CN213629913U - Novel sand mixing truck pipeline device - Google Patents

Abstract

The utility model provides a novel fracturing blender truck pipeline device relates to oil equipment technical field, has solved and can not carry out the problem of work according to the different suction drainage mode of on-the-spot space size selection. The utility model comprises a suction manifold, a discharge manifold, a butterfly valve and a pipeline; the suction manifold comprises a left suction manifold and a right suction manifold, the discharge manifold comprises a left discharge manifold and a right discharge manifold, the pipeline communicates the left discharge manifold, the right discharge manifold, the left suction manifold and the right suction manifold, and the butterfly valve is arranged on the pipeline. Adopt the technical scheme of the utility model can realize that the homonymy inhales homonymy and discharges, the unilateral inhales the heteronymy and discharges, the unilateral inhales two side discharges and two side exhaust functions of inhaling to reach and to save workspace's effect when can carrying out the operation according to on-the-spot selection one or multiple function.

Description

Novel sand mixing truck pipeline device

Technical Field

The utility model relates to a petroleum equipment technical field, concretely relates to novel roller mill pipeline device.

Background

The sand mixing truck is a main matched device for oil field fracturing and sand prevention operation, and is mainly used for mixing, stirring and conveying sand liquid and other media required by fracturing operation. In the distribution of the actual sand mixing truck pipeline device, a plurality of sand mixing truck pipelines are all used for sucking fracturing fluid from a manifold on one side and discharging the fracturing fluid from a manifold on the other side of a vehicle body; or sucked from a manifold on one side and discharged from a manifold on the same side of the vehicle body. This requires sufficient room for the well site to be deployed and requires replacement of the blender truck if ipsilateral or contralateral discharge is selected; the sand mixing truck pipeline device requires larger space and is inconvenient to operate.

SUMMERY OF THE UTILITY MODEL

Based on above technical problem, the utility model provides a novel fracturing blender truck pipeline device has solved and can not select the different suction drainage mode to carry out the problem of work according to the site space size.

In order to solve the above problem, the utility model discloses a technical scheme as follows:

a novel sand mixing truck pipeline device comprises a suction manifold, a discharge manifold, a butterfly valve and a pipeline. The suction manifold comprises a left suction manifold and a right suction manifold, and the discharge manifold comprises a left discharge manifold and a right discharge manifold; the pipelines comprise a first pipeline, a second pipeline and a third pipeline; the butterfly valve includes first butterfly valve, second butterfly valve, third butterfly valve, fourth butterfly valve and fifth butterfly valve. The first pipeline is connected with the left discharge manifold and the right discharge manifold, the second pipeline is connected with the left suction manifold and the first pipeline, and the third pipeline is connected with the right suction manifold and the first pipeline. First butterfly valve, second butterfly valve and third butterfly valve all set up on first pipeline, and the fourth butterfly valve setting is on the second pipeline, and the fifth butterfly valve setting is on the third pipeline. Wherein, the interface of second pipeline and first pipeline is located between first butterfly valve and the second butterfly valve, and the interface of third pipeline and first pipeline is located between second butterfly valve and the third butterfly valve.

Further, the intake manifold includes a plurality of intake ports, and the exhaust manifold includes a plurality of exhaust ports.

Further, the pipeline is a carbon steel circular pipeline.

Furthermore, the second pipeline and the first pipeline are connected through a tee joint, and the third pipeline and the first pipeline are connected through a tee joint.

Furthermore, the pipeline and the suction manifold and the pipeline and the discharge manifold are connected through flanges.

Further, the pipeline and the butterfly valve are connected through flanges.

Further, the butterfly valve is controlled manually and/or hydraulically and/or pneumatically.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model provides a novel fracturing blender truck pipe device adopts pipeline intercommunication and butterfly valve transfer control's mode, can realize that the homonymy inhales that the homonymy is discharged, the unilateral inhales that the heteronymy is discharged, the unilateral inhales two side discharges and two side exhaust functions of inhaling to reach and to select one kind or multiple function to carry out the effect of operation according to the site space size.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Wherein: 1-left exhaust manifold, 2-right exhaust manifold, 3-left intake manifold, 4-right intake manifold, 5-first pipe, 6-second pipe, 7-third pipe, 8-first butterfly valve, 9-second butterfly valve, 10-third butterfly valve, 11-fourth butterfly valve, 12-fifth butterfly valve.

