CN221072838U - Shale gas development automatic water supply unit - Google Patents

Abstract

The utility model discloses an automatic water supply unit for shale gas development, which comprises a control cabinet, a water inlet pipeline electromagnetic valve, a water pump, a water inlet check valve, a water inlet pipeline, a water outlet electromagnetic valve, a water outlet flowmeter, a water outlet pipeline, a water outlet pressure transformer and the like, wherein the water inlet pipeline electromagnetic valve is arranged on the water inlet pipeline through a flange. According to the utility model, the electromagnetic valves are arranged on the pipelines, so that the water supply flow of the pump station can be remotely switched according to the actual water demand of the first-line platform; the water consumption of each platform operation can be measured by installing a flowmeter on the water outlet pipeline; through installing the pressure change on the pipeline, can monitor whether there is the superpressure condition whole water supply flow, once the superpressure, can realize long-range atmospheric pressure release through backward flow pressure release solenoid valve. The automatic water supply unit has the functions of remote control and real-time monitoring, avoids traffic risks among pumping stations of personnel, and solves the problem of untimely linkage among pumping stations.

Description

Shale gas development automatic water supply unit

Technical Field

The utility model relates to the technical field of water supply for shale gas development, in particular to an automatic water supply unit for shale gas development.

Background

Shale gas field exploration and development requires a large amount of water during operations such as fracturing, drilling and the like, and most of operation platforms are far away from water sources such as rivers, reservoirs and the like, so that long-distance water supply pipelines are required to be paved, and a plurality of water supply pump stations are required to be built along the water supply pipelines to provide power. The water supply pump stations are dispersed among mountain forests, traffic risks exist at a long distance, and each pump station needs to be attended during each water supply operation; the pump station needs to be started and stopped manually, a valve is opened and closed, a switching process, flow recording and the like, so that the operation such as fracturing, drilling and the like is continuous for 24 hours without shutdown, and the two-shift falling is also needed to ensure that people always exist.

The water supply operation of the existing shale gas development has the problems of high labor consumption, high traffic risk and untimely linkage of multiple pump stations.

Disclosure of utility model

The utility model aims to provide an automatic shale gas development water supply unit, which aims to solve the problems of high labor consumption, high traffic risk and untimely linkage of multiple pump stations in the existing water supply operation.

The utility model aims at adopting the following technical scheme: the utility model provides an automatic water supply unit of shale gas development, its characterized in that, including switch board, water inlet pipeline solenoid valve, beat the water pump all the way, water inlet check valve all the way, water inlet pipeline, water outlet solenoid valve all the way, water outlet flowmeter all the way, water outlet pipeline and water outlet pressure change all the way, water inlet pipeline solenoid valve passes through flange mounting on water inlet pipeline, water inlet pipeline is connected to water inlet pump water outlet all the way, water inlet pipeline is connected to water inlet pipeline, install water inlet check valve all the way on the water inlet pipeline, water outlet pipeline and water inlet pipeline integrated connection all the way, be provided with water outlet solenoid valve all the way on the water outlet pipeline, water outlet flowmeter all the way, and water outlet pressure change all the way.

Further, the water inlet pipeline is connected with a water inlet pipeline pressure transformer through threads; the water inlet flange, the water inlet two-way flange, the water inlet three-way flange and the water inlet pipeline plugging flange are integrally connected and installed.

Furthermore, the other side of the water inlet flange is connected with a water pumping pump, and the water pumping pump is connected with a water inlet pipeline.

Further, a water inlet pipeline is provided with a water inlet check valve through a flange; and a water outlet pipeline are connected and installed integrally.

Furthermore, one outlet pipeline is provided with one outlet plugging flange and one outlet reflux pipeline through integral connection; a water outlet electromagnetic valve and a water outlet flowmeter are connected and installed through a flange; and a water outlet one-way pressure transformer is installed through threaded connection.

Furthermore, the water outlet one-way backflow pipeline is provided with a water outlet one-way backflow electromagnetic valve through a flange; and a reflux bypass pipeline is installed through integral connection.

Furthermore, the reflux bypass pipeline is connected with the water outlet two-way reflux pipeline and the reflux pressure relief pipeline in an integral connection mode.

Further, the reflux pressure relief pipeline is provided with a reflux pressure relief electromagnetic valve through a flange; and a water outlet two-way reflux pipeline is arranged through integral connection.

