Integrated pump house

Abstract

The utility model discloses an integrated pump house relates to pump house technical field, including pump house main part, the front surface of pump house main part is inlayed and is equipped with the visual window, and the back surface of pump house main part is inlayed and is equipped with the ventilation window, the inside fixedly connected with water storage tank of pump house main part near one side position, and the inside fixedly connected with electric control box of pump house main part near the other side position, the inside fixedly connected with the delivery pump and booster pump of pump house main part central position, the top of water storage tank is connected with the inlet pipe, and is connected with the connecting pipe between water storage tank and delivery pump, the delivery pump is connected with the pressure pipe between booster pump, a kind of integrated pump house in the utility model, the water pump position of pump house can be positioned, can prevent the water pump of pump house from appearing the situation of displacement, can guarantee the stability of pump house pipeline connection, can conveniently control the opening and closing of pump house transmission line, has improved the security of pump house transmission line use.

Description

Technical Field

[0001] This utility model relates to the field of pump house technology, and in particular to an integrated pump house. Background Technology

[0002] A pump house consists of water pumps, pipelines and valves, control systems and security systems. It is a commonly used water supply equipment with high efficiency and high level of intelligence. Appropriate models of water pumps are installed to meet production and domestic needs.

[0003] Chinese Patent Publication No. CN214219835U discloses an integrated water supply pump house, including a pump house body, an inlet pipe, an outlet pipe, a water storage tank, an ultraviolet sterilizer, a water pump, a pressure tank, a pressurizing pipe, and a water delivery pipe. The water storage tank, ultraviolet sterilizer, water pump, pressure tank, pressurizing pipe, and water delivery pipe are all located within the pump house body. The inlet pipe and outlet pipe respectively penetrate two opposing side plates of the pump house body. The pump house body includes a base, doors, two opposing side plates, a bottom plate, a roof, and a main frame. The base is used for mounting on the bottom surface, and the main frame is fixedly mounted on the base. A bottom plate is fixedly installed on the bottom surface inside the main frame. Side plates are installed on the left and right sides of the main frame, and doors are installed on the front and rear sides. A roof is fixedly installed on the top of the main frame. The main frame is welded from several channel steels, and an exhaust fan is installed on the upper part of one of the side plates. This utility model solves the problems of large land occupation, high investment, and long construction period in current pump house construction.

[0004] Traditional integrated pump houses, lacking limiting structures, are prone to pump displacement during operation. Pump displacement not only leads to loosening of pipe connections, significantly increasing the risk of media leakage, but also causes inaccurate control of transmission line opening and closing, posing a major threat to the stable operation and safe production of the pump house. Utility Model Content

[0005] The main objective of this invention is to provide an integrated pump house that effectively solves the problem mentioned in the background art: in traditional integrated pump houses, the lack of a limiting structure makes it easy for the water pumps inside to shift during operation. This pump displacement not only leads to loosening of pipe connections, significantly increasing the risk of media leakage, but also causes inaccurate control of the transmission line opening and closing, posing a major threat to the stable operation and safe production of the pump house.

[0006] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0007] An integrated pump house includes a main body with a viewing window embedded in its front surface and a ventilation window embedded in its rear surface. A water storage tank is fixedly connected to one side of the pump house's interior, and an electrical control box is fixedly connected to the other side. A delivery pump and a booster pump are fixedly connected to the center of the pump house's interior. An inlet pipe is connected to the top of the water storage tank, and a connecting pipe connects the water storage tank to the delivery pump. A pressurization pipe connects the delivery pump to the booster pump, and an outlet pipe connects the output end of the booster pump. A fire extinguishing box is fixedly connected to the rear of the pump house's interior, and a monitoring probe is fixedly connected to the top. Transmission lines are distributed between the electrical control box and the pump house's interior. Limiting docking structures are connected between the water storage tank and both the delivery pump and the booster pump.

[0008] As a further embodiment of this utility model, the limiting docking structure includes a first limiting frame, a second limiting frame, a first connecting column, and a second connecting column. The first limiting frame is fixed to the bottom of the water storage tank, the second limiting frame is fixed to the bottom of the delivery pump and the booster pump, the first connecting column passes through the end of the first limiting frame, and the second connecting column passes through the end of the second limiting frame.

[0009] As a further embodiment of this utility model, the end of the first connecting post is connected to a first coupling connector, and the end of the second connecting post is connected to a second coupling connector, wherein the first coupling connector and the second coupling connector are compatible.

[0010] As a further embodiment of this utility model, locking sleeves are fitted on the outer surfaces of both the first connecting column and the second connecting column. The first connecting column is fixedly connected to the first limiting frame through the locking sleeve, and the second connecting column is fixedly connected to the second limiting frame through the locking sleeve.

[0011] As a further embodiment of this utility model, a guide frame is connected between the transmission lines, and a stationary contact and a moving contact are provided on the inner side of the guide frame, with the stationary contact being connected to the transmission line.

