CN212807601U - Pressure relief valve detection device - Google Patents

Abstract

The utility model discloses a pressure relief valve detection device, include: the device comprises a shell, a pressure release valve, a pressurization tank, a pressurization air pump, a pressure sensor and a flow rate sensor; the pressurization jar is installed in the casing, the opening has been seted up at the top of casing, the export of pressurization jar is facing to the opening, the import of pressurization jar is passed through the pipe connection to the pressurization air pump, the pressure release valve is installed on the pressurization jar, and the air inlet of pressure release valve and the export intercommunication of pressurization jar, the top of casing is provided with can lid the lid that closes outside the pressure release valve, the gas pocket that looses has been seted up on the lateral wall of lid, the position that is close to the disappointing mouth of pressure release valve of the lateral wall of pressurization jar is provided with the installing port, pressure sensor installs in installing port department, pressure sensor's response end stretches into in the pressurization jar, flow rate sensor installs on the surface at the top of casing, and be located. The utility model provides the high comprehensiveness that detects to the effective foundation of multiplicable aassessment change of current pressure relief valve detection state.

Description

Pressure relief valve detection device

Technical Field

The utility model relates to a pressure release valve technical field especially relates to a pressure release valve detection device.

Background

At present, related mechanisms at home and abroad generally adopt a mode of simulating the protection action condition of a pressure release valve for detecting a pressure protection device of a transformer. The existing detection device cannot detect key data such as flow velocity and the like of the pressure relief valve after gas is released, so that detection is incomplete.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a pressure release valve detection device to solve prior art's pressure release valve detection device and detect the incomprehensive problem of data that detects.

The embodiment of the utility model provides a following technical scheme:

a pressure relief valve check apparatus comprising: the device comprises a shell, a pressure release valve, a pressurization tank, a pressurization air pump, a pressure sensor and a flow rate sensor; the pressure relief valve includes: the sealing gasket is arranged in the release valve shell and can move up and down, and at least two sealing rings with different diameters are arranged in the release valve shell, an air inlet is formed in the bottom of the release valve shell, an openable air leakage opening is formed in the side wall of the release valve shell, the sealing gasket is positioned above the air inlet and can be in compression joint with the air inlet, the area of the sealing gasket is larger than that of the air inlet, the circle centers of at least two sealing rings are overlapped, and at least two sealing rings are arranged between the lower surface of the sealing gasket and the inner surface of the bottom of the release valve shell; the pressurization jar is installed in the casing, the opening has been seted up at the top of casing, the export of pressurization jar is facing to the opening, the pressurization air pump passes through the pipe connection the import of pressurization jar, the pressure release valve is installed on the pressurization jar, just the air inlet of pressure release valve with the export intercommunication of pressurization jar, the top of casing is provided with and can covers and close the outer lid of pressure release valve, the gas pocket that looses has been seted up on the lateral wall of lid, being close to of the lateral wall of pressurization jar the position of the mouth that loses heart of pressure release valve is provided with the installing port, pressure sensor installs installing port department, pressure sensor's response end stretches into in the pressurization jar, flow rate sensor installs on the surface at the top of casing, and be located after the lid closes in the lid.

Further: the flow rate sensor is internally provided with a time relay.

Further: and the flange plate of the pressure relief valve is fixedly arranged at the top of the shell.

Further: the lower surface of the sealing gasket is provided with at least two concentric first semicircular grooves, the inner surface of the bottom of the release valve shell is provided with at least two concentric second semicircular grooves, the positions of each first semicircular groove and each second semicircular groove correspond, the diameters of each first semicircular groove and each corresponding second semicircular groove are the same as the diameter of each sealing ring, one sealing ring of two adjacent sealing rings is arranged in the first semicircular groove with the same diameter as the sealing ring, and the other sealing ring is arranged in the second semicircular groove with the same diameter as the sealing ring.

Further, the pressure relief valve further comprises: the upper surface of the sealing gasket is connected with one end of the first spring, the other end of the first spring is connected with the inner surface of the top of the release valve shell, and the first spring is always in a compressed state.

Further: the upper surface of the sealing gasket is provided with a first guide column extending upwards, the inner surface of the top of the release valve shell is provided with a second guide column extending downwards, one end of the first spring is sleeved outside the first guide column, and the other end of the first spring is sleeved outside the second guide column.

Further, the pressure relief valve further comprises: the top of release valve shell is provided with the trompil, the upper surface of seal gasket is provided with the third guide post, the one end of pivot is connected to the hand wheel, the other end of pivot stretches into the trompil is just connected the third guide post, the diameter of pivot with the diameter of trompil matches, the upper surface of seal gasket is connected the one end of second spring, the other end of second spring is connected the internal surface at the top of release valve shell, the second spring housing is established the pivot with outside the third guide post, the second spring is in compression state all the time.