Detailed Description

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Please refer to fig. 1. The utility model discloses a left side discharge manifold 1, right side discharge manifold 2, left side suction manifold 3 and right side suction manifold 4. The left discharge manifold 1 and the right discharge manifold 2 are connected through a first pipeline 5, a second pipeline 6 is connected with the left suction manifold 3 and the first pipeline 5, and a third pipeline 7 is connected with the right suction manifold 4 and the first pipeline 5. Meanwhile, the pipelines are connected with the manifold through flanges, and the pipelines are connected with each other through tee joints.

Further, the first pipe 5 is provided with a first butterfly valve 8, a second butterfly valve 9, and a third butterfly valve 10, the second pipe 6 is provided with a fourth butterfly valve 11, and the third pipe 7 is provided with a fifth butterfly valve 12. Meanwhile, the pipeline and the butterfly valve are connected through flanges.

In the above scheme, the connection position of the second pipeline 6 and the first pipeline 5 is located between the first butterfly valve 8 and the second butterfly valve 9, and the connection position of the third pipeline 7 and the first pipeline 5 is located between the second butterfly valve 9 and the third butterfly valve 10.

The butterfly valve can be controlled in one or more modes of manual operation, starting operation or hydraulic operation.

Example 1

The first butterfly valve 8 and the fourth butterfly valve 11 are opened, the second butterfly valve 9, the third butterfly valve 10 and the fifth butterfly valve 12 are closed at the same time, fracturing fluid is sucked in from the left suction manifold 3, passes through the second pipeline 6 and the pipeline part where the first butterfly valve 8 is located in the first pipeline 5, and is finally discharged from the left discharge manifold 1. The working process realizes the functions of sucking the fracturing fluid from the left side and discharging the fracturing fluid from the left side in the fracturing blender truck.

The third butterfly valve 10 and the fifth butterfly valve 12 are opened, the first butterfly valve 8, the second butterfly valve 9 and the fourth butterfly valve 11 are closed at the same time, and the fracturing fluid is sucked from the right suction manifold 4, passes through the third pipeline 7 and the pipeline part where the third butterfly valve 10 is located in the first pipeline 5, and is finally discharged from the right discharge manifold 2. The working process realizes the functions of sucking fracturing fluid from the right side and discharging the fracturing fluid from the right side in the fracturing blender truck.

The two working flows realize the functions of sucking fracturing fluid from one side and discharging the fracturing fluid from the same side in the fracturing blender truck.

Example 2

The second butterfly valve 9, the third butterfly valve 10 and the fourth butterfly valve 11 are opened, the first butterfly valve 8 and the fifth butterfly valve 12 are closed, the fracturing fluid is sucked from the left suction manifold 3, passes through the second pipeline and the pipeline part of the first pipeline 5 where the second butterfly valve 9 and the third butterfly valve 10 are located, and is finally discharged from the right discharge manifold 2. The working process realizes the functions of sucking the fracturing fluid from the left side and discharging the fracturing fluid from the right side in the fracturing blender truck.

The first butterfly valve 8, the second butterfly valve 9 and the fifth butterfly valve 12 are opened, the third butterfly valve 10 and the fourth butterfly valve 11 are closed, the fracturing fluid is sucked from the right suction manifold 4, passes through the third pipeline 7 and the pipeline part of the first pipeline 5 where the second butterfly valve 9 and the first butterfly valve 8 are located, and is finally discharged from the left discharge manifold 1. The working process realizes the functions of sucking fracturing fluid from the right side and discharging the fracturing fluid from the left side in the fracturing blender truck.

The two working procedures realize the functions of sucking fracturing fluid from one side and discharging the fracturing fluid from the opposite side in the fracturing blender truck.

