KR20190036784A - Pipe pressure test apparatus using differential pressure portion - Google Patents

Abstract

The present invention relates to a device for testing by applying pressure to a high pressure pipe (11) and a low pressure pipe (12), comprising: a high pressure connection pipe (21) connected to the high pressure pipe (11) A body (20) having a tube (22); A pressure applying unit 30 having a pressure pump 35 connected to the high-pressure connecting pipe 21 by piping on the main body 20; And a differential pressure generator (40) connected to the main body (20) by piping between the high pressure connection pipe (21) and the low pressure connection pipe (22).
Accordingly, the number of pressure test packages can be reduced because a plurality of pipes having different test pressures can be grouped at the same time, and the reduction in the number of packages reduces not only the piping process time but also the work control time, Thus contributing to overall air shortening and cost savings.

Description

[0001] The present invention relates to a piping pressure test apparatus using a differential pressure generating unit,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a piping pressure testing apparatus, and more particularly, to a piping pressure testing apparatus using a differential pressure generating unit for simultaneously testing a plurality of piping having different test pressure conditions.

Typically, a pressure test is required to confirm fabrication and weld defect after pipe installation is completed. Since the test pressure varies depending on the material, thickness, etc., pressure test is separately performed. In order to secure the safety distance, it is not possible to work not only piping but also other processes since the surroundings are controlled during the test. In shipbuilding sites, pressure testing is concentrated in the second half of the project, so proper grouping of pipelines has a major impact on shortening the time.

In this regard, reference may be made to the following Korean Patent Laid-open Publication No. 2013-0030654 (Prior Art 1), Korean Patent Laid-Open Publication No. 2014-0004014 (Prior Art 2), and the like.

Prior Art 1 is a pipe extending to communicate with the inside of a pipe; A pressurizing means capable of applying pressure to the inside of the pipe; An opening / closing valve installed in the middle of the pipe; A pressure gauge mounted on a pipe; And venting means or drain means provided in the pipe. Therefore, it is expected that the effect of preventing the safety accident by the high-pressure exhaust is expected by eliminating the separate piping for the drain and the vent.

The prior art 2 includes a main body portion including an input portion into which a gas or fluid having a predetermined pressure is inputted to test whether a pipe is leaked, and a plurality of input ports communicated with the input portion; And a pressure gauge communicating with the input unit and displaying a pressure supplied to the input unit. Therefore, it is expected that the efficiency of the work and the convenience of the operator are improved by testing a plurality of pipes at one time.

However, according to the above-mentioned prior art, it is difficult to apply the test pressure to different pipes at the same time, and there is room for improvement in terms of reducing the number of related works.

Korean Unexamined Patent Application Publication No. 2013-0030654 entitled "Pressure Test Manifold Unit" (Published on Mar. 23, 2013). Korean Utility Model Publication No. 2014-0004014 "Pressure Measurement Apparatus for Ship Piping" (Open date: 2014.07.01.)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems in the prior art by using jumper hoses having a differential pressure to group pipelines having different test pressures into one package And to improve the pressure test at the same time so as to be able to carry out a pressure test.

In order to achieve the above object, the present invention provides an apparatus for testing a high-pressure pipe and a low-pressure pipe by applying pressure, the apparatus comprising: a main body having a high-pressure pipe and a low-pressure pipe connected to the high- A pressure applying unit having a pressure pump connected to the high-pressure connecting pipe by piping on the main body; And a differential pressure generating part connected to the main body through a pipe between the high pressure connection pipe and the low pressure connection pipe.

As a detailed construction of the present invention, the pipe for the pressure application part and the pressure difference generation part uses a jumper hose.

As a detailed configuration of the present invention, the differential pressure generating portion is characterized by using a valve of a direct or pilot type.

As a modification of the present invention, the differential pressure generating unit may further include an electrically driven actuator for fine adjustment of the differential pressure.

In a modification of the present invention, the differential pressure generating portion is connected to the pressure recorder and the controller so as to maintain a predetermined pressure difference between the high pressure pipe and the low pressure pipe.

As described above, according to the present invention, it is possible to reduce the number of pressure test packages and to reduce the number of packages by reducing the number of times of piping process as well as work control time. It can contribute to the reduction of the overall cost and the cost by enabling the progress of the process.

1 is a schematic diagram showing a test apparatus according to the present invention;
2 is a configuration diagram showing a modified example of the test apparatus according to the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention proposes a device for testing by applying pressure to a high-pressure pipe (11) and a low-pressure pipe (12). Pressure piping (11) and low-pressure piping (12) installed in ships or offshore plants, but the present invention is not limited thereto. Generally, only test piping with the same test pressure or rating is grouped and tested. In this case, test preparation, inspection, and waiting time are usually required, so that only 2 packages per day can be tested.

According to the present invention, the main body 20 has a high-pressure connecting pipe 21 and a low-pressure connecting pipe 22 connected to the high-pressure pipe 11 and the low-pressure pipe 12, respectively. The main body 20 accommodates main components to be described later, and is not limited to a particular form. The high-pressure pipe 11 and the low-pressure pipe 12 may be separated from each other and may be coupled to a specific equipment or system. The high-pressure connecting pipe (21) is connected to the high-pressure pipe (11) at one end and has a pressure gauge (25) at the other end. The low-pressure connection pipe (22) is connected to the low-pressure pipe (12) at one end and has a pressure gauge (25) at the other end. The high-pressure connection pipe 21 and the low-pressure connection pipe 22 may have at least partially flexible wrinkles.

On the other hand, the high-pressure pipe 11 and the low-pressure pipe 12 to be tested have a finishing cap 13 for sealing at both ends thereof.

