CN205559246U

CN205559246U - Well high -pressure gas compressor unit circulation test device

Info

Publication number: CN205559246U
Application number: CN201620389849.7U
Authority: CN
Inventors: 袁广胜; 于磊; 周脉勇; 鲍玉民; 郑云辉
Original assignee: Anhui Xin Xin Machinery Manufacturing Co Ltd
Current assignee: Anhui Xin Xin Machinery Manufacturing Co Ltd
Priority date: 2016-04-28
Filing date: 2016-04-28
Publication date: 2016-09-07
Anticipated expiration: 2026-04-28

Abstract

The utility model provides a well high -pressure gas compressor unit circulation test device, including gaseous supplementary device, a cooling device, first separator, gas storage device, low pressure gas cylinder group, the 2nd cooling device, gas cylinder group, the second separator, the gas outlet of gaseous supplementary device and the switch -on of a cooling device's air inlet, a cooling device's gas outlet and the switch -on of the air inlet of first separator, the gas outlet of first separator and the switch -on of gas storage device's air inlet, gas storage device's the gas outlet and the air inlet switch -on of low pressure gas cylinder group, the gas outlet of low pressure gas cylinder group and the air inlet switch -on of being surveyed compressor unit, the 2nd cooling device's air inlet and the gas outlet switch -on of being surveyed compressor unit, the 2nd cooling device's gas outlet and the switch -on of the air inlet of second separator, the gas outlet of second separator and the air inlet switch -on of gas cylinder group, the gas outlet of gas cylinder group and the air inlet switch -on of low pressure gas cylinder group. The utility model discloses a circulating test device can reach energy saving and consumption reduction.

Description

A kind of mesohigh gas compression unit circulation test device

Technical field

This utility model relates to Compressor Technology field, particularly relates to a kind of mesohigh gas compression unit circulation Assay device.

Background technology

Gas compressor, the suitability is extensive, and mesohigh gas compressor needs detection, test after having equipped, Determine the development product quality of overall process, qualitative parameter and the uniqueness of assessment technique parameter.The most existing In technology, screw machine is the most all used to connect with compressor for mesohigh gas compressor during detection Formula is tested, and input cost is big, it is many to take resource, and noise is big, and to compressor detection complete after, Substantial amounts of detected gas is discharged, the waste energy and not environmentally in air.

Utility model content

Based on technical problem present in background technology, the utility model proposes a kind of mesohigh gas compression Unit circulation test device.

A kind of mesohigh gas compression unit circulation test device that the utility model proposes, supplements including gas Device, the first chiller, the first separator, caisson, low pressure gas cylinder group, the second chiller, Gas cylinder group, the second separator, the gas outlet of gas supplementary device is by the first pipeline and the first cooling dress The air inlet put connects, and the second pipeline and the air inlet of the first separator are passed through in the gas outlet of the first chiller Connecting, the gas outlet of the first separator is connected with the air inlet of caisson by the 3rd pipeline, caisson Gas outlet be connected with the air inlet of low pressure gas cylinder group by the 4th pipeline, the gas outlet of low pressure gas cylinder group is passed through 5th pipeline is connected with the air inlet of tested compressor group；The air inlet of the second chiller passes through the 6th pipeline Being connected with the gas outlet of tested compressor group, the gas outlet of the second chiller is by the 7th pipeline and second point Air inlet from device connects, and the gas outlet of the second separator is by the air inlet of the 8th pipeline with gas cylinder group Connecting, the gas outlet of gas cylinder group is connected by the air inlet of the 9th pipeline with low pressure gas cylinder group.

Preferably, the 3rd pipeline between the first separator and caisson is provided with the first stop valve.

Preferably, the 4th pipeline between caisson and low pressure gas cylinder group is provided with the second stop valve.

Preferably, the 5th pipeline between low pressure gas cylinder group and tested compressor group be provided with the 3rd stop valve, First Pressure gauge, the first thermometer.

Preferably, the 8th pipeline between the second separator and gas cylinder group is provided with the 4th stop valve.

Preferably, the 9th pipeline between gas cylinder group and low pressure gas cylinder group is provided with high-pressure pressure-reducing valve.

Preferably, the second chiller uses high pressure coiled pipe cooler, the second chiller and tested compressor The 6th pipeline between group is provided with the second thermometer.

Preferably, it is provided with tubular gas effusion meter at the gas outlet of the second separator.

Preferably, the first chiller uses shell and tube cooler.

Preferably, caisson connecting and has purging to manage, purging pipe is provided with valve and the second Pressure gauge.