Further: the size of the mounting opening is the same as the size of the air release opening of the pressure relief valve.

Further, the pressure relief valve detection apparatus further includes: and the pressure sensor and the flow rate sensor are electrically connected with the controller.

Further: the bottom of the shell is provided with a drawer capable of being pulled out, and the controller is arranged in the drawer.

The utility model discloses pressure relief valve detection device gathers to the multiple data of change of current transformer pressure relief valve in the testing process, has improved the comprehensiveness that detects to the effective foundation of multiplicable aassessment change of current transformer pressure relief valve detected the state has reduced the experimental project of artifical test, has promoted the efficiency of detection achievement.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a pressure relief valve detection device according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a pressure relief valve in accordance with a preferred embodiment of the present invention;

fig. 3 is a cross-sectional view of a pressure relief valve according to another preferred embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model discloses pressure relief valve detection device. As shown in fig. 1 to 3, the pressure relief valve detecting apparatus includes: a housing 1, a pressure release valve 2, a pressurizing tank 3, a pressurizing air pump 4, a pressure sensor 5, and a flow rate sensor 6.

A pressurized tank 3 is mounted within the housing 1. It should be understood that the housing 1 may have a door that opens and closes, not only to install and remove the pressure tank 3 by opening the door, but also to facilitate the maintenance of the pressure tank 3. The top of the housing 1 is opened. The outlet of the pressure tank 3 is typically located at the top of the pressure tank 3. The outlet of the pressure tank 3 faces the opening. The pressurizing air pump 4 is connected with the inlet of the pressurizing tank 3 through a pipeline. The pressure relief valve 2 is mounted on the pressurized tank 3, and an air inlet of the pressure relief valve 2 communicates with an outlet of the pressurized tank 3. Specifically, the flange of the pressure relief valve 2 is fixedly mounted on the top of the housing 1, so that the pressure relief valve 2 is stably fixed. The top of the shell 1 is provided with a cover body 7 which can cover the pressure relief valve 2. The side wall of the cover 7 is provided with air holes 701, which can guide the air decompressed by the pressure relief valve 2 to be effectively released through the air holes 701. Specifically, the air diffusion hole 701 may be provided on the entire side wall of the cover 7, and is not limited to one side wall. A mounting port is provided in the side wall of the pressure tank 3 at a position close to the air release port 205 of the pressure relief valve 2. The pressure sensor 5 is installed at the installation opening. Preferably, the size of the mounting opening is the same as that of the air release opening 205 of the pressure release valve 2, so that the internal pressure is consistent with the pressure at the air release opening 205, and the measurement accuracy is improved. The sensor head of the pressure sensor 5 protrudes into the pressure tank 3, so that the gas pressure in the pressure tank 3 can be detected. A flow rate sensor 6 is installed on the outer surface of the top of the housing 1 and is located in the covered cover 7, so that the flow rate of gas discharged from the gas discharge opening 205 of the pressure relief valve 2 can be detected. Further, the flow rate sensor 6 has a time relay inside. The time relay is a gas micro-motion time relay, when air flow enters the flow velocity sensor 6 along the air suction port structure of the flow velocity sensor 6, the time relay is driven to be closed, not only the gas flow begins to be measured, but also the time relay begins to time, and therefore the gas flow velocity and the flow time data are collected simultaneously.

In addition, the pressure relief valve detection apparatus further includes: and a controller 8. Pressure sensor 5 and flow rate sensor 6 are each electrically connected to controller 8 so that sensed data can be sent to controller 8 for storage or processing by controller 8. The pressure sensor 5 and the flow rate sensor 6 may be self-contained battery sensors. In addition, the controller 8 may also be integrated with a power supply (e.g., a 24V power supply) such that the pressure sensor 5 and the flow rate sensor 6 are powered by the controller 8. The bottom of the shell 1 is provided with a drawer 9 which can be drawn out. The controller 8 is disposed within the drawer 9. The pressure tank 3 is provided on the ceiling of the drawer 9.

Therefore, through the structural design, the pressurization air pump 4 is started to convey air into the pressurization tank 3, and the pressure sensor 5 can detect the air pressure in the pressurization tank 3 in real time; when the pressure release valve 2 begins to release air after the pressure of the air continuously added to the pressurization tank 3 by the pressurization air pump 4, the released air can be discharged along the air release hole 701, in the process, the air flow can enter the flow velocity sensor 6 along the air suction port structure of the flow velocity sensor 6 and drive the time relay to be closed, so that the air flow is measured, and the time relay also begins to time, so that the data of the air flow velocity and the flow time are collected at the same time; therefore, the gas pressure, the gas flow speed and the flow time data can be measured simultaneously, and the detection comprehensiveness is improved. The data of the pressure release valve 2 acquired by the sensor can be used as important basis for calculating the on-site oil injection quantity of the converter transformer pressure release valve 2, the time after on-site action release and accident recovery, and the defects of the traditional relay protection test method are overcome.

