CN212230972U - Pipe penetrating device for pipeline - Google Patents

Abstract

A pipe threading device comprising: a first pipe penetration member for penetrating in the target pipe; a first pneumatic member that can eject gas that can be ejected onto the first perforated member and can blow the first perforated member to move in a target duct; one end of the first rope is connected with the first pipe penetrating piece; the first recovery piece is connected with one end, far away from the first pipe penetrating piece, of the first rope, and the first pipe penetrating piece can be pulled to return to a preset position after being blown to a target position by the first pneumatic piece. When the embodiment is used, a worker only needs to place the inlet of the pipeline at the position of the first pipe penetrating piece, the target cable and the first pipe penetrating piece are connected and separated on two sides, the cable does not need to be penetrated into the target pipeline a little, and the pipe penetrating time of the worker is saved when the cable penetrates into the pipeline.

Description

Pipe penetrating device for pipeline

Technical Field

The utility model relates to a pipeline tool especially relates to a pipeline poling device.

Background

The pipe is a device which is formed by connecting pipes, pipe connectors, valves and the like and used for conveying gas, liquid or fluid with solid particles, and the pipe can also be used for protecting cables, such as corrugated pipes or cable pipes, wherein when the corrugated pipes or the cable pipes are used, the cables penetrate into the pipe, and the pipe protects the cables.

At present, a method for penetrating a cable into a pipeline is manual pipe penetration, and the specific method is that a worker penetrates the cable at one end of the pipeline, then force is applied to the cable outside the pipeline, and the cable penetrates the pipeline little by little.

When adopting present artificial mode poling, if the pipeline is shorter, during the staff can not take effort penetrate the pipeline with the cable, but if the pipeline that will wear is more or longer, then can consume the staff a large amount of time.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome artifical poling and consume the technical problem of time among the prior art, provide a pipeline poling device.

In order to realize the technical purpose, the technical effect is achieved, the utility model discloses a realize through following technical scheme:

a pipe threading device comprising:

a first pipe penetration member for penetrating in the target pipe;

a first pneumatic member that can eject gas that can be ejected onto the first perforated member and can blow the first perforated member to move in a target duct;

one end of the first rope is connected with the first pipe penetrating piece;

the first recovery piece is connected with one end, far away from the first pipe penetrating piece, of the first rope, and the first pipe penetrating piece can be pulled to return to a preset position after being blown to a target position by the first pneumatic piece.

Pipeline poling device, wherein, first recovery piece includes:

a first spool on which one end of the first rope is disposed;

the first driving piece is in transmission connection with the first wire spool.

Pipeline poling device, wherein, first driving piece is first pneumatic motor or driving motor.

Pipeline poling device, wherein, first pneumatic component includes:

the first gas guide valve inlet is used for being connected with an external gas source, and the first pipe penetrating piece is arranged at the gas outlet of the first gas guide valve and can be blown by gas sprayed out of the first gas guide valve.

Pipeline poling device, wherein, first pneumatic component includes:

one end of the first pressure regulating valve is connected with the inlet of the first air guide valve, and the other end of the first pressure regulating valve is used for being connected with an external air source.

Pipeline poling device, wherein, first driving piece is first pneumatic motor, first pneumatic motor with first air guide valve is connected, first air guide valve is the switching-over valve.

Pipeline poling device, wherein, include:

a first housing having;

the first accommodating space is arranged in a closed mode, and the first wire spool is rotatably arranged in the first accommodating space;

one end of the first outlet is connected with the first accommodating space, the other end of the first outlet is communicated with an external space, and the first pipe penetrating piece is arranged at the first outlet;

one end of the first inlet is connected with the first accommodating space, and the other end of the first inlet is connected with the first air guide valve.

Pipeline poling device, wherein, first pneumatic component includes:

a second housing having:

the first wire spool is rotatably arranged in the first accommodating space;

one end of the second outlet is connected with the second accommodating space, the other end of the second outlet is communicated with the external space, and the first pipe penetrating piece is arranged at the second outlet;

and one end of the second inlet is connected with the second accommodating space, and the other end of the second inlet is connected with an external air source.

Pipeline poling device, wherein, first pneumatic component includes:

a first gas supply connected to the second inlet for supplying gas to the second inlet.

Pipeline poling device, wherein, include:

and the second air supply part is connected with the first air guide valve and used for supplying air to the first air guide valve.

