seen from FIG. Of the Contact i9 is, for example, at an obtuse angle from the one firmly connected to board 3 bent sheet metal 2o worn, on which the contact ig with the interposition of Isolating washers 21, 22 is attached in an isolated manner. In Fig. I it is inwardly its holder 2o protruding contact 1g above, its underside is insulated, for example by a tongue 21 'extending from the insulating plate 2i. This in Fig. I outwardly extending beyond the holder contact end ig 'is used for connection the electrical line.

The so-called one-way contact described above works in the following way. At the indicated in Fig. I by an arrow 23 the direction of oscillation of the pendulum 12 of the swinging with the armature 7 contact pin 15 meets the top of the inclined contact strength, making the circuit of the magnetic coil 6 is closed in a conventional manner. This contact closure position is shown in Fig. I. From Fig. I it can be seen at the same time that the armature 7 is at this moment in its most favorable position to the pole pieces 5 '. When the contact pin 15 slides over the inclined contact ig, the pin 15 is pivoted upward about its transverse pin 16; if he has reached the end of the contact ig, the circuit is interrupted and the leaf spring 17 returns the contact pin 15 to its central rest position. When the pendulum and the armature oscillate back, the contact pin 15 then strikes the insulated underside 21 'of the contact ig, whereby no current circuit occurs and the contact pin 15 is pivoted downward. In this case, too, the spring 17 brings the downwardly pivoted contact pin back into its rest position, so that when it oscillates again i @ in the direction of the arrow 23 it hits the contact ig again. This switching cycle is repeated with every complete pendulum or armature oscillation. The width of the inclined contact i9 determines the duration of the current short.

In contrast to the electrical switching parts just described, which are located on the back of the movement, i.e. behind the circuit board 3 the mechanical drive parts on the front of the movement partially between the circuit boards 1, 2 and partially arranged in front of the circuit board i, as can be seen from FIG evident. These mechanical engine parts are evident from the following further description of the work cycle.

On the armature axis 8, a drive cam 24 is attached, which between the circuit boards i and 2 lies. This cam works with a pin 25 (Fig. 5) together, which is carried by a lever 28 rotatable about the axis 26 of the second wheel 27. The free end of the lever 28 carries a weight or spring-loaded pawl 29, which engages the second wheel 27 which is provided with 60 teeth. With every back oscillation of the armature (see the arrows 3o drawn in FIGS. i and 5) meets the cam 24 on the pin 25, whereby the pawl 29 turns the fourth wheel 27 by one tooth advances. In a manner known per se, the fourth wheel is by one on the Plate 2 arranged pawl 31 secured against reverse rotation. The ratchet 29 and their lever 28 return by their own weight or as a result of spring loading the circuit automatically returns to its starting position.

The second wheel 27 is laterally provided with a switching pin 32, which causes the minute wheel 33 to advance. The minute wheel 33 is with his Hub 34 is mounted on the axis 26 of the fourth wheel. With the circuit board i is a die Lever 36 carrying the switch pawl 35 is rotatably connected, and the switch pin 32 hits in each case after completion or shortly before completion of a full minute to the end of the lever 36 (see Fig. 6) and switches the minute wheel 33 by means of the pawl 35 one tooth further. The lever 36 is returned in by the tension spring 37 acting on it its rest position back. The reverse rotation of the minute wheel is done by a well-known pawl 38 prevented. From the minute wheel 33 or the pinion 38 'connected to it the hour wheel is driven in a known manner via the change gears 39, 4o 41, which is mounted with its hub 42 on the minute wheel hub 34.

Claims (6)

PATENT CLAIMS: i. Movement with electromagnetic drive and free swinging clock pendulum directly coupled to the anchor, its oscillations the second wheel of the movement by means of interposed gearless drive elements continue intermittently, characterized by such an arrangement of the contact and Forwarding bodies that the forwarding Switching the fourth wheel in one zero position of the pendulum and the circuit closure only briefly in the other zero position, the armature being designed and arranged so that it is at the beginning of its entry into the magnetic field when the circuit is closed. 2. Movement according to claim i, characterized in that a in the seconds wheel (27) engaging pawl (2g) carrying, rotatable about the axis of the second wheel Lever (28) under the influence of a cam disk attached to the armature axis (8) (24) stands. 3. Movement according to claim i or 2, characterized by a second wheel (27) attached and so arranged pin (32) that this with each revolution of the fourth wheel a pawl that engages the minute wheel and advances it emotional. 4. Movement according to claims i to 3 with a one-way contact, characterized by one oscillating with the armature (7) and one inclined to the plane of oscillation lying fixed contact (i9) cooperating contact pin (15) around a pin (16) lying in its plane of oscillation and rotatable in both directions is resiliently supported. 5. Clockwork according to claim 4, characterized in that that the contact pin (i5) in a cutout (14) with the armature axis (8) firmly connected plate (g) is rotatably mounted by means of the bolt (16), wherein a leaf spring resting on the contact pin (15) on both sides of the bolt (16) (17) always pushes it back into its rest position. 6. Clockwork according to claims 4 and 5, characterized in that the inclined contact (i9) is insulated on one side, so that the current is only short-circuited in one direction of oscillation of the contact pin (15). Considered publications: German Patent Nos. 261 859, 545 573, 587 875, 297 07o, 666 516, 564193, 553 98 0 ; Austrian Patent No. 98,686; French Patent No. 613 027; Disk and Stamm, Uhr und Strom, 1943 p. 27; Hope-Jones, Electric blocks, 1934 pp. 57 to 59.