DE2114771A1 - Actuating device for an electrical switch - Google Patents

Description

2114771 Patent attorney Dipl.-Phys. Gerhard Liedl 8 Munich 22 Steinsdorfstr. 21-22 Tel. 298462

B 5082

KABITSHIKI KAISHA MEIDEHSHA, .2-1-17 Ohsaki, Shinagawa-ku, TOKYO / JAPALT

Actuating device for an electrical

counter

The invention relates to a spring-loaded actuator for an electrical isolating, closing or changeover switch.

Electrical disconnectors are e.g. in vacuum, in air, Me / Ha

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in a (ras, in oil or other media working switch known, the electromagnetically, by motors, τοη hand, operated hydraulically, with springs or by other drives. The present invention relates to a Actuating device for a switch driven by a spring.

Usually spring-operated switches, such as disconnectors, work in such a way that the switch tensions or compresses the tension or compression spring required to drive it, after which this energy is maintained by a lock in the spring until the lock is activated by a disconnection or closing signal released and the spring is released for relaxation, so that the contact separation or closing process is effected by the linear displacement of the spring via a lever transmission or Nooke. A spring-loaded actuator or a spring-loaded switch are therefore always a fitted with a spring in the tensioned state holding mechanism, for example, with a lock, and the displacement of the spring on AEEN actual switch transmitting further mechanics.

In the known actuating devices, however, the spring, its tensioning device, its locking mechanism and also the lever transmission which transmits its displacement are designed as independent assemblies. They are each arranged at suitable points within the entire mechanism of the disconnector or other switch and do not form a common structural unit in terms of structure or function. For example, the mechanisms for tensioning and releasing the drive spring and also the lock for the switch are housed in different places, so that they are not only laborious for the various isolating and other switches.

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sam must be adapted and installed, but also the entire switch device is quite complicated. In addition, to accommodate each individual separate mechanism a special space is required, so that they together require a considerable amount of space.

The object of the invention is therefore to provide a new spring-loaded layer To create an actuating device for an electrical switch, all of the individual parts for tensioning and releasing as well as for locking the drive spring combined in a construction block, so that both the Flatzbedarf small and easy to assemble

This object is achieved in an actuating device of the type mentioned according to the invention in that a first gearwheel sits concentrically and connected via a screw toothing on a drive rod which is in bearings Is held longitudinally movable that a second one forming the drive for the drive rod and connected to this spring tensioning gear is in engagement with the first gear and that one releasably connected to a lock Locking lever is provided with which a longitudinal movement of the first track wheel can be blocked

This arrangement is a tension, relaxation and also locking of the tensioned spring by blocking the Longitudinal movement of the first gear connected to the drive rod by an integrated one of the components mentioned Unity possible. The first gear is driven by the second gear in different Br devices, whereby, when the spring is relaxed and the switch is triggered, the first gear is displaced on the screw toothing relative to the drive rod so that the released lock is initially released snaps back into place when the spring is still relaxed. Bie

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Engaged lock then prevents a shift of the when the direction of rotation of the second gear is reversed first gear on the helical teeth in the other direction so that the drive rod itself over the helical teeth between her and the first gear in the opposite direction is longitudinally displaced, whereby the spring is tensioned o The lock is released by a trigger signal for actuating the switch, whereby under the force of the tensioned spring, a longitudinal movement of the drive rod takes place together with the first gear, which is used to operate the actual switch.

According to another embodiment of the invention, the first gear is as having a tooth wedge on its outer surface provided sliding nut formed with one on the inner circumferential surface of the second, at least part of the Outer surface of the friction nut comprehensive gear provided Wedge guide is engaged with play, and that when the sliding nut rotates through the second gear only one of this Movement in the longitudinal direction for longitudinal displacement of the drive rod can be carried out.

This embodiment also functions in basically the same way as the first embodiment of the invention, by a longitudinal movement depending on the state of the actuating device the sliding nut is allowed or blocked, but the second gear is unable to perform any longitudinal movement.