Compared with the prior art, the beneficial effects of the utility model are that:

when the embodiment is used, an inlet of a target pipeline is placed and attached to the position of a first pipe penetrating piece, a first air moving piece and the target pipeline form a closed space, the first air moving piece blows the first pipe penetrating piece to move in the target pipeline by means of air, the first pipe penetrating piece moves to the other end of the target pipeline, the first pipe penetrating piece is connected with a target cable, a first recovery piece pulls a first rope, the first rope pulls the first pipe penetrating piece to return to the inlet of the target pipeline, the target cable is pulled out, the target cable is separated from the first pipe penetrating piece, and the target cable penetrates into the target pipeline, when the device is used for pipe penetration, a worker only needs to place the inlet of the pipeline at the position of the first pipe penetrating piece, the target cable and the first pipe penetrating piece are connected and separated on two sides, the cable does not need to penetrate into the target pipeline a little, and the pipe penetrating time of workers is saved when the cable penetrates into the pipeline.

Drawings

Fig. 1 is a schematic view of an embodiment provided by the present invention;

fig. 2 is a schematic view of another embodiment provided by the present invention;

fig. 3 is a schematic view of yet another embodiment provided by the present invention;

Detailed Description

Referring to fig. 1-3, it should be understood by those skilled in the art that the terms "upper", "lower", "one end", "the other end", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only used for convenience of description and simplification of description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms should not be construed as limiting the present invention.

It should be noted that, at present, a method for threading a cable into a pipeline is to manually thread a pipe, and specifically, a worker threads the cable into one end of the pipeline, and then applies a force to the cable outside the pipeline to thread the cable into the pipeline little by little.

When adopting present artificial mode poling, if the pipeline is shorter, during the staff can not take effort penetrate the pipeline with the cable, but if the pipeline that will wear is more or longer, then can consume the staff a large amount of time.

Based on this, the present embodiment provides a pipe threading device, including:

a first penetration member 100 for penetrating in the target pipe;

the first air moving member 200, the first air moving member 200 can eject the gas, and the gas can eject the first penetrating member 100 and can blow the first penetrating member 100 to move in the target pipeline;

a first rope 300 having one end connected to the first penetration member 100;

the first recovery member 400, the first recovery member 400 is connected to an end of the first rope 300 away from the first penetrating member 100, and can pull the first penetrating member 100 to return to a predetermined position after the first penetrating member 100 is blown to a target position by the first pneumatic member 200.

When the embodiment is used, an inlet of a target pipeline is placed at the position of a first pipe penetrating piece to be attached tightly, the first air moving piece and the target pipeline form a closed space, the first air moving piece 200 blows the first pipe penetrating piece 100 to move in the target pipeline by means of air, the first pipe penetrating piece 100 moves to the other end of the target pipeline, the first pipe penetrating piece 100 is connected with a target cable, the first recovery piece 400 pulls the first rope 300, the first rope 300 pulls the first pipe penetrating piece 100 to return to the inlet of the target pipeline, the target cable is pulled out, the target cable is separated from the first pipe penetrating piece, and the target cable penetrates into the target pipeline, when the device is used for pipe penetration, a worker only needs to place the inlet of the pipeline at the position of the first pipe penetrating piece 100, the target cable and the first pipe penetrating piece are connected and separated on two sides, the cable does not need to penetrate into the target pipeline a little, and the pipe penetrating time of workers is saved when the cable penetrates into the pipeline.

It should be noted that, the target pipeline is a pipeline through which a cable needs to be inserted, the target cable is a cable which needs to be inserted into the pipeline, the first pipe penetrating piece may be a three-dimensional piece, when the target cable is connected with the first pipe penetrating piece, the cable may be wound on the three-dimensional piece or may be adhered by glue, or the cable may be fixed to the three-dimensional piece by a clip, but not limited thereto, the target position is the other end of the target pipeline, the preset position is an initial position of the first pipe penetrating piece, or a position at an inlet of the target pipeline and outside the target pipeline, the first rope may be a soft rope, which is not limited herein, in order to ensure airtightness, a gasket may be disposed between the first pneumatic piece and the target pipeline to ensure airtightness, or the airtightness may be ensured by a clamp.

In some embodiments, the first pneumatic member 200 includes:

the first gas guiding valve 210, the inlet of the first gas guiding valve 210 is used for connecting with an external gas source, and the first penetrating pipe 100 is arranged at the gas outlet of the first gas guiding valve 210 and can be blown by the gas sprayed by the first gas guiding valve 210.

