JPH0766719B2 - Hydraulic operating device - Google Patents

Description

Description: [Object of the Invention] (Field of Industrial Application) The present invention relates to a hydraulic pressure control device capable of detecting a leak in an accumulator of a hydraulic pressure control device of a power breaker, for example.

(Prior art) In recent years, the performance of the circuit breaker provided in the circuit has been remarkably improved as the voltage and capacity of the transmission system have increased, and SF6 gas insulation has been adopted as a typical example. Gas breakers are often used. There are various types of gas breaker operating devices, but the hydraulic operating type is often used because of its small size, high output, excellent responsiveness, and easy noise reduction. The breaker can be made smaller and lighter.

The hydraulic operating devices for these gas circuit breakers are roughly classified as follows.
A hydraulic cylinder that applies an opening / closing operation force to the interrupter of the circuit breaker, an oil tank that stores the oil discharged from this hydraulic cylinder and turns it into high-pressure oil with an oil pump, and a high-pressure hydraulic oil sent from this oil tank and a compressor It is equipped with an accumulator that receives high-pressure gas sent from the tank by dividing it with a piston partition wall. Here, the high pressure hydraulic oil of the hydraulic cylinder is sent to the drive mechanism of the shutoff portion when the shutoff portion is opened / closed, and is expended. Even if the hydraulic cylinder consumes the working oil, the function of always adding a predetermined driving force to the working piston is added.

Therefore, in the hydraulic operating device of the power breaker,
If the high-pressure gas in the accumulator leaks and drops below a certain pressure, the pressure of the high-pressure hydraulic oil in the hydraulic cylinder will also decrease, and the required opening / closing drive force for the interrupted part of the power breaker will not be obtained. . For this reason, in the accumulator, seal parts are used for the top cover, the piston partition, and the like to prevent leakage of high-pressure gas.

(Problems to be Solved by the Invention) As the high pressure gas of the accumulator, nitrogen gas (N ₂ gas) which is chemically stable and easily available is usually used. this
N ₂ gas is charged from a charge valve provided on the top cover. Therefore, in the accumulator, it is necessary to consider the leakage of the circumference of the charge valve to the outside of the top cover and the seal portion of the piston in order to consider the leakage point of the high pressure gas.

It is impossible to check the pressure of the high-pressure gas gas in this accumulator with a leak detector because N ₂ gas is the main component in the atmosphere.Therefore, leak detection gas should be kept within 10% at most in the high-pressure gas chamber. There is a method of making a determination by using a detector that is mixed and reacts with the leak detection gas. However, small voids in the packing, slight scratches on the sealing surface,
If foreign matter is caught, the voids are crushed by the grease used in the assembly at the beginning of the assembly to prevent leaks, and the inspection passes.
There was a leak problem over the years.

On the other hand, the power breaker cannot stop the equipment on a daily basis due to its operation, the inspection cycle is usually three years, and there is a tendency to extend the inspection cycle for simplification of maintenance. If this is hindered by the high pressure gas leak check of the accumulator or shortening the inspection cycle, not only will the running cost of the equipment rise, but it will also lead to a decrease in reliability and consequently a stable power supply. It will cause problems.

An object of the present invention is to provide a hydraulic operating device capable of constantly monitoring the leak detection of high-pressure gas enclosed in an accumulator.

[Structure of the Invention] (Means and Actions for Solving Problems) The present invention relates to a hydraulic cylinder having a piston for applying an operating force to a driven body, and a discharge of high-pressure hydraulic oil in the hydraulic cylinder. , An oil tank for converting the discharged oil into high pressure hydraulic oil again, a high pressure hydraulic oil chamber for storing the high pressure hydraulic oil sent from the oil tank and supplied to the hydraulic cylinder, and a high pressure gas for storing the high pressure gas sent from the high pressure source In a hydraulic operating device having an accumulator having a piston that divides the chamber, a lid in which a charge valve penetrates the outside of the top cover of the high pressure gas chamber of the accumulator is airtightly fastened, and the outside of the top cover is A storage chamber for storing leaked high-pressure gas is provided between the lid and the lid, and a sensor sensitive to the leaked high-pressure gas is provided in the storage chamber. In which constantly monitors the leakage of al high pressure gas and to detect.

(Examples) Hereinafter, examples of the present invention shown in FIGS. 1 and 2 will be described.

First, referring to FIG. 2 showing a case where the hydraulic operating device of the present invention is applied as an operating device of a power breaker, the hydraulic operating device of the present invention is roughly classified into a breaking portion of a power breaker 1 of a driven body. A hydraulic cylinder 3 having a piston 2 for applying an opening / closing operation force, and a hydraulic pump 5 driven by a motor 4 when the high pressure hydraulic oil of the hydraulic cylinder 3 is discharged.
And the oil tank 6 to be used as high pressure hydraulic oil again.
The system is configured to include an accumulator 8 having a piston 7 that separates high-pressure hydraulic oil sent from the compressor and supplied to the oil tank 6 and high-pressure gas sent from the compressor source and supplied to the hydraulic cylinder 3.

