JPS62198019A - Liquid pressure operation apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a hydraulic operating device capable of detecting a leak in an accumulator of a hydraulic operating device of a power breaker, for example.

(Conventional technology) In recent years, as the voltage and capacity of power transmission systems have increased, the performance of circuit breakers installed in these circuits has improved dramatically. Gas breaker is often used. There are various types of operating devices for gas circuit breakers, but hydraulically operated devices are often used because they are small, provide large output, have excellent responsiveness, and are easy to generate low noise. It has become possible to further reduce the size and weight of the vessel.

The hydraulic operating devices for these gas circuit breakers can be roughly divided into hydraulic cylinders that apply opening/closing force to the breaker's shutoff section, and oil tanks that store waste oil from the hydraulic cylinders and convert it into high-pressure oil again using an oil pump. and an accumulator in which the high-pressure hydraulic oil sent from the oil tank and the high-pressure gas sent from the compressor are separated and received by a piston partition. When the breaker is opened and closed, the high-pressure hydraulic oil in the hydraulic cylinder is sent to the drive mechanism of the breaker and turns yellow. At this time, the piston partition of the accumulator moves due to the expansion of the high-pressure gas, applying pressure to the hydraulic oil. By adding
To perform the role of always applying a predetermined driving force to a working piston even if hydraulic oil is rarely consumed in a hydraulic cylinder.

Therefore, in the hydraulic operation device of the power breaker,
If the high-pressure gas in the accumulator leaks and the pressure drops below a certain level, the pressure of the high-pressure hydraulic oil in the hydraulic cylinder will also drop, making it impossible to obtain the necessary opening/closing driving force for the breaker of the power breaker. . For this reason, sealing parts are used in accumulators, such as the top cover and piston partition wall, to prevent leakage of high pressure gas.

(Problems to be Solved by the Invention) Further, as the high-pressure gas for the accumulator, nitrogen gas (N2 gas), which is chemically stable and easily available, is usually used. This N2 gas is sealed from a charge valve provided on the top cover. Therefore, in the accumulator,
When considering the locations where high-pressure gas leaks, in addition to the aforementioned top cover and piston seals, consideration must also be given to leakage around the charge valve.

It is impossible to check the pressure of the high-pressure gas in the accumulator using a leak detector because N2 gas is the main component in the atmosphere, so a leak detection gas of no more than 10% must be mixed into the high-pressure gas chamber. There is a method of determining the leakage using a detector that reacts with the leakage detection gas. However, if there is a small void in the seal, a slight scratch on the sealing surface, or a foreign object gets caught in the seal, at the time of initial assembly, the void will be crushed by the grease used during assembly and the leak will be stopped, and the inspection will pass and the product will be shipped. There was a problem with leaks after six months or a year had passed.

On the other hand, power circuit breakers cannot be stopped frequently on a daily basis due to operational reasons, and the inspection cycle is normally three years, and there is a trend to extend the inspection cycle to simplify maintenance. . If this is interrupted to check for high-pressure gas leaks in the accumulator or if the inspection cycle is shortened, this not only increases the running cost of the equipment but also reduces reliability, resulting in a stable supply of electricity. This will cause problems.

SUMMARY OF THE INVENTION An object of the present invention is to provide a hydraulic pressure operating device that can constantly monitor leak detection of high-pressure gas sealed in an accumulator.

[Structure of the Invention] (Means and Operations for Solving the Problems) The hydraulic operating device according to the present invention is provided with an accumulation chamber adjacent to the high-pressure gas chamber of the accumulator for storing leaked high-pressure gas, and inside the accumulation chamber. It is characterized by being equipped with a sensor sensitive to leaked high-pressure gas, and the sensor V constantly monitors and detects leakage of high-pressure gas from the high-pressure gas chamber.

(Example) The present invention will be described below with reference to the embodiments shown in FIGS. 1 to 3. First, in FIG.
The hydraulic operating device of the present invention can be roughly divided into a hydraulic cylinder 3 having a piston 2 that applies an opening/closing force to the breaker of a power breaker 1 as a driven body, and a hydraulic cylinder 3 that drains high-pressure hydraulic oil from the hydraulic cylinder 3. The oil is then converted into high-pressure hydraulic oil again by a hydraulic pump 5 driven by a motor 4, and the high-pressure hydraulic oil sent from this oil tank 6 and supplied to the oil tank is sent from a compressor source and The system includes an accumulator 8 having a piston 7 that separates high-pressure gas to be supplied to the hydraulic tank 3.

In the hydraulic operating device shown in FIG. 3, the power breaker 1 supplies and discharges high-pressure hydraulic fluid from the accumulator 8 to the hydraulic cylinder 3 by turning on the closing valve 9 and turning the breaker 9 OFF, thereby controlling the closing and shutting operations. be done. During this closing and shutting operation, the hydraulic cylinder 3
of high-pressure hydraulic oil is consumed, or high-pressure gas and high-pressure hydraulic oil are always stored in the accumulator 8, so that the driving force for the piston 2 in the hydraulic cylinder 3 is secured. Therefore, the accumulated pressure of the accumulator 8 is an important element in controlling the closing and shutting off operations of the power breaker 1, and the high pressure gas sealed therein must not leak.

