RU2108635C1 - Driving device for power high-voltage switch - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: driving device for power high-voltage switch has working cylinder with piston and rod and energy storage composed of bellows filled with compressed gas and closed by upper and lower lids and hydraulic accumulator. Upper lid is mobile. Body of driving device is formed by central power lid and bearing supports, upper lid, enclosure and body of energy storage. Bearing supports carry part of auxiliary equipment. cylindrical longitudinal segments forming mentioned enclosure and shutting internal space of driving device are attached to bearing supports. EFFECT: simplified design and improved operational reliability. 2 cl, 2 dwg

Description

 The invention relates to the field of high-voltage apparatus, in particular to hydraulic actuators for power electrical switches, in particular gas-insulated switches.

 Hydraulic actuators of this kind are designed to quickly turn on and off the movable contact elements of the high-voltage circuit breakers, depending on the control command, and must provide the required parameters for the circuit breakers to work, work offline, and should also be convenient to operate.

 Known hydraulic actuators of the Air Force company (information publication of the Air Force company N CH-A307336D), consisting of a piston pneumatic accumulator and a working hydraulic cylinder, located in a housing having the shape of a parallelepiped. All auxiliary mechanisms (tank, pump, etc.) are located there, which ensure the operation of the hydraulic drive.

 The disadvantage of such a solution to the design of the housing and the placement of drive units in it is the irrationally large volume occupied by the hydraulic drive, which makes it cumbersome and inconvenient during transportation and installation. Access to parts and assemblies located in the middle of the enclosure is difficult, and there is a likelihood of damage to some assemblies during repair and maintenance of others.

 The closest analogue is a drive device of the ANMA type of the Air Force company (German application No. 3611497, class H 01 H 33/53), consisting of a hydraulic cylinder and an energy storage device in the form of a disk spring unit. The housing of the hydraulic cylinder and its extensions, which extend through the disk cup spring block, are the main bearing structure of the drive unit. The upper and lower covers and all accessories are attached to them. The inner space of the drive unit is closed by a cylindrical casing, consisting of two halves, covering the lid on the specially formed beads on them and interconnected by screws.

 This layout and design of the housing allows you to easily, quickly and conveniently access any node of the drive device for inspection and maintenance, although it does not protect the most critical node of the drive device - the disk spring unit - from accidental damage when servicing equipment located inside the case.

 Despite all the advantages of such a housing design, it cannot be applied in the case of using an energy storage device in the form of a bellows filled with compressed gas, since it is impossible to provide a rigid connection of the bottom cover to the hydraulic cylinder body through it. In addition, in the described construction, the number and dimensions of auxiliary equipment are significantly limited, since it is placed only on the body of the hydraulic cylinder. This complicates the autonomy of the drive. Placing this equipment on the drive cover (that is, beyond the overall dimensions of the drive housing) leads to an increase in the likelihood of damage to such assemblies, and, consequently, to a decrease in the reliability of the drive.

 The technical problem to be solved is the creation of a stand-alone drive device with an energy storage device in the form of a bellows (gas bellows) hermetically sealed with covers and a gas filled in, the housing design of which would provide protection of all structural elements of the drive device from external influences, convenient access inside the housing for maintenance and repair, compact placement of all auxiliary equipment necessary for autonomous operation of the drive device.

 The technical task is solved in a drive device containing a working cylinder with a piston and a rod and an energy storage device enclosed in a housing in which, according to the invention, the energy storage device is made in the form of a bellows filled with compressed gas, hermetically closed by the upper and lower covers, the upper cover being movable , the device is equipped with a hydraulic accumulator located between the base of the working cylinder and the movable cover of the gas bellows, the housing of the drive device is formed by a central power cover, I carry with supporting racks, one end detachably attached to it, an upper cover with an outlet for the piston rod, a casing and an energy storage case, the other end of the supporting racks being detachably attached to the upper cover, the energy storage case includes a lower cover of a gas bellows and a cylindrical pipe, covering the carrier and lower covers and detachably connected to them, and the casing is made of longitudinal cylindrical segments covering the power and upper covers and detachably attached to the supporting racks. Mounting racks mounted auxiliary equipment.

 With this design, the central power cover with the lower end of the working cylinder brought out through the central hole in it, the cylindrical nozzle and the lower cover of the gas bellows form a cylindrical compartment, the bottoms of which are rigidly fixed relative to each other, which allows a gas bellows, the fixed end of which is fixed to the bottom cover , maintain the working pressure in the accumulator, one end of which is fixed on the lower end of the working cylinder, and the other rests on the upper movable cover gas bellows.