In the hydraulic pressure control device shown in FIG. 2, the power cutoff device 1 supplies the high pressure hydraulic oil of the accumulator 8 to the hydraulic cylinder 3 by the closing valve 9 ON and the breaking valve 9 OFF to perform the closing operation and the cutting operation. Controlled. During this closing and closing operation, the hydraulic cylinder 3
The high pressure hydraulic oil is consumed or the high pressure gas and the high pressure hydraulic oil are always accumulated 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 for controlling the closing and closing operations of the power breaker 1, and the high-pressure gas sealed inside should not leak.

Therefore, in the accumulator 8 used in the hydraulic operating device according to the present invention, the high pressure gas 10 is sealed in the high pressure gas chamber A divided by the piston 7 as shown in FIG. The high pressure hydraulic oil 11 sent from the oil tank 6 shown in FIG. 2 and supplied to and discharged from the hydraulic cylinder 3 is sealed. A seal member 12 having a sliding function and a sealing function is provided on the sliding surface of the piston 7 with the accumulator 8. Furthermore, the upper opening in the figure of the accumulator 8 is
The top cover 13 is sealed via a seal member 14, and a charge valve 15 connected to the supply source of the high-pressure gas 10 is provided on the top cover 13, and the lower opening of the accumulator 8 shown in the figure is the piping system shown in FIG. A bottom cover 18 having an oil hole 17 connected thereto is sealed via a seal member 16.

Then, in the accumulator 8 used in the present invention, the lid 19 is fastened to the upper end of the actuator 8. A storage chamber C having a parallelogram shape in the drawing is formed between the lid 19 and the top cover 13, and a sensor 20 is provided in the storage chamber C. Therefore, the high-pressure gas 10 is sealed in the storage chamber C through the sealing material 14, the abutting surface of the top cover 13 and the lid 19, and the leak detection gas is constantly monitored by the sensor 20.

In the embodiment shown in FIG. 1, when the high pressure gas chamber A of the accumulator 8 is initially filled with gas, a charge valve is used.
The work is easy because 15 is outside the storage chamber C. Further, compared to the leak path x1, the leak path passing through the charge valve 15 can be detected in a short time even if a leak should occur because it is desired to use oil and fat in the seal portion. Therefore, the purpose of detecting the leak from the high-pressure gas chamber A is achieved only by detecting the leak through the leak path x1.

Further, the sensor 20 is not limited to the leak gas sensitive sensor. It is also possible to detect a leak of high-pressure gas from the high-pressure gas chamber A by increasing the pressure in the storage chamber C using a stress sensor.

[Advantages of the Invention] As described above, according to the present invention, since the charge valve is located outside the storage chamber, the initial gas filling operation is facilitated, and the leaked high pressure gas is stored adjacent to the high pressure gas chamber of the accumulator. By providing a storage chamber and a sensor that is sensitive to leaking high-pressure gas, it is possible to constantly monitor the high-pressure gas leak of the accumulator, greatly improving the reliability of the operation of the hydraulic pressure control device. Can be made.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of an accumulator used in a liquid operating device according to the present invention, and FIG. 2 is a system diagram showing a hydraulic operating device according to the present invention. 1 …… Power breaker 3 …… Hydraulic cylinder 6 …… Oil tank 2,7 …… 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 …… Lid 20 …… Sensor A …… High pressure gas chamber B …… High pressure hydraulic oil chamber C …… Accumulation chamber

Claims (2)

[Claims] Claim: What is claimed is: 1. A hydraulic cylinder having a piston for applying an operating force to a driven body, an oil tank for receiving high-pressure hydraulic oil discharged from the hydraulic cylinder, and converting the discharged oil into high-pressure hydraulic oil again. Hydraulic pressure provided with an accumulator having a piston for partitioning a high-pressure hydraulic fluid chamber for storing high-pressure hydraulic fluid sent from an oil tank and supplied to the hydraulic cylinder and a high-pressure gas chamber for storing high-pressure gas sent from a high-pressure source In the operating device, a lid through which a charge valve penetrates is tightly fastened to the outside of the top cover of the high pressure gas chamber of the accumulator, and a storage chamber for storing leaked high pressure gas is provided between the outside of the top cover and the lid. A fluid pressure operating device characterized in that a sensor sensitive to leaked high pressure gas is provided in the accumulation chamber. 2. N ₂ gas is used as the high pressure gas in the high pressure gas chamber,
The fluid pressure operating device according to claim 1, wherein an inert and harmless gas for leak detection is mixed in the high-pressure gas, and a sensor sensitive to the gas for leak detection is used as a sensor. .