In addition, to prior art's pressure release valve's quick shut-down nature not good, in view of this, the embodiment of the utility model provides a pressure release valve has been designed. Specifically, as shown in fig. 2 and 3, the pressure relief valve 2 includes: a release valve housing 201, and a sealing gasket 202 which can move up and down and at least two sealing rings 203 with different diameters which are arranged in the release valve housing 201. The number of the seal rings 203 can be set according to the requirements for tightness and quick shut-down. The seal ring 203 is typically made of rubber. Fig. 2 and 3 show two seal rings 203. The bottom of the relief valve housing 201 is open with an air inlet 204. The side wall of the release valve casing 201 is provided with an air release opening 205. It should be understood that the bleed opening 205 is openable and closable. The sealing gasket 202 is positioned above the air inlet 204 and can be crimped onto the air inlet 204. The area of the sealing gasket 202 is larger than the area of the air inlet 204 so that the air inlet 204 can be sealed. The material of the sealing gasket 202 is generally a metal material. The centers of at least two sealing rings 203 are coincident, i.e. the sealing rings 203 are in a ring-to-ring structure. At least two sealing rings 203 are provided between the lower surface of the sealing gasket 202 and the inner surface of the bottom of the relief valve housing 201 to further enhance the seal.

Specifically, the lower surface of the sealing gasket 202 is provided with at least two concentric first semicircular grooves 206. The inner surface of the bottom of the relief valve housing 201 is provided with at least two concentric second semi-circular grooves 207. Each first semicircular groove 206 and each second semicircular groove 207 correspond in position. Each first semicircular groove 206 and the corresponding second semicircular groove 207 has the same diameter as each sealing ring 203 in order to fit the corresponding sealing ring 203. One 203 of the two adjacent sealing rings 203 is arranged in a first semicircular groove 206 with the same diameter as the sealing ring 203, and the other 203 is arranged in a second semicircular groove 207 with the same diameter as the sealing ring 203, namely, the two adjacent sealing rings 203 are arranged on the lower surface of the sealing gasket 202 and arranged on the inner surface of the bottom of the release valve shell 201, and the staggered arrangement of at least two sealing rings 203 is more beneficial to improving the sealing property.

In a preferred embodiment, the sealing gasket 202 moves up and down by the following structural design. The pressure relief valve 2 further comprises: a first spring 208. The upper surface of the sealing gasket 202 is coupled to one end of the first spring 208. The other end of the first spring 208 is attached to the inner surface of the top of the relief valve housing 201. The first spring 208 is always in compression. More preferably, the upper surface of the sealing gasket 202 is provided with a first guide post 209 extending upwardly and the inner surface of the top of the relief valve housing 201 is provided with a second guide post 210 extending downwardly. One end of the first spring 208 is sleeved outside the first guide post 209, the other end of the first spring 208 is sleeved outside the second guide post 210, and the movement of the first spring 208 is limited through the guide posts, so that the left and right shaking is avoided.

With the above-described configuration, the gas in the pressure tank 3 enters the gas inlet 204, and when the gas outlet 205 is opened, the gas in the pressure tank 3 pushes open the gasket 202 (in an original state, the gasket 202 is pressed against the gas inlet 204 to seal the gas inlet 204), and then is discharged from the gas outlet 205. When the air vent 205 is closed, the sealing gasket 202 can be tightly pressed on the air inlet 204 under the elastic force of the first spring 208 and the self-gravity to seal the air inlet 204. Through the design of the first spring 208 and the sealing ring 203 sleeved with the ring, the valve formed by the sealing gasket 202 and the air inlet 204 can be quickly closed, and the pressure can be accurately controlled.

In another preferred embodiment, the sealing gasket 202 moves up and down by the following structural design. The pressure relief valve 2 further comprises: a second spring 211 and a handwheel 212. The top of the relief valve housing 201 is provided with an aperture. The upper surface of the sealing gasket 202 is provided with a third guide column 213. Handwheel 212 is connected to one end of shaft 214. The other end of the shaft 214 extends into the opening and is connected to the third guide post 213. The diameter of the shaft 214 matches the diameter of the opening, thereby ensuring the sealing performance at the opening. The upper surface of the sealing gasket 202 is connected to one end of a second spring 211, and the other end of the second spring 211 is connected to the inner surface of the top of the relief valve housing 201. The second spring 211 is sleeved outside the rotating shaft 214 and the third guide column 213, and the rotating shaft 214 and the third guide column 213 can limit the movement of the second spring 211 to avoid left and right shaking. The second spring 211 is always in a compressed state.