Since the actuating device consists of the drive spring, the spring tensioning device, the lock and the the displacement of the spring-transmitting lever transmission is designed as a functional block, its entire Construction is simpler and can be used as a built-in unit

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the most diverse. Isolating, closing and changeover switches assembled will. In this pail, the assembly is due to the actuating device designed as a block simple and the space required by the actuating device is made of individual parts compared to the previously known existing controls are much smaller.

The invention is explained in more detail with reference to the embodiments shown in the drawing. Show in detail:

1 shows a first embodiment of the actuating device, partially in section, with the mainspring in its tensioned position,

Pig.2 the same embodiment, with the mainspring is relaxed,

Pig · 3 the same embodiment, with the mainspring is tensioned again,

Pig. 4 a second embodiment of the actuating device, partly in section, and

Pig. 5 a third embodiment of the actuating device, partly in section, with parts corresponding to the other embodiments being omitted became·

The first embodiment of the invention is based on the Piguren 1 to 3 explained

A drive rod 1 is held movably in the axial or longitudinal direction in bearings 2a and 2b. One here as a compression spring trained drive spring 3 is with its one end on the bearing 2a and with its other end over a bearing plate 4 connected to the connecting rod 1. The drive rod 1 has a threaded part 5 on which in the form of a Helical gearing a first gear 6 concentrically

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is introduced · Bas gear 6 has, on its lateral surface a toothing 7, in which a second gear engaged _f 8 with which the drive spring 3 can be clamped. The second gear 8 is connected to a motor 10 via a reduction gear 9. A thrust bearing 11 is movably connected to the drive rod 1 and is firmly connected to the gearwheel 6. In addition to the thrust bearing 11, a lever 12a is provided, the lower part of which is pivotably mounted on a shaft 12c. The upper part of the lever 12a is hinged to the lower part of another lever 12b, the upper part of the lever 12a and the lower part of the lever 12b being constantly pressed against the thrust bearing 11 A locking hook 14 is pivotably mounted on a shaft 15 and is released from the upper part of the lever 12b when it is deflected by the armature 17 of an electromagnet 16. The first embodiment of the invention in particular has the helical toothing approximately in the middle part of the drive rod 1. The bearings 2a and 2b are provided in the vicinity of the ends of the drive rod 1, the compression spring 3 being clamped between the bearing 2a and the bearing plate 4 which is attached to one end of the drive rod 1. The first gear 6 has internal teeth and is screwed concentrically onto the threaded part 5 of the drive rod 1, so that a kind of helical toothing is formed between the two. The external toothing 7 of the gear 6 is in engagement with the gear 8 in order to tension the spring 3, i.e. to be able to compress it.The levers 12a and 12b next to the gear 6 determine the displacement of the drive rod 1 under the force of the tensioned compression spring 3.

The actuation device works in the following way: In Pig.1 the actuation device is with a tensioned spring 3 shown in the locked state. The spring 3 is brought together between the bearing 2a and the bearing plate 4.

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presses, whereby on the drive rod 1 a force in the direction of arrows 19, so in the drawing to the right, is exercised, the gear 6 connected to the screw teeth with the drive rod 1 would like to move in the same direction, so that on the levers 12a and 12b, a force likewise directed in the direction of arrow 19 is exerted via the thrust bearing 11 , which force causes a clockwise torque about the axis of rotation of the shaft 12c. However, as long as the upper part of the lever 12b is connected to the locking hook 14, movement of the levers 12a and 12b is blocked. Therefore, the drive rod 1 cannot perform any longitudinal movement to the right either, so that each is locked in its tensioned state. If a release signal is given to the electromagnet 16 in this state, the armature 17 hits the locking hook 14, which is rotated clockwise around the shaft 15 against the force of the return spring 18 and releases the connection with the lever 12b. After releasing the connection between the locking hook 14 and the lever 12b, whereby the blocking of the drive rod in the direction to the right is released, the drive rod 1, the gear 6 and the thrust bearing 11 move in the direction indicated by the arrow 19 until the Bearing plate 4 strikes the stop 20 and thus the movement of the drive rod is stopped · In this state too, the gear 8 is still in engagement with the toothing 7 of the gear 6, since this has a sufficiently large axial dimension. Therefore, in a manner not shown here, the closing or disconnecting lever of the switch is connected to the left end of the drive rod 1 in a manner also not shown here, this lever of the switch is also moved in the same direction, whereby the disconnecting or closing process of the switch is performed. In this state, the levers 12a and 12b are turned clockwise by the thrust bearing 11

