CN211203666U - Pipeline detection device - Google Patents

Abstract

The utility model relates to an engineering equipment field, concretely relates to pipeline detection device, including sending device, storage device, force pump, pipeline, detection device, first valve, force pump and first valve fixed connection, first valve and sending device fixed connection, sending device and detection device are connected, and sending device and pipeline fixed connection, pipeline and storage device fixed connection can automated inspection and location defect, have reached reduce cost, the purpose of raising efficiency.

Description

Pipeline detection device

Technical Field

The utility model relates to a pipeline engineering equipment field, concretely relates to pipeline detection device.

Background

Gas and liquid are transported through pipelines, which require defect testing.

At present, gas and liquid conveying pipeline tests are often carried out on site, the operation is complex, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a convenient pipeline inspection device.

A pipeline inspection device comprises

A transmitting device;

a storage device;

a pressure pump;

a pipeline;

a detection device;

a first valve;

the pressure pump is connected with the first valve;

the first valve is connected with the sending device;

the sending device is connected with the detecting device;

the sending device is connected with the pipeline;

the pipeline is connected with the containing device.

Preferably, the pipeline detection device further comprises a first pressure tank;

one end of the first pressure tank is connected with the first valve, and the other end of the first pressure tank is connected with the sending device.

Preferably, the pipeline detection device further comprises a second valve;

one end of the second valve is connected with the first pressure tank, and the other end of the second valve is connected with the sending device.

Preferably, the pipeline detection device further comprises a third valve;

one end of the third valve is connected with the second valve, and the other end of the third valve is connected with the sending device.

Preferably, the pipeline detection device further comprises a fourth valve;

one end of the fourth valve is connected with the sending device, and the other end of the fourth valve is connected with the pipeline. Preferably, the pipeline detection device further comprises a fifth valve;

one end of the fifth valve is connected with the containing device, and the other end of the fifth valve is connected with the pipeline. Preferably, the pipeline detection device further comprises a gas compression device;

a gas drying device;

a second pressure tank;

a seventh valve;

the gas compression device is connected with the gas drying device;

the drying device is connected with the second pressure tank;

the second pressure tank is connected with the seventh valve;

the seventh valve is connected to the third valve.

Preferably, the pipeline detection device further comprises a sixth valve;

one end of the sixth valve is connected to the storage device, and the other end of the sixth valve is connected to the seventh valve, the second valve, and the third valve.

Preferably, the pipeline detection device further comprises an eighth valve;

a ninth valve;

one end of the eighth valve is connected with the drying device, and the other end of the eighth valve is connected with the second pressure tank;

one end of the ninth valve is connected with the drying device, and the other end of the ninth valve is connected with the gas compression device.

Preferably, the pipeline detection device further comprises an inner detection ground mark;

tracking a position finder;

a ground penetrating radar device;

a radio frequency device;

the inner detection ground mark is connected with the detection device;

the tracking locator is connected with the detection device;

the ground penetrating radar device is connected with the detection device;

the radio frequency device is connected with the detection device.

Since the technical scheme is used, the beneficial effects of the utility model are that:

the pipeline to be detected is connected to the pipeline detection device, so that the pipeline defect can be automatically detected and positioned, and the gas and liquid pipelines can be detected, thereby achieving the purposes of reducing the cost and improving the efficiency.

Drawings

Fig. 1 is a schematic view of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Examples

As shown in fig. 1, the pipeline detection device comprises a sending device 3, a receiving device 4, a pressure pump 15, a pipeline 22, a detection device 23 and a first valve 14, wherein the pressure pump 15 is fixedly connected with the first valve 14, the first valve 14 is fixedly connected with the sending device 3, the sending device 3 is connected with the detection device 23, the sending device 3 is fixedly connected with the pipeline 22, and the pipeline 22 is fixedly connected with the receiving device 4.

The pipeline detection device further comprises a first pressure tank 7, one end of the first pressure tank 7 is fixedly connected with the first valve 14, and the other end of the first pressure tank 7 is fixedly connected with the sending device 3.

The pipeline detection device further comprises a second valve 6, one end of the second valve 6 is fixedly connected with the first pressure tank 7, and the other end of the second valve 6 is fixedly connected with the sending device 3.

The pipeline detection device further comprises a third valve 5, one end of the third valve 5 is fixedly connected with the second valve 6, and the other end of the third valve 5 is fixedly connected with the sending device 3.

The pipeline detection device further comprises a fourth valve 2, one end of the fourth valve 2 is connected with the sending device 3, and the other end of the fourth valve 2 is connected with the pipeline 22.

The pipeline detection device further comprises a fifth valve 21, one end of the fifth valve 21 is fixedly connected with the containing device 4, and the other end of the fifth valve 21 is fixedly connected with the pipeline 22.

The pipeline detection device further comprises a gas compression device 8, a gas drying device 10, a second pressure tank 11 and a seventh valve 13, wherein the gas compression device 8 is connected with the gas drying device 10, the drying device 10 is connected with the second pressure tank 11, the second pressure tank 11 is fixedly connected with the seventh valve 13, and the seventh valve 13 is fixedly connected with the third valve 5.

