RU161352U1 - SPRING ACTUATOR FOR HIGH VOLTAGE UNIT - Google Patents

Abstract

A spring drive for a high-voltage apparatus, comprising a housing, a power mechanism with a motor and a gearbox, a spring winding mechanism, a rotary-shock mechanism provided with a fist, characterized in that the spring winding mechanism is made in the form of a crank mechanism, while the crank mechanism is connected to the output shaft the gearbox through a double-acting overrunning clutch, a spring is fixed to the crank lever, on the other hand attached to the body, a fist mounted on the axis of the crank mechanism with clearly axis of the output shaft of the gearbox is adapted to its interaction with the drive output shaft, which is provided with a clamp attached to the housing.

Description

The utility model relates to electrical engineering, in particular to structural elements of high-voltage devices, namely, spring drives, designed to control high-voltage devices.

Known spring drive switching device, comprising a housing in which a shaft is installed, at least one switching and one breaking spring, drive and actuating levers associated with the spring-loaded ends of the switching and disconnecting springs, the fixed ends of which are connected to the specified housing, and devices for remote on and off with corresponding teeth and latches on and off, in which the drive and actuator levers are made in the form of disks with the specified teeth and actuator the claim is located coaxially with the specified shaft, made in one piece with the actuating disk or rigidly connected to it, the drive disk is mounted on the shaft using a bearing, the axis of rotation of the latch designed to engage the tooth of the drive disk is fixed in the specified housing, and the axis of rotation the disconnecting latch, designed to engage with the tooth of the actuating disk, is fixed in the body of the drive disk, and the engaging parts of the on and off latches are pressed respectively to the counter surfaces of the drive and additional disks (RF patent No. 2089958, H01H 33/42, publ. 09/10/1997).

The disadvantage of this solution is the complexity and high cost of execution due to the presence of two springs for switching on and off.

A known spring drive for a high-voltage switching apparatus, comprising a power mechanism, a spring winding mechanism including a multi-arm lever with a damping element, a stop and a roller interacting with a cam mounted on a shaft kinematically connected to a contact control device, in which the power mechanism is equipped with a pair of opposed coaxially mounted guides with slots, a rod located in them with rollers at the ends, with movable and fixed elements, between which a spring is fixed, and in the body of one of the guides of the power mechanism is made bearing housing of the output shaft, kinematically connected with the rod. In this case, the kinematic connection of the fist of the spring plant mechanism with the contact control device is made in the form of a ratchet pair mounted on the same shaft with the cam, and the contact control device is additionally equipped with a locking device and a spring-loaded pusher in contact with it, interacting with one of the rod rollers (RF patent No. 2291512, Н01Н 33/42, Н01Н 3/30, publ. 10.01.2007).

The disadvantage of this solution is the unreliability due to the complexity of execution and insufficient performance.

The utility model is based on the task of creating a spring drive for a high-voltage apparatus, in which, by using a single double-acting spring to turn the drive on and off, the drive is simplified, which increases its reliability and reduces the cost of production.

The solution to this problem is provided by the fact that in a spring drive for a high-voltage apparatus, comprising a housing, a power mechanism with a motor and a gear, a spring winding mechanism, a rotational shock mechanism equipped with a fist, the spring winding mechanism is made in the form of a crank mechanism, while the crank mechanism is connected with the output shaft of the gearbox through a double-acting overrunning clutch, a spring is fixed on the crank lever, on the other hand attached to the housing, a fist mounted on the axis of the crank mechanism, coaxial to the axis of the output shaft of the gearbox, made with the possibility of its interaction with the output shaft of the drive, which is equipped with a latch attached to the housing.

A utility model is illustrated with reference to FIG. 1, which shows a view of a spring drive for a high voltage apparatus.

The spring drive for the high-voltage apparatus includes a housing 1, a power mechanism with a motor and a gearbox 2, a spring winding mechanism, a rotary-shock mechanism 3 equipped with a fist 4. The spring winding mechanism is made in the form of a crank mechanism 5 connected to the output shaft gearbox 6 through a double-acting clutch 7. A spring 8 is attached to the lever of the crank mechanism 5, on the other hand attached to the housing 1. A fist 4 mounted on the axis of the crank mechanism 5 is aligned with the axis of the output shaft gear 6, made with the possibility of its interaction with the output shaft of the drive 9. The output shaft of the drive 9 is equipped with a latch 10 attached to the housing 1.

In the initial position, the output shaft of the actuator 9 is held by the latch 10 and the spring 8 in a compressed state. When switching the motor of the power mechanism 2 through the output shaft of the gearbox 6 and the freewheel clutch 7 cocks the spring 8 with the crank mechanism 5. In this case, the output shaft of the drive 9 remains stationary. The crank mechanism 5, cocking the spring 8, reaches the top dead center, and after that the spring 8 begins to transmit the force of the crank mechanism 5 in the direction of rotation of the drive. The crank mechanism 5 under the action of the spring 8 is accelerated, overtaking the output shaft of the gear 6. At a certain point, the fist 4 hits the output shaft of the drive 9, transmitting the pulse of the crank mechanism 5 to the output shaft of the drive 9. The output shaft of the drive 9 is switched to the extreme position. In this case, the rod 11 switches the packet switch 12 and the power of the power mechanism 2 is turned off. The lever 13 is designed to secure the transmission mechanism. The shock absorber 14 is designed to brake the output shaft of the actuator 9 at the end of the stroke.

Claims (1)

A spring drive for a high-voltage apparatus, comprising a housing, a power mechanism with a motor and a gearbox, a spring winding mechanism, a rotary-impact mechanism provided with a fist, characterized in that the spring winding mechanism is made in the form of a crank mechanism, while the crank mechanism is connected to the output shaft gearbox through a double-acting overrunning clutch, a spring is fixed on the crank lever, on the other hand attached to the body, a fist mounted on the axis of the crank mechanism with clearly axis of the output shaft of the gearbox is adapted to its interaction with the drive output shaft, which is provided with a clamp attached to the housing.

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