JP2011112513A - Pressure regulating device, and pressure testing device including the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pressure regulating device capable of loading stably a liquid pressure, when executing a pressure test of a test body, and to provide a pressure testing device including the pressure regulating device. <P>SOLUTION: This pressure regulating device includes: a cylinder 6 communicated with the test body 2 to which a pressure test is executed, while injecting liquid into the test body 2 filled with the liquid; a piston 7 arranged movably in the cylinder 6, and a load loading means 8 for loading a load on the piston 7 toward the test body 2 side. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a pressure adjusting device and a pressure test apparatus equipped with the same, and particularly used when a pressure test of a specimen is performed using a liquid.

Generally, the pressure resistance test of a test body is performed by injecting water into the test body while adjusting the pressure using a pressure sensor and a pressure regulating valve, filling the test body, and then stopping water injection.
Patent Document 1 discloses that after filling the test body and the cylinder with water, water injection is stopped and a pressure cone is adjusted by mounting a heavy cone above the piston provided in the cylinder.

JP 2004-69298 A

However, when the water injected into the test body is at a high pressure, the invention described in Patent Document 1 is elastically deformed by the pressure of the water injected into the test body during the pressure resistance test of the elastic test body. There was a problem that the volume changed and pressure fluctuation occurred in the water injected into the specimen, making it difficult to adjust the pressure in the specimen.
Further, in the case of a test body manufactured with a material having a small elongation, the test body may be ruptured by a slight excessive pressure load due to an erroneous operation.

  This invention is made | formed in view of such a situation, Comprising: It aims at providing the pressure regulator which can load the pressure of a liquid stably, and a pressure | voltage resistant test apparatus provided with the same.

In order to solve the above-described problems, the pressure adjusting device of the present invention and the pressure test device including the same employ the following means.
That is, the pressure adjusting device according to the present invention is disposed in a cylinder communicating with the test body to be subjected to a pressure resistance test while injecting the liquid into the test body filled with the liquid, and movably disposed in the cylinder. It has a piston and load loading means for applying a load to the piston toward the specimen side.

  When the liquid is further injected into the test body filled with the liquid, the pressure in the test body increases, and the pressure in the cylinder communicating with the test body also increases. When the pressure in the cylinder becomes larger than the pressure due to the load applied to the piston by the load loading means, the piston moves and balances in the cylinder to a position where the pressure in the cylinder and the pressure due to the load by the load loading means are balanced. .

When the liquid injected into the test body is at a high pressure (for example, 100 kg / cm ² ), when the test body is elastically deformed and the volume changes and pressure fluctuation occurs in the liquid in the test body, the piston moves through the cylinder. By moving, the liquid in the cylinder is supplied to the test body, and the pressure of the liquid in the test body is adjusted. Therefore, by applying a load capable of achieving a desired pressure to the piston by the load loading means, the pressure resistance test can be stably performed even when pressure fluctuation occurs.

In addition, when a liquid with a pressure higher than the desired pressure is injected into the test body, a load capable of achieving the desired pressure is loaded on the piston by the load loading means, so that the pressure in the cylinder and the load The piston moves and balances in the cylinder to a position where the pressure applied by the loading means is balanced. Therefore, the pressure in the test body can be set to a desired pressure. Therefore, it is possible to safely perform the pressure resistance test by preventing the specimen from being ruptured by excessive pressure.
The desired pressure refers to a specified pressure that should be applied to the liquid in the test body in order to perform the pressure resistance test.

  According to the pressure adjusting device of the present invention, the load applying means is a weight body.

  A load due to the weight of the weight body is applied to the cylinder. Therefore, it is not necessary to provide a complicated structure for applying pressure to the liquid in the test body. Therefore, the pressure resistance test can be easily performed.

  According to the pressure adjusting device of the present invention, the load loading means includes a hydraulic jack that loads the piston toward the test body, and a load detection that detects a load that the hydraulic jack loads on the piston. And a hydraulic jack control device that controls a load applied to the hydraulic jack by a load signal detected by the load load detecting means.