The pipeline detection device further comprises a sixth valve 16, one end of the sixth valve 16 is fixedly connected with the containing device 4, and the other end of the sixth valve 16 is fixedly connected with the seventh valve 13, the second valve 6 and the third valve 5.

The pipeline detection device further comprises an eighth valve 12 and a ninth valve 9, one end of the eighth valve 12 is fixedly connected with the drying device 10, the other end of the eighth valve 12 is fixedly connected with the second pressure tank 11, one end of the ninth valve 9 is fixedly connected with the drying device 10, and the other end of the ninth valve 9 is fixedly connected with the gas compression device 8.

The pipeline detection device further comprises an internal detection ground mark 17, a tracking locator 18, a ground penetrating radar device 19 and a radio frequency device 20, wherein the internal detection ground mark 17 is in wireless connection with the detection device 23, the tracking locator 18 is in wireless connection with the detection device 23, the ground penetrating radar device 19 is in wireless connection with the detection device 23, and the radio frequency device 20 is in wireless connection with the detection device 23.

The pipeline detection device further comprises a tenth valve 1, and the tenth valve 1 is fixedly connected with the fifth valve 21 and the pipeline 22.

The working steps of the liquid pipeline detection device are as follows:

1. the detected pipeline is connected with the pipeline 22;

2. the detection device 23 is placed in the transmission device 3;

3. opening the first valve 14, the second valve 6, the third valve 5, the fourth valve 2 and the fifth valve 21;

4. closing the sixth valve 16, the seventh valve 13, the tenth valve 1;

5. starting the pressure pump 15;

6. the detection device 23 is sent from the sending device 3 and passes through the detected pipeline;

7. the information of the detection device 23 is received by the detection ground mark 17, the tracking locator 18, the ground penetrating radar device 19 and the radio frequency device 20.

The working steps of the gas pipeline detection device are as follows:

1. the detected pipeline is connected with the pipeline 22;

2. the detection device 23 is placed in the transmission device 3;

3. opening the third valve 5, the seventh valve 6, the eighth valve 12, the ninth valve 9, the fourth valve 2 and the fifth valve 21;

4. closing the sixth valve 16, the second valve 13, the tenth valve 1;

5. starting the gas compression device 8;

6. the detection device 23 is sent from the sending device 3 and passes through the detected pipeline;

7. the information of the detection device 23 is received by the detection ground mark 17, the tracking locator 18, the ground penetrating radar device 19 and the radio frequency device 20.

The pipeline to be detected is connected to the pipeline detection device, so that the pipeline defect can be automatically detected and positioned, and the gas and liquid pipelines can be detected, thereby achieving the purposes of reducing the cost and improving the efficiency.

In summary, the above description is only a preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (10)

1. A pipeline inspection device comprises

A transmitting device;

a storage device;

a pressure pump;

a pipeline;

a detection device;

a first valve;

the pressure pump is connected with the first valve;

the first valve is connected with the sending device;

the sending device is connected with the detecting device;

the sending device is connected with the pipeline;

the pipeline is connected with the containing device.

2. The pipeline inspection device of claim 1, wherein:

also comprises a first pressure tank;

one end of the first pressure tank is connected with the first valve, and the other end of the first pressure tank is connected with the sending device.

3. The pipeline inspection device of claim 2, wherein:

further comprising a second valve;

one end of the second valve is connected with the first pressure tank, and the other end of the second valve is connected with the sending device.

4. The pipeline inspection device of claim 3, wherein:

a third valve is also included;

one end of the third valve is connected with the second valve, and the other end of the third valve is connected with the sending device.

5. The pipeline inspection device of claim 4, wherein:

a fourth valve is also included;

one end of the fourth valve is connected with the sending device, and the other end of the fourth valve is connected with the pipeline.

6. The pipeline inspection device of claim 5, wherein:

a fifth valve;

one end of the fifth valve is connected with the containing device, and the other end of the fifth valve is connected with the pipeline.

7. The pipeline inspection device of claim 6, wherein:

the device also comprises a gas compression device;

a gas drying device;

a second pressure tank;

a seventh valve;

the gas compression device is connected with the gas drying device;

the drying device is connected with the second pressure tank;

the second pressure tank is connected with the seventh valve;

the seventh valve is connected to the third valve.

8. The pipeline inspection device of claim 7, wherein:

a sixth valve;

one end of the sixth valve is connected to the storage device, and the other end of the sixth valve is connected to the seventh valve, the second valve, and the third valve.

9. The pipeline inspection device of claim 8, wherein:

an eighth valve;

a ninth valve;

one end of the eighth valve is connected with the drying device, and the other end of the eighth valve is connected with the second pressure tank;

one end of the ninth valve is connected with the drying device, and the other end of the ninth valve is connected with the gas compression device.

10. The pipeline inspection device of claim 9, wherein:

also includes an inner detection ground mark;

tracking a position finder;

a ground penetrating radar device;

a radio frequency device;

the inner detection ground mark is connected with the detection device;

the tracking locator is connected with the detection device;

the ground penetrating radar device is connected with the detection device;

the radio frequency device is connected with the detection device.

Images