CN215330202U - Mining movable water pump room - Google Patents

Abstract

The application provides a mining portable water pump room, it includes the box room body that is formed by diapire, side wall and roof, and sets up piston shoes under the diapire of the room body, the both ends of piston shoes all construct the inclined plane of outside extension formula slope on the direction from the bottom up, wherein, the diapire with the side wall all includes the frame and sets up the steel sheet on the frame, and this mining portable water pump room's at least part can be formed by frame and steel sheet concatenation, and the cost of manufacture is low and be convenient for remove, even sets up piston shoes on the diapire of the room body, has further improved the removal convenience of water pump room.

Description

Mining movable water pump room

Technical Field

The utility model belongs to the technical field of coal mine production, and particularly relates to a movable water pump room for a mine.

Background

In the stripping production area of the open pit coal mine, the side walls and underground gushing water need to be collected to a centralized place to establish a centralized water sump for centralized drainage so as to ensure safe and efficient operation of stripping production.

For example, a pump house can be constructed by using building materials such as cement, bricks and the like, and water inrush can be intensively drained. However, as production proceeds, the gushing water is transferred, and the above-described pump room transfer is difficult. And such pump houses are expensive to manufacture.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mining movable water pump room aiming at part or all of the technical problems in the prior art. At least part of this mining portable water pump room can be formed by frame and steel sheet concatenation, and the cost of manufacture is low and be convenient for remove, even, sets up the piston shoes on the diapire of the room body, has further improved the removal convenience in water pump room.

According to the utility model, the utility model provides a mining movable water pump room, which comprises:

a box-type house body formed by a bottom wall, side walls and a top wall,

a slipper disposed under the bottom wall of the house body, both ends of the slipper being configured as inclined surfaces inclined to extend outward in a direction from bottom to top,

the bottom wall and the side walls comprise frames and steel plates arranged on the frames.

In one embodiment, the inclined surfaces at both ends of the shoe are at an angle of 40-50 degrees to the horizontal.

In one embodiment, the steel plates are disposed on both sides of the frame, wherein a wire chase and a threading pipe are laid between the steel plates disposed in an oppositely spaced manner.

In one embodiment, the frame of the bottom wall is configured in a grid shape, and the steel plates of the bottom wall include a skin steel plate provided on a lower side of the frame of the bottom wall and a non-slip steel plate provided on an upper side of the frame of the bottom wall.

In one embodiment, the frame of the side wall includes spaced vertically extending pillars and cross pillars disposed between adjacent pillars, a planar steel plate is disposed on the inner side of the frame of the side wall, and a corrugated steel plate is disposed on the outer side of the frame of the side wall.

In one embodiment, glass wool is arranged between the planar steel plate of the side wall and the corrugated steel plate of the side wall.

In one embodiment, the top wall of the house body is obliquely arranged and forms an included angle of 2-4 degrees with the horizontal plane, and a towing bar for hoisting is arranged on the outer side of the top wall.

In one embodiment, two centrifugal pumps and a water system assembly are disposed in the interior cavity of the housing, the water system assembly comprising:

a water storage tank arranged in the house body,

a main water discharge pipeline, wherein the main water discharge pipeline is selectively connected with the two centrifugal pumps,

a water injection pipeline which is selectively connected with both of the centrifugal pumps,

wherein the water injection line is selectively connected to the main drain line.

In one embodiment, the water injection pipeline is made of PPR DN40 pipe through hot melting welding, and the main drainage pipeline is made of steel DN300 threaded pipe through welding.

In one embodiment, set up the window on the front and back side wall of pump house, window department sets up aluminum alloy austral window, sliding sash and mosquito-proof worm net, and the outside sets up protection screen panel.

Compared with the prior art, the utility model has the advantages that: at least part of this mining portable water pump room can be formed by frame and steel sheet concatenation, and the cost of manufacture is low and be convenient for remove, even, sets up the piston shoes on the diapire of the room body, has further improved the removal convenience in water pump room.

Drawings

Preferred embodiments of the present invention will be described in detail below with reference to the attached drawing figures, wherein:

fig. 1 shows a perspective view of a mobile water pump house for mines according to an embodiment of the utility model;

fig. 2 shows a top view of a mobile water pump house for a mine according to an embodiment of the utility model;

FIG. 3 shows internal water system components of a mining mobile water pump house according to one embodiment of the present invention;

fig. 4 shows a front view of a mining mobile water pump house according to an embodiment of the utility model;

FIG. 5 shows a rear view of a mining mobile water pump house according to one embodiment of the present invention;

fig. 6 shows a left side view of a mining mobile water pump house according to one embodiment of the utility model.