[0012] As a further embodiment of this utility model, a connecting rod is connected between the moving contact and the guide frame, and a fastening pin is connected between the connecting rod and the guide frame.

[0013] The beneficial effects of this utility model are as follows: by setting a limiting docking structure, the position of the water pump in the pump room can be limited, which can prevent the water pump in the pump room from shifting and ensure the stability of the pipeline connection in the pump room.

[0014] By setting up guide frames, stationary contacts, moving contacts, and connecting rods, the opening and closing of the pump room transmission line can be easily controlled, improving the safety of the pump room transmission line. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of an integrated pump house according to the present invention;

[0016] Figure 2 This is a schematic diagram of the internal structure of the main body of an integrated pump house according to the present invention;

[0017] Figure 3 This is a schematic diagram of the limiting docking structure of an integrated pump house according to the present invention;

[0018] Figure 4 This is a schematic diagram showing the connection of the guide frame, stationary contact, moving contact, and connecting rod of an integrated pump house according to this utility model.

[0019] In the diagram: 1. Pump house main body; 2. Viewing window; 3. Ventilation window; 4. Water storage tank; 5. Electrical control box; 6. Transfer pump; 7. Booster pump; 8. Inlet pipe; 9. Connecting pipe; 10. Pressurization pipe; 11. Outlet pipe; 12. Fire box; 13. Monitoring probe; 14. Transmission line; 15. Limiting and docking structure; 16. Limiting frame 1; 17. Limiting frame 2; 18. Connecting column 1; 19. Connecting column 2; 20. Connecting joint 1; 21. Connecting joint 2; 22. Locking sleeve; 23. Guide frame; 24. Stationary contact; 25. Moving contact; 26. Connecting rod; 27. Fastening pin. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] Example 1

[0022] Combination Figures 1-4An integrated pump house includes a pump house body 1. A viewing window 2 is embedded on the front surface of the pump house body 1, and a ventilation window 3 is embedded on the rear surface of the pump house body 1. A water storage tank 4 is fixedly connected to one side of the pump house body 1, and an electrical control box 5 is fixedly connected to the other side of the pump house body 1. A delivery pump 6 and a booster pump 7 are fixedly connected to the center of the pump house body 1. A water inlet pipe 8 is connected to the top of the water storage tank 4, and a connecting pipe 9 is connected between the water storage tank 4 and the delivery pump 6. A pressurizing pipe 10 is connected between the delivery pump 6 and the booster pump 7. A water outlet pipe 11 is connected to the output end of the booster pump 7. A fire box 12 is fixedly connected to the rear of the pump house body 1, and a monitoring probe 13 is fixedly connected to the top of the pump house body 1. A transmission line 14 is distributed between the electrical control box 5 and the pump house body 1. A limit docking structure 15 is connected between the water storage tank 4 and the delivery pump 6 and the booster pump 7.

[0023] See Figure 1 and Figure 3 Furthermore, the limiting docking structure 15 includes a first limiting frame 16, a second limiting frame 17, a first connecting column 18, and a second connecting column 19. The first limiting frame 16 is fixed to the bottom of the water storage tank 4, the second limiting frame 17 is fixed to the bottom of the delivery pump 6 and the booster pump 7, the first connecting column 18 passes through the end of the first limiting frame 16, and the second connecting column 19 passes through the end of the second limiting frame 17.

[0024] Specifically, the first limiting bracket 16, the second limiting bracket 17, the first connecting column 18, and the second connecting column 19 work together to limit the movement between the water storage tank 4 and the delivery pump 6 and the booster pump 7, ensuring that the delivery pump 6 and the booster pump 7 will not move laterally and guaranteeing the stability of the pump room pipeline connection.

[0025] See Figure 3 Furthermore, it is found that the end of the first connecting post 18 is connected to the first connector 20, and the end of the second connecting post 19 is connected to the second connector 21. The first connector 20 and the second connector 21 are compatible. The outer surfaces of the first connecting post 18 and the second connecting post 19 are both fitted with locking sleeves 22. The first connecting post 18 is fixedly connected to the first limiting frame 16 through the locking sleeve 22, and the second connecting post 19 is fixedly connected to the second limiting frame 17 through the locking sleeve 22.

[0026] Specifically, by pushing the No. 1 connecting column 18 and the No. 2 connecting column 19, the No. 1 connector 20 and the No. 2 connector 21 to connect, the No. 1 connecting column 18 is fixed to the No. 1 limiting frame 16 by the locking sleeve 22, and the No. 2 connecting column 19 is fixed to the No. 2 limiting frame 17 by the locking sleeve 22, it can be ensured that the delivery pump 6 and the booster pump 7 will not move longitudinally.

[0027] Example 2

[0028] See Figure 2 and Figure 4 Furthermore, based on Embodiment 1, a guide frame 23 is connected between the transmission lines 14. A stationary contact 24 and a moving contact 25 are provided on the inner side of the guide frame 23. The stationary contact 24 is connected to the transmission line 14. A connecting rod 26 is connected between the moving contact 25 and the guide frame 23. A fastening pin 27 is connected between the connecting rod 26 and the guide frame 23.