Further, a water outlet two-way reflux pipeline is provided with a water outlet two-way reflux electromagnetic valve through a flange; and a water outlet two-way pipeline is arranged through integral connection.

Further, the water outlet two-way pipeline is provided with a water outlet two-way electromagnetic valve and a water outlet two-way flowmeter through flanges; two paths of water outlet pressure changes are arranged through threaded connection; and two water outlet plugging flanges are installed through integral connection.

Furthermore, the one-way water pump, the water inlet pipeline electromagnetic valve, the backflow pressure relief electromagnetic valve, the water outlet one-way backflow electromagnetic valve, the water outlet two-way backflow electromagnetic valve, the water outlet one-way electromagnetic valve, the water outlet two-way electromagnetic valve, the water outlet one-way flowmeter and the water outlet two-way flowmeter are all in wired connection with the control cabinet through signal lines.

Furthermore, the water inlet pipeline pressure change, the water outlet one-way pressure change and the water outlet two-way pressure change are in wireless connection with the control cabinet through wireless Zigbee signals.

The utility model has the beneficial effects that: according to the utility model, by installing the electromagnetic valve on each pipeline, the water supply flow of the pump station can be remotely switched according to the actual water demand of the first-line platform, and the water supply process can be controlled by remotely starting and stopping the water pump; the flowmeter is arranged on the water outlet pipeline, so that the water consumption of each platform operation can be measured, and a basis is provided for expense settlement; through installing the pressure change on water inlet pipeline, outlet pipe line, can monitor whether there is the superpressure condition whole water supply flow, in case the superpressure, can realize long-range atmospheric pressure release through backward flow pressure release pipeline and backward flow pressure release solenoid valve, ensure the safety of water supply operation. The automatic water supply unit has the functions of remote control and real-time monitoring, labor is saved greatly, traffic risks among pumping stations of personnel are avoided, and the problem of untimely linkage among pumping stations is solved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described, and the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a shale gas development automated water supply unit;

In the figure, a 1-control cabinet, a 2-water inlet pipeline electromagnetic valve, a 3-water inlet pipeline pressure change, a 4-water inlet pipeline, a 5-water inlet one-way flange, a 6-water inlet one-way pump, a 7-water inlet two-way flange, an 8-water inlet three-way flange, a 9-water inlet pipeline plugging flange, a 10-backflow bypass pipeline, a 11-backflow pressure relief pipeline, a 12-backflow pressure relief electromagnetic valve, a 13-water outlet one-way backflow pipeline, a 14-water outlet one-way backflow electromagnetic valve, a 15-water outlet two-way backflow electromagnetic valve, a 16-water outlet two-way backflow pipeline, a 17-water outlet one-way pressure change, a 18-water outlet two-way pressure change, a 19-water outlet two-way flowmeter, a 20-water outlet two-way electromagnetic valve, a 21-water outlet one-way flowmeter, a 22-water outlet one-way electromagnetic valve, a 23-water inlet one-way check valve, a 24-water inlet one-way pipeline, a 25-water outlet one-way pipeline, a 26-water outlet two-way pipeline, a 27-water outlet one-way plugging flange and a 28-water outlet two-way plugging flange are shown.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model relates to an automatic water supply unit for shale gas development, which comprises the following components: the control cabinet 1, the water inlet pipeline solenoid valve 2, the water inlet pipeline pressure transformer 3, the water inlet pipeline 4, the water inlet one-way flange 5, the water pump 6 is beaten to one-way, the water inlet two-way flange 7, the water inlet three-way flange 8, the water inlet pipeline shutoff flange 9, the backflow bypass pipeline 10, the backflow pressure relief pipeline 11, the backflow pressure relief solenoid valve 12, the water outlet one-way backflow pipeline 13, the water outlet one-way backflow solenoid valve 14, the water outlet two-way backflow solenoid valve 15, the water outlet two-way backflow pipeline 16, the water outlet one-way pressure transformer 17, the water outlet two-way pressure transformer 18, the water outlet two-way flowmeter 19, the water outlet two-way solenoid valve 20, the water outlet one-way flowmeter 21, the water outlet one-way solenoid valve 22, the water inlet one-way check valve 23, the water inlet one-way pipeline 24, the water outlet one-way pipeline 25, the water outlet two-way pipeline 26, the water outlet one-way shutoff flange 27 and the water outlet two-way shutoff flange 28.