The first pipe penetrating piece 100 is arranged at a gas outlet of the first gas guide valve 210, the first gas guide valve is connected with an external gas source, when the first pipe penetrating piece 100 needs to be blown, the first gas guide valve 210 is opened, and the external gas source blows the first pipe penetrating piece 100 to move and further move in a target pipeline.

It should be noted that the external gas source is a high-pressure gas source, the first gas guiding valve 210 is a reversing gas valve or an electromagnetic gas valve, which can control the direction of the gas source and open or close, and can be connected with the external gas source through a gas pipeline when being connected with the external gas source.

In some embodiments, the first pneumatic member 200 includes:

and one end of the first pressure regulating valve 220 is connected with the inlet of the first air guide valve 210, and the other end of the first pressure regulating valve 220 is used for being connected with an external air source.

For example, in order to replace an external air source, a second air supply part may be further provided, where the second air supply part is connected to the first air guide valve and used to supply air to the first air guide valve, and the second air supply part replaces the external air source to supply air to the first air guide valve, and the second air supply part may be implemented by an air pump and an air compressor.

The first pressure regulating valve 220 may be connected to the first gas guiding valve through a pipe, or may be connected to an external gas source through a pipe, and the first pressure regulating valve 220 is used to regulate the gas pressure passing through the first gas guiding valve 210.

In some embodiments, the first recovery element 400 includes:

a first spool 410 on which one end of the first rope 300 is disposed;

the first driving member 420, the first driving member 420 is in transmission connection with the first wire spool 410.

After the first pipe penetrating member moves to one end of the target pipeline and when the first pipe penetrating member 100 needs to be pulled back, the first wire spool 410 is driven to rotate by the first pneumatic driving member 420, the first rope is wound on the first wire spool 410, and the first rope is pulled to pull the first pipe penetrating member back to the preset position.

Illustratively, the first driver 420 is a first pneumatic motor or drive motor.

The pneumatic motor or the driving motor is connected with the first wire spool 410 through the coupler or is in transmission connection with the first wire spool 410 through the gear to drive the first wire spool to rotate and recover the first rope, a one-way bearing can be arranged between the first driving member 420 and the first wire spool in order to enable the rope to move better, so that the first penetrating pipe is not subjected to resistance of the first driving member when moving, the first driving member is the driving motor in fig. 1, and the first driving member is the first pneumatic motor in fig. 2.

It should be noted that the first wire spool may be an existing wire spool.

In some embodiments, the first driver 420 is a first pneumatic motor, and the first pneumatic motor is connected to the first air guide valve 210, which is a directional valve.

When the first driving member is a pneumatic motor, the first gas guiding valve 210 is connected with the first pneumatic motor, and provides power for the first pneumatic motor through an external gas source.

It should be noted that, when the first air guiding valve is a reversing valve, two outlets of the reversing valve are respectively provided with a first pipe penetrating piece and connected with the first pneumatic motor.

In some embodiments, the method comprises:

a first housing 500, the first housing 500 having;

the first accommodating space 510, the first accommodating space 510 is hermetically arranged, and the first wire spool 410 is rotatably arranged in the first accommodating space 510;

a first outlet 520, one end of the first outlet 520 is connected to the first accommodating space 510, and the other end is communicated with the external space, and the first penetrating pipe 100 is disposed at the first outlet 520;

a first inlet 530, wherein one end of the first inlet 530 is connected to the first accommodating space 510, and the other end is connected to the first air guiding valve 210.

As shown in fig. 1-2, the gas in the external gas source enters the first accommodating space through the gas guiding valve, the first pipe penetrating element is blown through the first outlet, the first pipe penetrating element is moved to a corresponding position in the target pipeline, specifically, the inlet of the target pipeline is placed and attached to the position of the first pipe penetrating element, the gasket can be arranged at the inlet of the target pipeline to ensure the gas tightness, the first accommodating space and the target pipeline form a closed space, and the first inlet moves in the target pipeline by blowing the first pipe penetrating element through the gas, and then moves to the corresponding position in the target pipeline.

It should be noted that, the embodiment of the present invention may further include a supporting frame, a bottom plate is disposed on the supporting frame, and the elements of the device of this embodiment are disposed on the bottom plate, so as to facilitate moving the device of this embodiment.

The utility model discloses still provide another embodiment, first pneumatic component 200 includes:

a second housing 230, the second housing 230 having:

the second accommodating space 231 is hermetically arranged, and the first wire spool 410 is rotatably arranged in the second accommodating space 231;

one end of the second outlet 232 is connected to the second accommodating space 231, and the other end of the second outlet 232 is communicated with the external space, and the first pipe penetrating member 100 is disposed at the second outlet 232;

and a second inlet 233, one end of the second inlet 233 being connected to the second receiving space 231, and the other end being connected to an external air source.