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rotated against the resistance of the return spring 13. If the motor 10 is rotated by a spring tension signal to tension the spring in the direction indicated by the arrow in FIG same direction and the gear 6 rotated in the opposite direction to arrow 21. When the gear wheel 6 rotates in this direction, it moves together with the thrust bearing 11 in the direction indicated by the arrow 22, i.e. to the left in the drawing would also like to rotate due to the friction between the helical toothing 5 and the gearwheel 6, but this rotary movement and thus also a longitudinal movement to the left is prevented by the great elastic force of the spring 3. If such a rotational movement of the drive rod is to be completely prevented, a wedge (not shown here) and a wedge guide must be provided on the drive rod 1 and the bearings 2a and 2b. Therefore, as shown in Figure 3 by the arrow 22 ₉ only the gear 6 and the thrust bearing 11 to the left to settle.

When the gear wheel 6 and the thrust bearing 11 are moved to the left, the lever 12b is counteracted by the return spring 13 rotated back clockwise about the shaft 12c as the fulcrum so that, as shown in Fig. 3, the upper part of the Lever 12b is reconnected to the locking hook 14. After this connection, the engine 10 is of a The control device, not shown here, is stopped and thus the rotation and longitudinal movement of the gearwheel 6 is also stopped. After the gear wheel 6 has been locked in this way by the locking hook 14 or the levers 12a and 12b is the motor 10 for tensioning the spring in the by

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Arrow 23 in Pig. 3 rotated in the opposite direction shown, so that the gear wheel 8 also rotates in this direction, whereby the gear wheel 6 rotates in the opposite direction and tends to move to the right as a result of the helical teeth 5 but prevented by the levers 12a and 12b, which are connected to the locking hook 14 and act as stops in this direction Spring 3 takes place, as a result of which it is tensioned by being compressed. When the drive rod has reached a certain position, the motor 10 is switched off again by the control device. The tensioning process of the peder is then completed and it remains, as shown in 3? Ig.1, locked in its tensioned position for the time being.

As described above, in the actuating device according to the invention, the drive rod 1 can be driven by the drive spring 3 can be displaced longitudinally when the lock between the hook 14 and the lever 12b is released. Is the Driving rod connected to a closing or disconnecting lever of the actual switch, so the movement of the Closing or separating process of the electrical switch causes. To tension the drive spring 3, the drive rod through the mutually engaged helical teeth 5 and the gear 6 in the other direction longitudinally shifted, whereby the pedal 3 is tensioned. By locking the hook 14 with the lever 12b also blocks a movement of the drive rod in the opposite direction, so that the peder in their tensioned state · is locked

As can be seen from the above description

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following by this first embodiment of the invention Benefits achieved:

The spring-loaded actuating device combines the individual mechanisms for releasing and tensioning the spring as well as locking the tensioned spring in a single functional block, so that the entire arrangement can be greatly simplified and easily assembled as an actuating device with a wide variety of types of switches Another advantage is to be seen in the smaller space requirement of the actuating device according to the invention compared to the previously known devices which have a large number of individual assemblies. As an additional advantage, the mass production of the actuating device according to the invention is simplified at very low costs, since it can be assembled quickly and easily because of its simple construction. Also use is sUe actuating device in conjunction with a variety Sofer / Hertypen zn.