The mesohigh gas compression unit circulation test device technological process that the utility model proposes is as follows: gas Supplementary device is sent into the first separator after being cooled down by the first chiller by gas after starting and is carried out aqueous vapor Separating, in then gas enters caisson, caisson feeds gas into low pressure gas cylinder group, then gas Enter tested mesohigh gas compressor, start tested compressor group and test, when tested compressor group Intake and exhaust pressure reach setting after, close gas supplementary device；Air inlet pressure when tested compressor bank When power is less than setting, source of the gas supplementary device can be restarted to supplement source of the gas, once reach required After force value, gas supplementary device can be closed；By arrange the second chiller, gas cylinder group, Two separators, after tested compressor group has been tested, tested compressor group is by the mesohigh gas after compression Body is sent into and is entered the second separator after the second chiller cools down and carry out aqueous vapor separation, and then gas enters Gas cylinder group, finally enters in low pressure gas cylinder group, gas circulating flow.This utility model uses circulating Assay device, it is possible to reach energy-saving and cost-reducing, repetition test, in testing it is observed that gas temperature, Gas flow and the change of pressure, can reduce noise, input cost is few, it is little to take up room, test simultaneously The features such as effect is obvious.

Accompanying drawing explanation

Fig. 1 is a kind of mesohigh gas compression unit circulation test device structural representation that the utility model proposes Figure；

Fig. 2 is a kind of mesohigh gas compression unit circulation test device technological process that the utility model proposes Figure.

Detailed description of the invention

With reference to Fig. 1, Fig. 2, the utility model proposes a kind of mesohigh gas compression unit circulation test device, Including gas supplementary device the 1, first chiller the 2, first separator 3, caisson 4, low pressure gas cylinder Group the 5, second chiller 12, gas cylinder group the 13, second separator 14, wherein:

The gas outlet of gas supplementary device 1 is connected by the air inlet of the first pipeline and the first chiller 2. The gas outlet of the first chiller 2 is connected by the air inlet of the second pipeline and the first separator 3, this enforcement In example, the first chiller 2 uses shell and tube cooler.The 3rd pipeline is passed through in the gas outlet of the first separator 3 Connect with the air inlet of caisson 4, the 3rd pipeline between the first separator 3 and caisson 4 sets There is the first stop valve 7.The gas outlet of caisson 4 is connect by the air inlet of the 4th pipeline with low pressure gas cylinder group 5 Logical, the 4th pipeline between caisson 4 and low pressure gas cylinder group 5 is provided with the second stop valve 8.Low pressure gas cylinder The gas outlet of group 5 is connected by the air inlet of the 5th pipeline and tested compressor group 6, low pressure gas cylinder group 5 with The 5th pipeline between tested compressor group 6 is provided with the 3rd stop valve the 9, first Pressure gauge the 10, first temperature Degree table 11.The air inlet of the second chiller 12 is connect by the gas outlet of the 6th pipeline with tested compressor group 6 Logical, the second chiller 12 uses high pressure coiled pipe cooler, the second chiller 12 and tested compressor group 6 Between the 6th pipeline be provided with the second thermometer 17.The 7th pipeline is passed through in the gas outlet of the second chiller 12 Connect with the air inlet of the second separator 14.The 8th pipeline and high pressure is passed through in the gas outlet of the second separator 14 The air inlet of gas cylinder group 13 is connected, and is provided with tubular gas effusion meter 18 at the gas outlet of the second separator 14, The 8th pipeline between second separator 14 and gas cylinder group 13 is provided with the 4th stop valve 15.High pressure gas The gas outlet of bottle group 13 is connected by the air inlet of the 9th pipeline with low pressure gas cylinder group 5, gas cylinder group 13 And the 9th pipeline between low pressure gas cylinder group 5 is provided with high-pressure pressure-reducing valve 16.

In the present embodiment, caisson 4 connects and has purging pipe 19, purging pipe 19 to be provided with valve 20 and second Pressure gauge 21.