In addition, according to the present invention, the pressure applying unit 30 has a pressure pump 35 connected to the high-pressure connecting pipe 21 by piping on the main body 20. The pressure application part (30) transfers the pressure of the test fluid generated by the pressure pump (35) to the high pressure connection pipe (21). The test fluid is usually water but is not limited thereto.

According to the present invention, the differential pressure generating unit 40 is connected to the main body 20 by a pipe between the high-pressure connecting pipe 21 and the low-pressure connecting pipe 22. The differential pressure generating unit 40 guides a part of the test fluid supplied to the high-pressure connecting pipe 21 to the low-pressure connecting pipe 22. In this process, a pressure difference is generated at the front and rear ends of the differential pressure generating portion 40. This differential pressure is preferably adjusted to meet the test conditions of the test piping as described below.

At this time, the respective pressure recorders 27 are installed in the high-pressure connecting pipe 21 and the low-pressure connecting pipe 22 so as to electronically detect and record the progress of the pressure test on the high-pressure pipe 11 and the low-pressure pipe 12 .

As a detailed configuration of the present invention, the piping of the pressure applying section (30) and the differential pressure generating section (40) is characterized by using a jumper hose. 1, the jumper hose 32 of the pressure applying section 30 and the jumper hose 42 of the differential pressure generating section 40 are exemplified. The jumper hose 32 (42) can be applied to various standards having a connection port for piping connection at both ends of a hose having a predetermined length. A pressure gauge 25 is provided on the high-pressure pipe 11 and the low-pressure pipe 12 so that monitoring and monitoring of the pressure difference by the differential pressure generating unit 40 is facilitated.

As a detailed configuration of the present invention, the differential pressure generating portion 40 is characterized by using a valve of a direct or pilot type. The direct-acting valve opens and closes the flow path by a regulator method without a separate actuator. The direct acting type is the elastic force of the spring, and the pilot type valve is driven by fluid pressure passing through the valve. This is selectively applied in consideration of the valve test pressure range of the differential pressure generating portion 40.

1, a shut-off valve 45 is provided on a jumper hose 42 connecting the high-pressure connection pipe 21 and the low-pressure connection pipe 22 at a position adjacent to the differential pressure generating unit 40. The shutoff valve 45 prevents excessive pressure fluctuations and maintains the set pressure.

As a modification of the present invention, the differential pressure generator 40 may further include an electrically driven actuator for fine adjustment of the differential pressure. The actuator may be installed on the stem to directly drive the valve, or may be connected to a separate valve so as to be connected to the differential pressure generating part 40 adjacent thereto.

The differential pressure generating section 40 is connected to the pressure recorder 27 and the controller 50 so as to maintain a predetermined pressure difference between the high pressure pipe 11 and the low pressure pipe 12. [ The controller 50 is a microcomputer circuit composed of a microprocessor, a memory, and an input / output interface. The pressure recorder 27 is connected to the input interface, and the differential pressure generator 40 is connected to the output interface. After the operator opens and closes the valve of the differential pressure generating unit 40, the controller 50 inputs the signal of the pressure recorder 27 in real time and controls the output of the differential pressure generating unit 40 to the actuator.

2, when the high-pressure pipe 11 and the low-pressure pipe 12 are coupled to the equipment or the system, the distance between the high-pressure pipe 11 and the main body 20 is not constant. The utilization of the differential pressure control function by the controller 50 is enhanced when the extension pipe 55 needs to be frequently replaced.

As an example of operation, the test fluid is pressurized by the pressure pump 35 and supplied to the high-pressure pipe 11 along the high-pressure connecting pipe 21 while flowing from the high-pressure pipe 11 to the jumper hose 42, (40) and then supplied to the low-pressure pipe (12). When the pressure of the low-pressure pipe 12 reaches the test condition, the shutoff valve 45 is closed to maintain the internal pressure. When the pressure of the high-pressure pipe (11) reaches the test condition, the pressure pump (35) is stopped and the pressure is maintained for a predetermined holding time. During the pressure test, the internal pressures of the high-pressure pipe 11 and the low-pressure pipe 12 are recorded and managed through the pressure recorder 27.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

11: high pressure piping 12: low pressure piping
13: armor cap 15: pressure gauge
20: Body 21: High-pressure connector
22: Low pressure connector 25: Pressure gauge
27: pressure recorder 30: pressure applying section
32: Jumper hose 35: Pressure pump
40: differential pressure generating part 42: jumper hose
45: shutoff valve 50: controller
55: extension pipe

Claims (5)

1. An apparatus for testing by applying pressure to a high-pressure pipe (11) and a low-pressure pipe (12)
A main body 20 having a high-pressure connecting pipe 21 and a low-pressure connecting pipe 22 connected to the high-pressure pipe 11 and the low-pressure pipe 12, respectively;
A pressure applying unit 30 having a pressure pump 35 connected to the high-pressure connecting pipe 21 by piping on the main body 20; And
And a differential pressure generator (40) connected to the main body (20) by piping between the high pressure connection pipe (21) and the low pressure connection pipe (22). The method according to claim 1,
Wherein the piping of the pressure applying unit (30) and the pressure difference generating unit (40) uses a jumper hose. The method according to claim 1,
Wherein the differential pressure generating part (40) uses a valve of a direct or pilot type. The method of claim 3,
Wherein the differential pressure generating unit (40) further comprises an electrically driven actuator for fine adjustment of the differential pressure. The method of claim 3,
The differential pressure generating unit 40 is connected to the pressure recorder 27 and the controller 50 so as to maintain a predetermined differential pressure between the high pressure pipe 11 and the low pressure pipe 12. [ .

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