  A load applied to the piston by the hydraulic jack is detected by a load detection unit. The load applied to the piston by the hydraulic jack is controlled by the hydraulic jack control device so that the pressure of the liquid in the cylinder becomes a desired pressure by the load load detecting means. Therefore, the load applied to the liquid in the test body can be easily adjusted as compared with the case where a load is applied to the liquid by the weight body. Therefore, the pressure resistance test can be easily performed.

  According to the pressure test apparatus according to the present invention, any one of the above-described pressure adjusting device, a test body in which a pressure test is performed while injecting liquid, a pump for injecting liquid into the test body, An adjustment valve provided between the test body and the pump, a pressure detection means for a test body for detecting the pressure of the liquid in the test body, and the adjustment valve based on a pressure signal detected by the pressure detection means for the test body And a valve opening degree control means for adjusting the opening degree.

A liquid with a desired pressure is injected into the test body from the pump while the pressure of the liquid in the test body is detected by the pressure detection means for the test body and the opening of the adjusting valve is adjusted by the valve opening control means. When the pressure of the liquid to be injected is high (for example, 100 kg / cm ² ), the test body is elastically deformed by the pressure of the liquid and the volume changes. As the volume changes, the pressure of the liquid in the test body varies. For this reason, a pressure adjusting device is provided to adjust the pressure fluctuation of the liquid in the test body. Thereby, even if the volume of the test body changes, the piston can move and balance in the cylinder to a position where the pressure in the cylinder and the pressure by the load loading means are balanced. Therefore, the pressure resistance test can be performed with a stable pressure by adjusting the pressure of the liquid in the test body to a desired pressure.

  In addition, when the specimen is manufactured from a material having a small elongation, the pressure of the liquid in the specimen is higher than the desired pressure due to a problem in adjusting the opening of the regulating valve during the injection of the liquid into the specimen. When this happens, there is a concern that the specimen will burst. Therefore, it was decided to provide a pressure adjusting device for adjusting the pressure of the liquid in the test body. For this reason, even when the liquid in the test body exceeds a desired pressure, the piston moves in the cylinder and balances to a position where the pressure in the cylinder and the pressure by the load by the load loading means are balanced. Therefore, the pressure test can be performed safely by adjusting the liquid in the test body to a desired pressure.

  According to the present invention, when the liquid injected into the test body is at a high pressure, the test body is elastically deformed to change its volume, and when the pressure in the liquid in the test body changes, the piston moves in the cylinder. Thus, the liquid in the cylinder is supplied to the test body and the pressure of the liquid in the test body is adjusted. Therefore, by applying a load capable of achieving a desired pressure to the piston by the load loading means, the pressure resistance test can be stably performed even when pressure fluctuation occurs.

  In addition, when a liquid with a pressure higher than the desired pressure is injected into the test body, a load capable of achieving the desired pressure is loaded on the piston by the load loading means, so that the pressure in the cylinder and the load The piston moves and balances in the cylinder to a position where the pressure by the load means is balanced. Therefore, the pressure in the test body can be set to a desired pressure. Therefore, it is possible to safely perform the pressure resistance test by preventing the specimen from being ruptured by excessive pressure.

It is a schematic block diagram of a pressure | voltage resistant test apparatus provided with the pressure regulator which concerns on 1st Embodiment of this invention. It is a schematic block diagram of a pressure | voltage resistant test apparatus provided with the pressure regulator which concerns on 2nd Embodiment of this invention.

[First Embodiment]
Hereinafter, a first embodiment of the present invention will be described with reference to FIG.
FIG. 1 shows a schematic configuration diagram of a pressure test apparatus including a pressure adjusting device according to the present embodiment.
The pressure resistance test apparatus 1 includes a test body 2, a pressure adjusting device 3 communicating with the test body 2, and a hydraulic pump (pump) 4 that injects water (liquid) into the test body 2.

  The test body 2 is a container in which a pressure test is performed using water injected into the inside as a specified pressure. The test body 2 is provided with a pressure sensor (pressure detector for test body) 5 that detects the pressure of water injected into the test body 2.

  The water pressure pump 4 pressurizes water and supplies water into the test body 2. The water pressure pump 4 is connected to the test body 2 by a pipe 20. A pressure adjustment valve (regulation valve) 6 that adjusts the pressure of the water supplied by the water pressure pump 4 is provided on the pipe 20.