[0029] Specifically, pushing the connecting rod 26 causes the moving contact 25 to engage with the stationary contact 24, thus connecting the transmission line 14. Pulling out the locking pin 27 and pulling the connecting rod 26 causes the moving contact 25 to disengage from the stationary contact 24, thus disconnecting the transmission line 14. This facilitates control over the opening and closing of the pump room transmission line 14 and improves the safety of its use.

[0030] It should be noted that this utility model is an integrated pump house. During use, the interior of the pump house body 1 can be observed through the viewing window 2, and the ventilation window 3 provides ventilation. Water is added to the water storage tank 4 inside the pump house body 1 through the inlet pipe 8. The delivery pump 6 is started, and the delivery pump 6 draws water from the water storage tank 4 through the connecting pipe 9. The drawn water enters the booster pump 7 through the pressurization pipe 10, is pressurized by the booster pump 7, and is discharged through the outlet pipe 11. This pushes the first connecting column 18 and the second connecting column 19, and the first mating joint 20 and the second mating joint 21 to connect. The first connecting column 18 is fixed to the first limiting frame 16 through the locking sleeve 22, and the second connecting column 19 is fixed to the second limiting frame 17 through the locking sleeve 22. This ensures that the delivery pump 6 and the booster pump 7 do not... In the event of longitudinal movement, the first limit bracket 16, the second limit bracket 17, the first connecting column 18, and the second connecting column 19 work together to limit the movement between the water storage tank 4 and the delivery pump 6 and the booster pump 7, ensuring that the delivery pump 6 and the booster pump 7 do not move laterally and guaranteeing the stability of the pump room pipeline connection. Pushing the connecting rod 26 causes the moving contact 25 to engage with the stationary contact 24, thus connecting the transmission line 14. Pulling out the locking pin 27 and pulling the connecting rod 26 causes the moving contact 25 to disengage from the stationary contact 24, thus disconnecting the transmission line 14. This facilitates the control of the opening and closing of the pump room transmission line 14 and improves the safety of its use. The electrical control box 5 provides a power supply guarantee for the pump room, and the monitoring probe 13 is used to monitor the working status of the pump room.

[0031] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. An integrated pump house comprising a pump house body (1), characterized in that: The front surface of the pump house body (1) is provided with a viewing window (2), and the rear surface of the pump house body (1) is provided with a ventilation window (3). A water storage tank (4) is fixedly connected to one side of the interior of the pump house body (1), and an electrical control box (5) is fixedly connected to the other side of the interior of the pump house body (1). A delivery pump (6) and a booster pump (7) are fixedly connected to the center of the interior of the pump house body (1). A water inlet pipe (8) is connected to the top of the water storage tank (4), and a connecting pipe is connected between the water storage tank (4) and the delivery pump (6). 9) A pressurizing pipe (10) is connected between the delivery pump (6) and the booster pump (7). A water outlet pipe (11) is connected to the output end of the booster pump (7). A fire box (12) is fixedly connected to the rear of the pump house body (1). A monitoring probe (13) is fixedly connected to the top of the pump house body (1). A transmission line (14) is distributed between the electrical control box (5) and the pump house body (1). A limit docking structure (15) is connected between the water storage tank (4) and the delivery pump (6) and the booster pump (7).

2. An integrated pump house according to claim 1, characterized in that: The limiting docking structure (15) includes a first limiting frame (16), a second limiting frame (17), a first connecting column (18), and a second connecting column (19). The first limiting frame (16) is fixed to the bottom of the water storage tank (4), the second limiting frame (17) is fixed to the bottom of the delivery pump (6) and the booster pump (7), the first connecting column (18) passes through the end of the first limiting frame (16), and the second connecting column (19) passes through the end of the second limiting frame (17).

3. An integrated pump house according to claim 2, wherein: The end of the first connecting post (18) is connected to the first connector (20), and the end of the second connecting post (19) is connected to the second connector (21). The first connector (20) and the second connector (21) are compatible.

4. An integrated pump house as claimed in claim 2, wherein: The outer surfaces of the first connecting post (18) and the second connecting post (19) are both fitted with locking sleeves (22). The first connecting post (18) is fixedly connected to the first limiting frame (16) through the locking sleeve (22), and the second connecting post (19) is fixedly connected to the second limiting frame (17) through the locking sleeve (22).

5. The integrated pump house of claim 1, wherein: A guide frame (23) is connected between the transmission lines (14). A stationary contact (24) and a moving contact (25) are provided on the inner side of the guide frame (23). The stationary contact (24) is connected to the transmission line (14).

6. An integrated pump house according to claim 5, wherein: A connecting rod (26) is connected between the moving contact (25) and the guide frame (23), and a fastening pin (27) is connected between the connecting rod (26) and the guide frame (23).

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