In the drawings, like parts are provided with like reference numerals. The figures are not drawn to scale.

Detailed Description

In order to make the technical solutions and advantages of the present invention more apparent, exemplary embodiments of the present invention are described in further detail below with reference to the accompanying drawings. It is clear that the described embodiments are only a part of the embodiments of the utility model, and not an exhaustive list of all embodiments. And the embodiments and features of the embodiments may be combined with each other without conflict.

The embodiment of the utility model provides a mining movable water pump room. As shown in fig. 1, the mining mobile water pump room comprises a room body 1 and a skid shoe 2. The housing 1 is constructed as a box, i.e. the housing 1 is formed by a bottom wall 11, side walls 12 and a top wall 13. And the sliding shoe 2 is arranged under the bottom wall 11 of the house body 1 and is used for supporting the house body 1, and meanwhile, the sliding shoe 2 facilitates the integral movement of the water pump house. Both ends of the sliding shoe 2 are inclined surfaces 21 extending outward in the direction from bottom to top, thereby effectively ensuring the dragging movement. The bottom wall 11 and the side walls 12 each include a frame (not shown in the figure) and a steel plate (not shown in the figure) disposed on the frame. At least part of this kind of mining portable water pump room can be formed by frame and steel sheet concatenation, and the cost of manufacture is low and be convenient for remove, even, sets up piston shoes 2 on the diapire of the room body, has further improved the removal convenience of water pump room. The house body 1 has good mobility, and is convenient to put into use once and use for many times.

As shown in fig. 4 to 5, two shoes 2 extending in the left-right direction are provided at the lower end of the bottom wall 11, and the two shoes 2 are provided at a distance in the front-rear direction. The application of smooth boots 2 can effectually avoid because of when dragging the removal water pump room, the bottom gets into hard things such as stone and damages diapire 11. Specifically, each slipper 2 is welded by 22# I-steel to extend in the left-right direction to serve as a foundation support of the slipper 2, then a channel steel extending in the front-back direction is welded on the 22# I-steel to serve as a small framework, then a 10mm steel plate is covered to serve as a bottom plate of the slipper 2, and the inclined surfaces 21 at the two ends of the slipper 2 form an included angle of 40-50 degrees, for example, 45 degrees with the ground level. Wherein the height of skid 2 is approximately 500 mm. The skid shoe 2 arranged by the structure is convenient to move, and particularly meets the working environment and drainage work requirements of a coal mine production operation site.

The frame of the bottom wall 11 of the pump room is made of 12# I-steel and welded into a grid-shaped net frame. For example, adjacent 12# I-beams are spaced 800mm apart. The lower side of the frame of the bottom wall 11 is fully welded with the frame of the bottom wall 11 by adopting an 8mm steel skin plate. The upper part of the frame (water pump room floor) of the bottom wall 11 is welded with the frame by adopting a 5mm antiskid steel plate.

The frame of the side wall 12 is welded using # 10 h-section steel and includes vertically extending uprights, for example, with adjacent uprights spaced approximately 1000mm apart. And X-shaped cross columns are arranged between the adjacent upright columns. The outside of the frame of side wall 12 is covered and is established 5mm corrugated steel plate, and the inside is covered and is established 3mm plane steel plate, and is welded integratively with the frame. The sidewall 12 of this arrangement is strong and utilizes drag. Preferably, the middle of the corrugated steel plate with the thickness of 5mm and the flat steel plate with the thickness of 3mm is filled with glass wool, so that fire prevention and heat preservation are facilitated. The inside of the side wall 12 is provided with a threading pipe, and is provided with a main cable rubber sheath wire, a branch copper core wire and a wiring port for lighting, a socket, an air conditioner, heating and other facilities, so that the connection of subsequent electrical elements is facilitated.

The top wall 13 is arranged obliquely at an angle of 2-4 degrees, for example 3 degrees, to the horizontal. A towing bar 14 for hoisting is arranged on the outer side of the top wall 13. All the towing rods 14 are prefabricated by 10mm steel plates and are fully welded with the frame of the top wall 13, so that the towing rods are convenient to hoist.

The house body 1 is assembled by welding, and after the welding is finished, the house body needs to be coated with antirust paint. A finish paint is applied to the exterior of the rust inhibitive paint, for example, black asphalt paint is applied to the exterior of the skid 2 and the bottom wall 11, white finish paint is applied to the exterior of the wall 12, and blue paint is applied to the top wall 13.