One end of the water inlet pipeline 4 is provided with a water inlet pipeline electromagnetic valve 2 and a water inlet pipeline pressure transformer 3, the other end of the water inlet pipeline 4 is provided with a water inlet pipeline plugging flange 9, the water inlet pipeline 4 is also provided with a water inlet one-way flange 5, a water inlet two-way flange 7 and a water inlet three-way flange 8, and a reflux bypass pipeline 10 is connected between the water inlet one-way flange 5 and the water inlet pipeline pressure transformer 3.

The water inlet pipeline 4 is connected with one water pumping pump 6 through a water inlet flange 5, a water inlet pipeline 24 is connected to a water outlet of the one water pumping pump 6, a water inlet pipeline return valve 23 is arranged on the water inlet pipeline 24, and a water outlet pipeline 25 and a water outlet pipeline 26 are sequentially connected to the water inlet pipeline 24.

The water outlet of the water outlet pipeline 25 and the water outlet pipeline 26 are respectively provided with a water outlet pressure transformer 17, a water outlet flowmeter 21 and a water outlet pressure transformer 18, a water outlet flowmeter 19, the other end of the water outlet pipeline is respectively provided with a water outlet plugging flange 27 and a water outlet plugging flange 28, and the water inlet is also respectively provided with a water outlet electromagnetic valve 22 and a water outlet electromagnetic valve 20.

The reflux bypass pipeline 10 is sequentially connected with a reflux pressure relief pipeline 11, a water outlet two-way reflux pipeline 16 and a water outlet one-way reflux pipeline 13, the reflux pressure relief pipeline 11 is provided with a reflux pressure relief electromagnetic valve 12, the water outlet two-way reflux pipeline 16 is provided with a water outlet two-way reflux electromagnetic valve 15, the water outlet one-way reflux pipeline 13 and the water outlet one-way reflux electromagnetic valve 14.

The water outlet one-way backflow pipeline 13 is connected with the water outlet one-way pipeline 25, the interface is positioned between the water outlet one-way flowmeter 21 and the water outlet one-way electromagnetic valve 22, the water outlet two-way backflow pipeline 16 is connected with the water outlet two-way pipeline 26, and the interface is positioned between the water outlet two-way flowmeter 19 and the water outlet two-way electromagnetic valve 20.

The utility model has at least the following technical effects:

The control cabinet 1 can realize limited connection with one water pump 6, a water inlet pipeline electromagnetic valve 2, a backflow pressure relief electromagnetic valve 12, a water outlet one-way backflow electromagnetic valve 14, a water outlet two-way backflow electromagnetic valve 15, a water outlet one-way electromagnetic valve 22, a water outlet two-way electromagnetic valve 20, a water outlet one-way flowmeter 21 and a water outlet two-way flowmeter 19, can remotely switch the water supply flow of a pump station according to the actual water demand of a first-line platform, can also remotely start and stop a water pump to control the water supply process, and can meter the water consumption of each platform operation at the same time, thereby providing a basis for cost settlement.

The control cabinet 1 can be in wireless connection with the water inlet pipeline pressure transformer 3, the water outlet one-way pressure transformer 17 and the water outlet two-way pressure transformer 18, can monitor whether the whole water supply flow has an overpressure condition, and can realize remote emptying pressure relief through the backflow pressure relief pipeline 11 and the backflow pressure relief electromagnetic valve 12 once the overpressure exists, so that the safety of water supply operation is ensured.

It should be noted that, for simplicity of description, the foregoing embodiments are all described as a series of acts, but it should be understood by those skilled in the art that the present application is not limited by the order of acts, as some steps may be performed in other orders or concurrently in accordance with the present application. Further, it should be understood by those skilled in the art that the embodiments described in the specification are preferred embodiments and that the actions involved are not necessarily required for the present application.

Furthermore, the terms "connected," "configured," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "connected", "arranged" may explicitly or implicitly include one or more such features. Moreover, the terms "connected," "configured," and the like are used to distinguish between similar objects and do not necessarily describe a particular order or sequence. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein.

In the above embodiments, the basic principle and main features of the present utility model and advantages of the present utility model are described. It will be appreciated by persons skilled in the art that the present utility model is not limited by the foregoing embodiments, but rather is shown and described in what is considered to be illustrative of the principles of the utility model, and that modifications and changes can be made by those skilled in the art without departing from the spirit and scope of the utility model, and therefore, is within the scope of the appended claims.