Through the above-mentioned structural design, the gas in the pressurized tank 3 enters the gas inlet 204, and when the gas outlet 205 is opened, the gas in the pressurized tank 3 pushes open the sealing gasket 202 and is then discharged from the gas outlet 205. After the air vent 205 is closed, the air vent 204 can be quickly sealed by pressing down the handwheel 212, and the sealing gasket 202 can be tightly pressed above the air vent 204 under the elastic force of the second spring 211 and the self gravity to seal the air vent 204. Through the design of the handwheel 212, the second spring 211 and the sealing ring 203 sleeved with the ring, the valve formed by the sealing gasket 202 and the air inlet 204 can be quickly shut down, and the pressure can be accurately controlled.

To sum up, the utility model discloses pressure relief valve detection device gathers to the multiple data of change of current transformer pressure relief valve in the testing process, has improved the comprehensiveness that detects to the effective foundation of multiplicable aassessment change of current transformer pressure relief valve detected the state has reduced the test item of artifical test, has promoted the efficiency that detects work.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A pressure relief valve check apparatus, comprising: the device comprises a shell, a pressure release valve, a pressurization tank, a pressurization air pump, a pressure sensor and a flow rate sensor;

the pressure relief valve includes: the sealing gasket is arranged in the release valve shell and can move up and down, and at least two sealing rings with different diameters are arranged in the release valve shell, an air inlet is formed in the bottom of the release valve shell, an openable air leakage opening is formed in the side wall of the release valve shell, the sealing gasket is positioned above the air inlet and can be in compression joint with the air inlet, the area of the sealing gasket is larger than that of the air inlet, the circle centers of at least two sealing rings are overlapped, and at least two sealing rings are arranged between the lower surface of the sealing gasket and the inner surface of the bottom of the release valve shell;

the pressurization jar is installed in the casing, the opening has been seted up at the top of casing, the export of pressurization jar is facing to the opening, the pressurization air pump passes through the pipe connection the import of pressurization jar, the pressure release valve is installed on the pressurization jar, just the air inlet of pressure release valve with the export intercommunication of pressurization jar, the top of casing is provided with and can covers and close the outer lid of pressure release valve, the gas pocket that looses has been seted up on the lateral wall of lid, being close to of the lateral wall of pressurization jar the position of the mouth that loses heart of pressure release valve is provided with the installing port, pressure sensor installs installing port department, pressure sensor's response end stretches into in the pressurization jar, flow rate sensor installs on the surface at the top of casing, and be located after the lid closes in the lid.

2. The pressure relief valve detection device of claim 1, wherein: the flow rate sensor is internally provided with a time relay.

3. The pressure relief valve detection device of claim 1, wherein: and the flange plate of the pressure relief valve is fixedly arranged at the top of the shell.

4. The pressure relief valve detection device of claim 1, wherein: the lower surface of the sealing gasket is provided with at least two concentric first semicircular grooves, the inner surface of the bottom of the release valve shell is provided with at least two concentric second semicircular grooves, the positions of each first semicircular groove and each second semicircular groove correspond, the diameters of each first semicircular groove and each corresponding second semicircular groove are the same as the diameter of each sealing ring, one sealing ring of two adjacent sealing rings is arranged in the first semicircular groove with the same diameter as the sealing ring, and the other sealing ring is arranged in the second semicircular groove with the same diameter as the sealing ring.

5. The pressure relief valve detection device of claim 1, wherein said pressure relief valve further comprises: the upper surface of the sealing gasket is connected with one end of the first spring, the other end of the first spring is connected with the inner surface of the top of the release valve shell, and the first spring is always in a compressed state.

6. The pressure relief valve detection device of claim 5, wherein: the upper surface of the sealing gasket is provided with a first guide column extending upwards, the inner surface of the top of the release valve shell is provided with a second guide column extending downwards, one end of the first spring is sleeved outside the first guide column, and the other end of the first spring is sleeved outside the second guide column.

7. The pressure relief valve detection device of claim 1, wherein said pressure relief valve further comprises: the top of release valve shell is provided with the trompil, the upper surface of seal gasket is provided with the third guide post, the one end of pivot is connected to the hand wheel, the other end of pivot stretches into the trompil is just connected the third guide post, the diameter of pivot with the diameter of trompil matches, the upper surface of seal gasket is connected the one end of second spring, the other end of second spring is connected the internal surface at the top of release valve shell, the second spring housing is established the pivot with outside the third guide post, the second spring is in compression state all the time.

8. The pressure relief valve detection device of claim 1, wherein: the size of the mounting opening is the same as the size of the air release opening of the pressure relief valve.

9. The pressure relief valve detection device of claim 1, further comprising: and the pressure sensor and the flow rate sensor are electrically connected with the controller.

10. The pressure relief valve detection device of claim 9, wherein: the bottom of the shell is provided with a drawer capable of being pulled out, and the controller is arranged in the drawer.

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