 Placing an energy storage device that does not require special maintenance during operation in a separate compartment allows you to protect this important unit from accidental damage during inspections and repairs of other equipment.

 The dimensions and strength of the load-bearing racks allow you to place a pump and internal automation devices on them (the switching unit of the contacts of the internal circuits) without complicating access to other components of the hydraulic drive.

 The casing halves, removably attached to the bearing stands, reliably protect the volume inside the housing of the drive device from external influences and allow you to quickly access any nodes of the drive device for inspection and maintenance.

 In FIG. 1 and 2 show a General view of the drive device.

 The drive device comprises a working cylinder 1 with a piston 2 and a rod 3 attached to the central power cover 4. A cylinder pipe 5 is attached to the bottom 4 of the cover 4, which covers an energy storage device, which is a bellows 6 filled with compressed gas, the lower cover 7 of which is connected to the pipe, and the top cover 8 is movable. A hydraulic accumulator 9 (which can be, for example, in the form of a bellows filled with a working fluid) rests on a movable cover 8, which is fixed at the base of the working cylinder with a second end.

 Bearing posts 10 are detachably attached to the central power cover and attached to the top cover 11 with a second end. A cylindrical cup 12 is installed between the top cover and the working cylinder body, inside which the rod moves. On the glass mounted rod position lock 13.

 The longitudinal cylindrical segments 14 that form the casing are detachably attached to the supporting racks.

 A part of the auxiliary equipment is installed on the load-bearing racks: pump 15, sockets 16 for connecting to the control and monitoring system, contact switching unit of auxiliary circuits 17, (KKVTS block). The rest of the auxiliary equipment (tank 18, the position sensor of the bellows 19, the block of control valves 20, the hand jack 21 is located on the body of the working cylinder 1 and the central power cover 4.

 Heating elements can be placed inside the housing of the drive device, and the inner surface of the segments 14 of the casing and the cylindrical pipe 5 can be coated with a heat-insulating coating. This will allow the use of a drive device with a wide range of outdoor temperature changes, for example when installed in unheated rooms.

 The assembly of the drive device is carried out in the following order: after installing the piston 2 and the rod 3 in the housing of the working cylinder 1, a cylindrical cup 12 is installed in the upper part of the working cylinder and then the working cylinder and hydraulic accumulator 9 are mounted on the central power cover 4. Simultaneously to the lower gas cover bellows 6 is attached to the cylindrical pipe 5. After that, the assembled cover, working cylinder and accumulator are lowered onto the gas bellows and cylinder pipe from above and fixed with w wedges.

 Then, on the glass located on the working cylinder, the upper cover 11 is installed. The bearing racks 10 are attached to the corresponding flats on the upper cover 11 and the central power cover 4.

 When the case is assembled, all internal and auxiliary equipment is installed, electrical circuits and pipelines are connected. After the installation of the equipment is completed, the internal space of the housing is closed by a casing mounted on racks 10. The drive unit is ready for operation.

 Thus, the design of the inventive drive device allows you to solve the problem of creating a stand-alone drive device with an energy storage device in the form of a hermetically sealed lid and filled with compressed gas bellows, which has compactness, reliability, ease of use.

Claims (3)

 1. A drive device for a gas-insulated high-voltage power switch containing a working cylinder with a piston and a rod and an energy storage device enclosed in a housing, characterized in that the energy storage device is made in the form of a bellows filled with compressed gas, hermetically closed by the upper and lower covers, the upper the cover is movable, the device is equipped with a hydraulic accumulator located between the base of the working cylinder and the movable cover of the gas bellows, the housing of the drive device is formed by a central power with a scoop, supporting racks, one end detachably fixed to it, an upper cover with an outlet for the piston rod, a casing and an energy storage case, the other end of the supporting racks being detachably attached to the upper cover, the energy storage case includes a lower cover of a gas bellows and a cylindrical a branch pipe covering the power and lower covers and detachably connected to them, and the casing is made of longitudinal cylindrical segments covering the power and upper covers and detachably attached to the supporting struts am  2. The device according to claim 1, characterized in that auxiliary equipment is mounted on the supporting racks.  3. The device according to claim 1, characterized in that heating elements are installed inside the housing, and the inner surface of the housing has a heat-insulating coating.

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