  The pressure adjusting device 3 includes a cylinder 6, a piston 7 that is movably disposed in the cylinder 6, and a weight body (load loading means) 8 that applies a load to the piston 7.

  The cylinder 6 has a volume corresponding to the volume change of the test body 2 accompanying the deformation of the test body 2. The cylinder 6 communicates with the test body 2 through a pipe 21. Since the cylinder 6 communicates with the test body 2, water is guided to the cylinder 6.

  A piston 7 is provided inside the cylinder 6. The piston 7 can slide up and down on the inner wall of the cylinder 6. The inside of the cylinder 6 can be maintained at a constant pressure by the volume change caused by the piston 7 that moves inside the cylinder 6. A weight body 8 is mounted above the piston 7 and can move up and down in the cylinder 6 as the piston 7 slides.

Next, a pressure test method for the test body 2 using the pressure test apparatus 1 of the present embodiment will be described.
The water pressure pump 4 is operated to inject water into the test body 2 through the pipe 20. When water is injected into the test body 2, the pressure of the water to be injected is set to a desired pressure, for example, 80 kg / cm ² , which is also a specified pressure in the pressure test by the pressure regulating valve 6 provided on the pipe 20. Adjust so that

  During the injection of water, the pressure in the test body 2 is detected by the pressure sensor 5 provided in the test body 2. The pressure signal detected by the pressure sensor 5 is transmitted to the monitor 9. The monitor 9 displays the water pressure in the test body 2 transmitted from the pressure sensor 5. While monitoring the water pressure in the test body 2 displayed on the monitor 9, water is injected into the test body 2 by the water pressure pump 4.

  When water is injected into the test body 2, the water is guided from the pipe 21 into the cylinder 6. A weight body 8 is mounted above the piston 7 in the cylinder 6. Here, the weight 8 has a weight at which a pressure obtained by dividing the sum of the weight and the weight of the piston 7 by the cross-sectional area of the piston 7 (hereinafter referred to as “adjusted pressure”) becomes a specified pressure in the pressure resistance test. The water guided into the cylinder 6 is subjected to an adjustment pressure by the weight body 8 having a load corresponding to the specified pressure.

  By continuing to inject water, the test body 2 is filled with water. Water continues to be injected into the test body 2 filled with water by the hydraulic pump 4. Since water is continuously injected into the test body 2, the pressure in the container 2 rises. When the pressure in the test body 2 increases, the pressure in the cylinder 6 communicating with the test body 2 also increases.

  When the pressure of the water introduced into the cylinder 6 becomes larger than the adjustment pressure by the weight body 8 and the piston 7, the piston 7 and the weight body 8 move in the cylinder 6. The piston 7 and the weight body 8 moving in the cylinder 6 stop at a position where the introduced water pressure in the cylinder 6 and the adjustment pressure by the weight body 8 and the piston 7 are balanced.

Next, the case where the test body 2 is elastically deformed by the pressure of water injected into the test body 2 will be described.
When the test body 2 is elastically deformed by the pressure of water injected into the test body 2, the test body 2 expands. As the test body 2 expands, the volume of the test body 2 changes. Since the volume of the test body 2 changes, the pressure of the water filled in the test body 2 decreases. Since the test body 2 and the cylinder 6 communicate with each other, the water pressure in the cylinder 6 decreases. A constant adjustment pressure is applied to the water in the cylinder 6 from above by the weight body 8 and the piston 7.

  When the water pressure in the cylinder 6 communicating with the test body 2 decreases due to the elastic deformation of the test body 2, the piston 7 and the weight body 8 move downward in the cylinder 6. The piston 7 and the weight body 8 that have moved downward in the cylinder 6 stop at a position where the water pressure in the cylinder 6 and the adjustment pressure by the weight body 8 and the piston 7 are balanced. When the water pressure in the cylinder 6 and the adjustment pressure by the weight body 8 and the piston 7 are balanced, the specified pressure equivalent to the adjustment pressure by the weight body 8 and the piston 7 is applied to the water in the cylinder 6. It will be.