The present embodiment technological process is as follows: gas is passed through the first chiller 2 after starting by gas supplementary device 1 Sending into the first separator 3 after cooling down and carry out aqueous vapor separation, open the first stop valve 7, gas enters gas storage In device 4, opening the second stop valve 8, gas sends into low pressure gas cylinder group 5, opens gas after the 3rd stop valve 9 Body enters tested mesohigh gas compressor 6, starts tested compressor group 6 and tests；When gas reaches Close gas supplementary device 1 after setting, close the second stop valve 8；Air inlet when tested compressor bank 6 When pressure is less than setting, source of the gas supplementary device 1 can be restarted to supplement source of the gas, once reach required After the force value wanted, gas supplementary device 1 can be closed；Tested compressor group 6 is by the mesohigh gas after compression Body is sent into the second chiller 12 and is cooled down, and then gas enters the second separator 14 and carries out aqueous vapor separation, After opening the 4th stop valve 15, gas enters gas cylinder group 13, finally enters in low pressure gas cylinder group 5, gas Circulate, after the intake and exhaust pressure of tested compressor group 6 reaches setting, close gas supplementary device 1, And close the first stop valve 7 and the second stop valve 8.

A kind of mesohigh gas compression unit circulation test device that the utility model proposes, with circulating examination Experiment device, it is possible to reach energy-saving and cost-reducing, repetition test, in testing it is observed that gas temperature, gas Flow and the change of pressure, simultaneously can reduce noise, input cost is few, take up room little, test effect The feature such as substantially.

The above, only this utility model preferably detailed description of the invention, but protection model of the present utility model Enclose and be not limited thereto, the technology model that any those familiar with the art discloses at this utility model In enclosing, conceive in addition equivalent or change according to the technical solution of the utility model and utility model thereof, all Should contain within protection domain of the present utility model.

Claims

1. a mesohigh gas compression unit circulation test device, it is characterised in that include that gas supplements dress Put (1), the first chiller (2), the first separator (3), caisson (4), low pressure gas cylinder group (5), Second chiller (12), gas cylinder group (13), the second separator (14), gas supplementary device (1) The gas outlet air inlet connection by the first pipeline and the first chiller (2), the first chiller (2) The gas outlet air inlet connection by the second pipeline and the first separator (3), the first separator (3) Gas outlet is connected by the air inlet of the 3rd pipeline with caisson (4), the gas outlet of caisson (4) Being connected by the air inlet of the 4th pipeline with low pressure gas cylinder group (5), the gas outlet of low pressure gas cylinder group (5) leads to Cross the air inlet connection of the 5th pipeline and tested compressor group (6)；The air inlet of the second chiller (12) is led to Cross the gas outlet connection of the 6th pipeline and tested compressor group (6), the gas outlet of the second chiller (12) Connected by the air inlet of the 7th pipeline and the second separator (14), the gas outlet of the second separator (14) Connected by the air inlet of the 8th pipeline with gas cylinder group (13), the gas outlet of gas cylinder group (13) Connected by the air inlet of the 9th pipeline with low pressure gas cylinder group (5).

Mesohigh gas compression unit circulation test device the most according to claim 1, its feature exists In, the 3rd pipeline between the first separator (3) and caisson (4) is provided with the first stop valve (7).

Mesohigh gas compression unit circulation test device the most according to claim 1, its feature exists In, the 4th pipeline between caisson (4) and low pressure gas cylinder group (5) is provided with the second stop valve (8).

4. according to the mesohigh gas compression unit circulation test device according to any one of claim 1-3, It is characterized in that, the 5th pipeline between low pressure gas cylinder group (5) and tested compressor group (6) is provided with Three stop valves (9), the first Pressure gauge (10), the first thermometer (11).

5. according to the mesohigh gas compression unit circulation test device according to any one of claim 1-3, It is characterized in that, the 8th pipeline between the second separator (14) and gas cylinder group (13) is provided with Four stop valves (15).

6. according to the mesohigh gas compression unit circulation test device according to any one of claim 1-3, It is characterized in that, the 9th pipeline between gas cylinder group (13) and low pressure gas cylinder group (5) is provided with high pressure Air relief valve (16).

7. according to the mesohigh gas compression unit circulation test device according to any one of claim 1-3, It is characterized in that, the second chiller (12) uses high pressure coiled pipe cooler, the second chiller (12) And the 6th pipeline between tested compressor group (6) is provided with the second thermometer (17).

8. according to the mesohigh gas compression unit circulation test device according to any one of claim 1-3, It is characterized in that, at the gas outlet of the second separator (14), be provided with tubular gas effusion meter (18).

9. according to the mesohigh gas compression unit circulation test device according to any one of claim 1-3, It is characterized in that, the first chiller (2) uses shell and tube cooler.

10. according to the mesohigh gas compression unit circulation test device according to any one of claim 1-3, It is characterized in that, the upper connection of caisson (4) has purging to manage (19), and purging pipe (19) is provided with Valve (20) and the second Pressure gauge (21).