In the accumulator 8 used in the hydraulic operating device according to the present invention, as shown in FIG. High-pressure hydraulic oil 11 sent from an oil tank 6 shown in FIG. 3 and supplied to and discharged from the hydraulic cylinder 3 is sealed. Also, on each driving surface of the accumulator 8 of the piston 7, there is a sealing member 1 that satisfies the l-operating function and the sealing function.
2 is provided. The illustrated upper opening of the accumulator 8 is sealed with a top cover 13 via a sealing member 14, and a high pressure gas 10 is connected to the top cover 13.
A charge pulp 15 connected to a supply source is provided, and the lower opening of the accumulator 8 shown in the figure is sealed via a seal member 16 with a bottom cover 18 having an oil hole 17 connected to the piping system shown in FIG.

Therefore, in the accumulator 8 used in the present invention, in order to detect leakage of the high pressure gas 10 in the high pressure gas chamber A through the top cover 18 and the charge valve 15, the accumulator 8 is charged with the blind lid 19 through the gasket 21. This device is characterized in that the upper part of the valve 15 is sealed and an accumulation chamber C is formed in which a sensor 20 is provided on the lower surface of the blind lid 19. Here, the high pressure gas 10 in the high pressure gas chamber A includes helium gas, halogen gas, and S as leak detection gas.
Inert and harmless gases such as F6 gas are used.

Next, the operation of the accumulator 8 used in the hydraulic operating device according to the present invention will be explained. First, there are three leak paths for the high pressure gas 10 in the accumulator 8 shown in FIG. There is a path of direction.

High pressure gas 10 of accumulator 8 is route Xi.

When the gas leaks into the storage chamber C through x2 and x3, the sensor 20 in the storage chamber C detects the leak in response to the leak detection gas. This sensor 20 has a function of always detecting even when the power breaker 1 shown in FIG.

Further, FIG. 2 shows another embodiment of the storage chamber C of the accumulator 8 used in the present invention. In the case of FIG. 1, this is the high pressure gas leak path Xi.

Although this structure accommodates all the leak gases from x2 and x3, the structure shown in FIG. 2 only accommodates the leak gas from leak path x1. That is, a blind lid 19' is fastened to the upper end of the actuator 8. This blind lid 19'
A parallelogram-shaped accumulation chamber C' is formed between the top cover 13 and the top cover 13, and a sensor 20 is provided in this accumulation chamber C'. Therefore, the high pressure gas 10
The leakage detection gas is then constantly monitored by the sensor 20.

In the embodiment shown in FIG. 2, when the high-pressure gas chamber A of the accumulator 8 is initially filled with gas, the charge pulp 15 is located outside the accumulation chamber C', which facilitates the operation.

Furthermore, compared to the leak path x 1, the leak path x 3 passing through the charge valve 15 can be detected in a short period of time even if a leak occurs because oil or fat is desired to be used in the sealing portion. . Therefore, the purpose of detecting a leak from the high-pressure gas chamber A can be achieved by simply detecting the leak through the leak path x1.

Roughly speaking, as the sensor 20, not only a leakage gas sensitive sensor but also a stress sensor can be used to detect leakage of high pressure gas from the high pressure gas chamber A based on the pressure increase in the storage chamber C'.

[Effects of the Invention] As described above, according to the present invention, an accumulation chamber for storing leaked high-pressure gas is provided adjacent to the high-pressure gas chamber of the accumulator, and a sensor sensitive to the leaked high-pressure gas is provided in this accumulation chamber. , it is possible to constantly monitor the leakage of high-pressure gas from the accumulator, and the reliability of operation of the hydraulic operating device can be greatly improved.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing one embodiment of an accumulator used in a liquid operating device according to the present invention, FIG. 2 is a sectional view showing another embodiment of the accumulator, and FIG. 3 is a system showing a hydraulic operating device. It is a diagram. 1... Power breaker 3... Hydraulic cylinder 6... Oil tank 7... Piston 8... Accumulator 10... High pressure gas 11... High pressure hydraulic oil 12, 14.16... Seal member 13...Top cover 15...Charge valve 17...Oil hole 18...Bottom cover 19, 19'...Blind lid 20...Sensor A...High pressure gas chamber B...・High-pressure hydraulic oil chamber c, c'...accumulation chamber (8733) Agent: Yoshiaki Inomata, patent attorney (baka)
1 person) $1 figure

Claims (4)

[Claims] (1) A hydraulic cylinder with a piston that applies operating force to a driven body, an oil tank that receives drained high-pressure hydraulic oil in this hydraulic cylinder and converts this drained oil into high-pressure hydraulic oil again, and a hydraulic cylinder that is sent from this oil tank. and an accumulator having a piston that separates high-pressure hydraulic oil supplied to the hydraulic cylinder from high-pressure gas sent from a high-pressure source, and an accumulation chamber for storing leaked high-pressure gas adjacent to the high-pressure gas chamber of the accumulator, A hydraulic operating device characterized in that a sensor sensitive to leaked high-pressure gas is provided in the storage chamber. (2) N_2 gas is used as the high-pressure gas in the high-pressure gas chamber, an inert and harmless leak detection gas is mixed into this high-pressure gas, and a sensor sensitive to the leak detection gas is used as a sensor. A hydraulic operating device according to claim 1. (3) The hydraulic pressure operating device according to claim 1, characterized in that a sensor that responds to the gas pressure leaking into the storage chamber is used. (4) The hydraulic operating device according to claim 1, wherein the storage chamber is formed by a blind lid airtightly secured to the outside of the top cover of the high-pressure gas chamber.