As shown in fig. 3, the gas in the external gas source enters the second accommodating space through the second inlet, and blows the first pipe penetrating element through the second outlet, so as to move the first pipe penetrating element to a corresponding position in the target pipeline, specifically, the inlet of the target pipeline is placed and attached to the position of the first pipe penetrating element, the inlet of the target pipeline can be provided with a gasket to ensure air tightness, the second accommodating space and the target pipeline form a closed space, and the second outlet moves in the target pipeline by blowing the first pipe penetrating element through the gas, so as to move to a corresponding position in the target pipeline.

Illustratively, the first pneumatic member 200 includes:

and a first gas supply member 234, the first gas supply member 234 being connected to the second inlet 233 for supplying gas to the second inlet 233.

The first air supplying part 234 supplies air to the second inlet 233, which can replace an external air source, and directly supplies air through the first air supplying part 234, and the first air supplying part 234 can be realized by an air pump or a fan; it should be noted that the embodiment with the first air supply member can be used in the case of no air supply, such as in the field.

The above-mentioned embodiments are only to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (10)

1. A pipe threading device, comprising:

a first pass-through (100) for passing in a target conduit;

a first pneumatic member (200), the first pneumatic member (200) being capable of ejecting gas, and the gas being capable of being ejected onto the first perforated member (100) and blowing the first perforated member (100) to move in a target pipeline;

a first rope (300) having one end connected to the first tubular member (100);

the first recovery piece (400), the first recovery piece (400) is connected with one end, away from the first penetrating piece (100), of the first rope (300), and the first penetrating piece (100) can be pulled to return to a preset position after the first penetrating piece (100) is blown to a target position by the first pneumatic piece (200).

2. The pipelaying device of claim 1, wherein the first recovery member (400) comprises:

a first spool (410), the first cord (300) having one end disposed on the first spool (410);

the first driving piece (420), the first driving piece (420) is connected with the first wire spool (410) in a transmission mode.

3. A pipe threading arrangement according to claim 2, characterized in that the first drive member (420) is a first pneumatic motor or a drive motor.

4. A pipelaying device according to claim 2, characterized in that said first pneumatic member (200) comprises:

the first gas guide valve (210), the inlet of the first gas guide valve (210) is used for being connected with an external gas source, and the first pipe penetrating piece (100) is arranged at the gas outlet of the first gas guide valve (210) and can be blown by gas sprayed out by the first gas guide valve (210).

5. A pipelaying device according to claim 4, characterized in that said first pneumatic member (200) comprises:

one end of the first pressure regulating valve (220) is connected with the inlet of the first air guide valve (210), and the other end of the first pressure regulating valve (220) is connected with an external air source.

6. The pipe threading device of claim 5, wherein the first driving member (420) is a first pneumatic motor, the first pneumatic motor is connected to the first air-guide valve (210), and the first air-guide valve is a reversing valve.

7. A pipelaying device according to either of claims 5 or 6, including:

a first housing (500), the first housing (500) having;

the first accommodating space (510) is hermetically arranged, and the first wire spool (410) is rotatably arranged in the first accommodating space (510);

a first outlet (520), one end of the first outlet (520) is connected with the first accommodating space (510), the other end of the first outlet is communicated with an external space, and the first pipe penetrating piece (100) is arranged at the first outlet (520);

one end of the first inlet (530) is connected with the first accommodating space (510), and the other end of the first inlet (530) is connected with the first air guide valve (210).

8. A pipelaying device according to claim 3, characterized in that said first pneumatic member (200) comprises:

a second housing (230), the second housing (230) having:

the second accommodating space (231), the second accommodating space (231) is arranged in a closed manner, and the first wire spool (410) is rotatably arranged in the second accommodating space;

one end of the second outlet (232) is connected with the second accommodating space (231), the other end of the second outlet (232) is communicated with an external space, and the first pipe penetrating piece (100) is arranged at the second outlet (232);

and one end of the second inlet (233) is connected with the second accommodating space (231), and the other end of the second inlet (233) is connected with an external air source.

9. A pipelaying device according to claim 8, characterized in that said first pneumatic member (200) comprises:

a first gas supply (234), the first gas supply (234) being connected to the second inlet (233) for supplying gas to the second inlet (233).

10. The pipe threading device of claim 4, comprising:

and the second air supply part is connected with the first air guide valve and used for supplying air to the first air guide valve.

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