In the second embodiment of the invention shown in FIG a tension spring 3a is used as the drive spring instead of the compression spring 3 used in the first embodiment used, both ends of which are attached by pins 24 to the bearing 2a and to the connecting rod 1 »

In the example shown in Fig _a4 operating state, the tension spring 3a is tensioned and locked in this position · Therefore, the drive rod 1 may be under the spring force of the spring 3a will only right verse lifted to when the lock between the Hsbel 12b and ä®m hook 14 is released Mira " The thrust bearing 11 is again pressed against the levers 12a and 12b, which blocks a longitudinal movement of the gear S of the drive rod 1 aaoh F © ohts"

When this B © tri @ fessüstii-ad aa the electromagnet 16

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given a switching signal, the armature 17 hits the locking hook 14, whereby the gear wheel 6, the drive rod 1 and the thrust bearing 11 can move to the right · As already explained in connection with the first embodiment of the invention, the relaxation and tension the spring 3a can be repeated as often as desired. In short, in the second embodiment of the invention, the spring force of the tension spring 3a is also used as the driving force for the drive rod 1, so that in principle the same function results as in the first embodiment.

In the third embodiment shown in FIG In accordance with the invention, the gear wheel 6 is designed as a sliding nut 25 which has a toothed wedge 26 on its outer surface. the The sliding nut 25 again engages in the screw toothing 5 of the drive rod 1. A toothing on its outer surface 28 having a second gear wheel comprises part of the lateral surface of the sliding nut 25, with its tooth wedge 26 in a wedge guide, not shown here, in the inner lateral surface of the second gear 27 engages so that the slide nut 25 rotates simultaneously with the second gear 27. While the sliding nut 25 can again perform a longitudinal movement in the axial direction of the drive rod 1, the second gear 27 does not move in the longitudinal direction »

The third embodiment of the invention also works in in principle the same way as the other two embodiments

As already described in detail, in the case of an electrical isolating switch or other switch (not shown here) through the actuating device designed according to the invention, a lever transmission by prior rotation of the Locking hook rotated, which an actuating arm through

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the lever transmission rotates and thus separates a moving contact from a fixed contact. In the last phase of the circuit break, the connection between the lever transmission and the locking hook is released and the current flowing between the movable and fixed contact is interrupted. The drive rod 1 is connected to the lever transmission and is displaced by the drive spring 3 in the predetermined direction up to a certain point, so that the closing and opening of the electrical switch can be carried out by this displacement.

The invention is of course not restricted to the exemplary embodiments described above, but rather it includes both further applications of the actuating device and also constructive ones within the scope of the invention Variations

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Claims (1)

Claims 1 »! Spring loaded actuator for one electrical isolating, closing or changeover switch, characterized in that a first gearwheel (6) is concentric and connected via a screw toothing (5) sits on a drive rod (1) which is longitudinally movable in bearings (2a, 2b) is held that a second, one of the drive for the drive rod (1) forming and with this connected spring (3) tensioning gear (Θ) is in engagement with the first gear (6) and that one with a lock (14) releasably connected locking lever (12b) is provided with which a longitudinal movement of the first gear (6) can be blocked. 2. Actuating device according to claim 1, characterized in that that the first gear (6) from the second gear (8) is rotatable in such a way that with simultaneous blocking the longitudinal movement of the first gear (6) by the locking lever (12b) holding it in its locking position Lock (14) over the screw toothing (5) a the spring (3) tensioning longitudinal displacement of the connecting rod (1) occurs. 3 · Actuating device according to claim 1, characterized in that that the first gear (6) is provided as a sliding nut with a toothed wedge (26) on its outer surface (25) is formed, wherein the tooth wedge (26) with one on the inner circumferential surface of the second, at least one Part of the outer surface of the sliding nut (25) comprehensive gear (27) provided wedge guide with play in engagement is, and that when the sliding nut (25) is rotated by the second gear (27) only a movement of this in the longitudinal direction for the longitudinal displacement of the connecting rod (1) is executable 109842/1 268