Claims (12)

1. The utility model provides an automatic water supply unit of shale gas development, its characterized in that, including switch board (1), water inlet pipeline (4), water inlet pipeline solenoid valve (2), water inlet pump (6) all the way, water inlet all the way check valve (23), water inlet all the way pipeline (24), water outlet all the way solenoid valve (22), water outlet all the way flowmeter (21), water outlet all the way pipeline (25) and water outlet all the way pressure transformer (17), water inlet pipeline solenoid valve (2) are installed on water inlet pipeline (4) through the flange, water inlet pump (6) delivery port is connected water inlet all the way pipeline (24), water inlet all the way pipeline (24) are connected, water outlet all the way pipeline (25) are connected with water inlet all the way pipeline (24) an organic whole, be provided with water outlet all the way solenoid valve (22), water outlet all the way flowmeter (21) and water outlet all the way pressure transformer (17) on water outlet all the way pipeline (25).

2. The shale gas development automated water supply unit according to claim 1, wherein the water inlet line (4) is provided with a water inlet line pressure transformer (3) by a threaded connection; the water inlet one-way flange (5), the water inlet two-way flange (7), the water inlet three-way flange (8) and the water inlet pipeline plugging flange (9) are connected and installed integrally.

3. The automatic water supply unit for shale gas development according to claim 2, wherein the other side of the water inlet flange (5) is connected with a water pumping pump (6), and an outlet of the water pumping pump (6) is connected with a water inlet pipeline (24).

4. An automated water supply unit for shale gas development according to claim 1, characterized in that said water inlet one-way line (24) is flanged with a water inlet one-way check valve (23); and a water outlet pipeline (25) and a water outlet pipeline (26) are connected and installed integrally.

5. An automatic shale gas development water supply unit according to claim 2, characterized in that the outlet water one-way pipeline (25) is provided with an outlet water one-way plugging flange (27) and an outlet water one-way backflow pipeline (13) through integral connection; a water outlet electromagnetic valve (22) and a water outlet flowmeter (21) are connected and installed through a flange; and a water outlet one-way pressure transformer (17) is installed through threaded connection.

6. The automatic shale gas development water supply unit according to claim 5, wherein the outlet water one-way return line (13) is provided with an outlet water one-way return electromagnetic valve (14) through a flange; a reflux bypass line (10) is installed through an integral connection.

7. An automated water supply unit for shale gas development according to claim 6, wherein the return bypass line (10) is connected in an integral connection with the two outlet return line (16) and the return pressure relief line (11).

8. The shale gas development automatic water supply unit as claimed in claim 7, wherein the back-flow pressure relief pipeline (11) is provided with a back-flow pressure relief electromagnetic valve (12) through a flange; and a water outlet two-way reflux pipeline (16) is arranged through integral connection.

9. The shale gas development automatic water supply unit according to claim 8, wherein the water outlet two-way return line (16) is provided with a water outlet two-way return electromagnetic valve (15) through a flange; and a water outlet two-way pipeline (26) is arranged through integral connection.

10. The shale gas development automatic water supply unit according to claim 9, wherein the water outlet two-way pipeline (26) is provided with a water outlet two-way electromagnetic valve (20) and a water outlet two-way flowmeter (19) through flanges; a water outlet two-way pressure transformer (18) is arranged through threaded connection; and a water outlet two-way plugging flange (28) is arranged through integral connection.

11. The automatic water supply unit for shale gas development according to claim 10, wherein the one-way water pumping pump (6), the water inlet pipeline electromagnetic valve (2), the reflux pressure relief electromagnetic valve (12), the water outlet one-way reflux electromagnetic valve (14), the water outlet two-way reflux electromagnetic valve (15), the water outlet one-way electromagnetic valve (22), the water outlet two-way electromagnetic valve (20), the water outlet one-way flowmeter (21) and the water outlet two-way flowmeter (19) are all connected with the control cabinet (1) in a wired manner through signal lines.

12. The automatic water supply unit for shale gas development according to claim 10, wherein the water inlet pipeline pressure transformer (3), the water outlet one-way pressure transformer (17) and the water outlet two-way pressure transformer (18) are in wireless connection with the control cabinet (1) through wireless Zigbee signals.