  Further, water is continuously injected into the test body 2 from the water supply pump 4. By moving the piston 7 and the weight body 8 downward in the cylinder 6, water in the cylinder 6 is supplied from the pipe 21 in addition to the water from the water supply pump 4 into the test body 2.

  Thus, even if pressure fluctuations occur in the water in the test body 2 due to the elastic deformation of the test body 2, the cylinder 6 has a volume corresponding to the volume change accompanying the deformation of the test body 2, and the inside of the cylinder 6 The water in the test body can be maintained at a constant pressure by the volume change by the moving piston 7.

Next, a case where water at a desired pressure or higher, for example, water of 100 kg / cm ² or higher is injected into the specimen 2 will be described.
When a failure or the like occurs in the pressure regulating valve 6 that regulates the pressure of water injected into the test body 2, water having a water pressure higher than a desired pressure (hereinafter referred to as “overload”) is contained in the test body 2. May be injected.
When the pressure of water flowing into the test body 2 and the cylinder 6 communicating with the test body 2 is overloaded, the piston 7 and the weight body 8 move upward in the cylinder 6. The movement of the piston 7 and the weight body 8 stops at a position where the water pressure in the cylinder 6 is balanced with the adjustment pressure by the weight body 8 and the piston 7.

  Since the water pressure in the cylinder 6 and the adjustment pressure by the weight body 8 and the piston 7 are balanced, and the test body 2 communicates with the cylinder 6, the water pressure in the test body 2 is This is equivalent to the adjustment pressure by the piston 7. Thereby, the overload state in the test body 2 is eliminated.

As described above, the pressure adjusting device according to the present embodiment and the pressure resistance test device including the same have the following effects.
When water (liquid) injected into the test body 2 is at a high pressure, the test body 2 is elastically deformed to change its volume, causing pressure fluctuations in the water in the test body 2. The piston 7 and the weight body 8 move in the cylinder (load load means) 6 and balance to a position where the pressure and the adjustment pressure due to the load of the weight body (load load means) 8 and the piston (load load means) 7 are balanced. . Further, the water in the cylinder 7 is supplied to the test body 2 by the piston 7 and the weight body 8 moving in the cylinder 6. Therefore, by applying a load that can achieve a desired pressure to the piston 7 by the weight body 8, the pressure resistance test can be stably performed even when pressure fluctuation occurs in the water in the test body 2. Can do.

  Further, when water having a pressure equal to or higher than a desired pressure is injected into the test body 2, a load capable of achieving a desired pressure is applied to the piston 7 by the weight body 8, whereby the cylinder 6 The piston 7 and the weight body 8 move and balance in the cylinder 6 to a position where the internal pressure and the adjustment pressure by the weight body 8 and the piston 7 are balanced. Therefore, the pressure in the test body 2 can be set to a desired pressure. Therefore, it is possible to safely perform the pressure resistance test by preventing the test body 2 from rupturing due to overload (excessive pressure).

  A load due to the weight of the weight body 8 and the piston 7 is applied to the cylinder 6. Therefore, it is not necessary to provide a complicated structure for applying a load to the water in the test body 2. Therefore, the pressure resistance test can be easily performed.

  Moreover, the water in the test body 2 can be maintained at a constant pressure by the volume change by the piston 7 moving in the cylinder 6. Therefore, the water pressure in the cylinder 6 can be made to correspond to the desired pressure even if there is a time delay in the feedback by the pressure sensor (the pressure detection means for test body) 5 or the pressure sensor 5 is out of order.

In the present embodiment, the liquid is described as water, but the present invention is not limited to this, and may be oil or the like.
In the present embodiment, the cylinder 7 and the weight body 8 are described as moving in the vertical direction of the piston 7. However, the present invention is not limited to this, and the weight body 8 faces the test body 2 side. It is sufficient if the load can be applied.

  In addition, even when the test is performed by gradually increasing the pressure of water injected into the test body 2 by making the weight body 8 a movable weight body, the pressure resistance test can be easily performed. Can do.