Example 3

The first butterfly valve 8, the second butterfly valve 9, the third butterfly valve 10 and the fourth butterfly valve 11 are opened, the fifth butterfly valve 12 is closed, and the fracturing fluid is sucked from the left suction manifold 3, passes through the second pipeline 6 and the first pipeline 5, and is finally discharged from the left discharge manifold 1 and the right discharge manifold 2. The working process realizes the functions of sucking fracturing fluid from the left side and discharging the fracturing fluid from the two sides in the fracturing blender truck.

The first butterfly valve 8, the second butterfly valve 9, the third butterfly valve 10 and the fifth butterfly valve 12 are opened, the fourth butterfly valve 11 is closed, and the fracturing fluid is sucked from the right suction manifold 4, passes through the third pipeline 7 and the first pipeline 5, and is finally discharged from the left discharge manifold 1 and the right discharge manifold 2. The working process realizes the functions of sucking fracturing fluid from the right side and discharging the fracturing fluid from the two sides in the fracturing blender truck.

The two working procedures realize the functions of sucking fracturing fluid from one side and discharging the fracturing fluid from two sides in the fracturing blender truck.

Example 4

The first butterfly valve 8, the second butterfly valve 9, the third butterfly valve 10, the third butterfly valve 11 and the fifth butterfly valve 12 are all opened, fracturing fluid is sucked from the left suction manifold 3 and the right suction manifold 4, the fracturing fluid flows into the first pipeline 5 through the second pipeline 6 and the third pipeline 7, and then is discharged from the left discharge manifold 1 and the right discharge manifold 2 through the first pipeline 5.

The working process realizes the functions of sucking fracturing fluid from two sides and discharging the fracturing fluid from two sides in the fracturing blender truck.

Claims (7)

1. A novel sand mixing truck pipeline device comprises a suction manifold, a discharge manifold, a butterfly valve and a pipeline, and is characterized in that the suction manifold comprises a left suction manifold (3) and a right suction manifold (4), and the discharge manifold comprises a left discharge manifold (1) and a right discharge manifold (2); the conduits comprise a first conduit (5), a second conduit (6) and a third conduit (7); the butterfly valve comprises a first butterfly valve (8), a second butterfly valve (9), a third butterfly valve (10), a fourth butterfly valve (11) and a fifth butterfly valve (12); the first pipeline (5) is connected with the left discharge manifold (1) and the right discharge manifold (2), the second pipeline (6) is connected with the left suction manifold (3) and the first pipeline (5), and the third pipeline (7) is connected with the right suction manifold (4) and the first pipeline (5); the first butterfly valve (8), the second butterfly valve (9) and the third butterfly valve (10) are all arranged on the first pipeline (5), the fourth butterfly valve (11) is arranged on the second pipeline (6), and the fifth butterfly valve (12) is arranged on the third pipeline (7); the interface of the second pipeline (6) and the first pipeline (5) is positioned between the first butterfly valve (8) and the second butterfly valve (9), and the interface of the third pipeline (7) and the first pipeline (5) is positioned between the second butterfly valve (9) and the third butterfly valve (10).

2. The novel sand mixing truck pipe arrangement as claimed in claim 1, wherein the suction manifold comprises a plurality of suction ports and the discharge manifold comprises a plurality of discharge ports.

3. The novel sand mixing truck pipeline device as claimed in claim 1, wherein the pipeline is a carbon steel circular pipeline.

4. A novel sand mixing truck pipeline device according to claim 1, characterized in that the second pipeline (6) and the first pipeline (5) and the third pipeline (7) and the first pipeline are connected by a tee.

5. The novel sand mixing truck pipeline device as claimed in claim 1, wherein the pipeline is connected with the suction manifold and the discharge manifold through flanges.

6. The novel sand mixing truck pipeline device as claimed in claim 1, wherein the pipeline and the butterfly valve are connected through a flange.

7. The novel sand mixing truck pipeline device according to claim 1, characterized in that the butterfly valve is controlled manually and/or hydraulically and/or pneumatically.

Images