[Second Embodiment]
Hereinafter, a second embodiment of the present invention will be described with reference to FIG.
The pressure adjustment device of this embodiment and the pressure resistance test device including the same are different from those of the first embodiment in having a hydraulic jack and a hydraulic jack control device, and the others are the same. Accordingly, the same configuration and withstand voltage test method are denoted by the same reference numerals and description thereof is omitted.
The pressure adjusting device 3 includes a cylinder 6, a piston 7 that is movably disposed in the cylinder 6, a hydraulic jack 11 that applies a load to the piston 7, and a hydraulic jack control device that controls the load applied by the hydraulic jack 11. 12.

  Hydraulic oil is supplied to the inside of the hydraulic jack 11. The hydraulic oil filled in the hydraulic jack 11 is controlled in pressure by the hydraulic jack control device 12. A ram 11A provided in the hydraulic jack 11 is movable in the vertical direction in the hydraulic jack 11. The end of the ram 11 </ b> A is provided in contact with the upper surface of the piston 7. When the oil in the hydraulic jack 11 is controlled by the hydraulic jack control device 12, the ram 11A pushes the piston 7 downward and applies a load.

The hydraulic jack control device 12 is connected to the hydraulic jack 11 by a pipe 22. The hydraulic jack control device 12 controls the hydraulic pressure in the hydraulic jack 11.
A load cell (load load detecting means) 13 is provided between the piston 7 and the ram 11 </ b> A of the hydraulic jack 11. The load cell 13 detects a load applied to the piston 7 by the hydraulic jack 11.

Next, a pressure test method for the test body 2 using the pressure test apparatus 1 of the present embodiment will be described.
When water (liquid) is injected into the test body 2, water is introduced into the cylinder 6 from the pipe 21. A load is applied to the water in the cylinder 6 by the hydraulic jack 11 via the piston 7. The load applied by the hydraulic jack 11 is detected by the load cell 13.

  The load detected by the load cell 13 includes a pressure obtained by dividing the sum of the load applied by the hydraulic jack 11 and the weight of the piston 7 by the cross-sectional area of the piston 7 (hereinafter referred to as “adjusted pressure”), and a pressure resistance test of the test body 2. The hydraulic jack adjustment device 12 adjusts the pressure so that the specified pressure becomes equal. As a result, the water introduced into the cylinder 6 is loaded with an adjustment pressure corresponding to the specified pressure by the hydraulic jack 11.

As described above, the pressure adjusting device according to the present embodiment and the pressure resistance test device including the same have the following effects.
The load applied by the hydraulic jack (load load means) 11 to the piston (load load means) 7 is detected by a load cell (load load detection means) 13. The load of the hydraulic jack 11 is controlled by the hydraulic jack control device 12 so that the pressure of the water (liquid) in the cylinder 6 becomes a desired pressure based on the detection signal of the load cell 13. Therefore, the load applied to the water in the test body 2 can be easily adjusted as compared with the case where a load is applied to the water by the weight body (load loading means). Therefore, the pressure resistance test can be easily performed.

DESCRIPTION OF SYMBOLS 1 Pressure-resistant test apparatus 2 Test body 3 Pressure adjustment apparatus 6 Cylinder 7 Piston 8 Load loading means (weight body)

Claims (4)

A cylinder communicating with the test body, in which a pressure test is performed while injecting the liquid into the test body filled with the liquid;
A piston movably disposed within the cylinder;
A pressure adjusting device comprising: a load-loading unit configured to apply a load to the piston toward the specimen side.   The pressure adjusting device according to claim 1, wherein the load loading means is a weight body.   The load loading means is detected by a hydraulic jack that loads a load on the piston toward the test body, a load load detection means that detects a load that the hydraulic jack loads on the piston, and the load load detection means. The pressure adjusting device according to claim 1, further comprising: a hydraulic jack control device that controls a load applied to the hydraulic jack by a load signal. A pressure regulator according to any one of claims 1 to 3,
A test body in which a pressure test is performed while injecting a liquid;
A pump for injecting liquid into the test body;
A regulating valve provided between the test body and the pump;
A pressure detection means for a test body for detecting the pressure of the liquid in the test body;
And a valve opening degree control means for adjusting the opening degree of the regulating valve by a pressure signal detected by the pressure detecting means for the test body.

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