As shown in figure 2, 2D \ MD type centrifugal pumps 4 are arranged in the house body 1. And a cable threading hole 15 and a motor control wire chase 16 are arranged on the bottom wall 11, so that the cables can be conveniently laid. And, motor control line chase 16 is laid between the steel sheets of the inside and outside both sides of the bottom wall 11, there is no exposed cable. Meanwhile, a drain pipe through hole 17 and a suction pipe through hole 18 are designed on the wall 12, a safety channel 23 is reserved, the whole layout is neat and attractive, and the safety and technical standards of the industry are met. Meanwhile, the mode has the advantages that the time for building the water pump room is short, the operation efficiency is high, the labor intensity of workers is reduced, external connection facilities only need to be dismantled during moving, internal equipment does not need to be dismantled, and the moving and installing efficiency is effectively improved.

Before the D \ MD type centrifugal pump 4 is started, water needs to be injected into the centrifugal pump 4 for diversion, and after the air in the pump body is exhausted, the D \ MD type centrifugal pump can be started to operate. Therefore, as shown in fig. 3, the water system component is designed inside the house body 1, so that the operation efficiency can be improved, the starting program is optimized, the working environment inside the house body 1 is kept dry, and the power distribution cabinet and the like are prevented from being affected with damp. Specifically, the water system assembly includes a water storage tank 201, a water injection line 202, and a main drain line 203. Both centrifugal pumps 4 are connected to a main discharge pipe 203, and at the same time, the main discharge pipe 203 is connected to an external pipe. A one-way check valve 204 is provided between the centrifugal pump 4 and the main discharge line 203. The flow of water at one-way check valve 204 is indicated by the arrows. Downstream of the one-way check valve 204, on the main discharge line 203, a main one-way check valve 205 is arranged, the direction of flow of which is indicated by the arrow. Both centrifugal pumps 4 are connected to a water injection line 202. A ball valve 206 is provided between the centrifugal pump 4 and the water filling line 202. A main globe valve 207 is provided on the water injection line 202 at the upstream end of the globe valve 206. The main drain line 203 at the downstream end of the main one-way check valve 205 is connected to the water filling line 202, and an on-off valve 208 is provided on the connection line.

The water storage tank 201 is welded by adopting a 5mm steel plate, and is subjected to rust prevention treatment. The water injection pipeline 202 is made of PPR DN40 pipe material through hot melting welding. The main drainage pipeline 203 is welded by steel DN300 threaded pipes. When the water storage tank is used for the first time, the water storage tank 201 needs to be filled with water. When the centrifugal pump 4 is started, the exhaust valve of the centrifugal pump 4 is opened, the general spherical valve 207 is opened, the spherical valve 206 is opened, water is filled into the centrifugal pump 4, after the water is emptied, the spherical valve 206 is closed, the exhaust valve is closed, the general spherical valve 207 is closed, and then the centrifugal pump 4 can be started to operate. After the operation is finished, the main spherical valve 207 and the switch valve 208 are opened, water is filled into the water storage tank 201 by utilizing the water pressure of the main drainage pipeline 203 (so as to be used for water filling of the water pump in the next starting), after the water is filled, the main spherical valve 207 and the switch valve 208 are closed, the drain valve of the main drainage pipeline 203 is opened, the accumulated water in the main drainage pipeline 203 is drained, and the pipeline freezing in winter is prevented.

According to the requirements of the building structure, as shown in fig. 4-6, windows 19 are arranged in the front and the back of the house body 1. The window 19 adopts a high-quality double-layer aluminum alloy sliding window and an anti-mosquito net, and a protective net cover is arranged on the outer layer. According to the daily maintenance requirements and design specifications, the door 20 is designed as a split double door structure, facilitating installation of equipment and daily maintenance. The door 20 and the window 19 are both provided with sealing strips, and the dustproof use requirement of outdoor places is met. The house body 1 is whole, and the outward appearance is pleasing to the eye, and interior facility sets up the standard, and is convenient to use, accords with the industry standard completely.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, the appended claims are intended to be construed to include preferred embodiments and all such changes and/or modifications as fall within the scope of the utility model, and all such changes and/or modifications as are made to the embodiments of the present invention are intended to be covered by the scope of the utility model.

Claims (10)

1. The utility model provides a mining portable water pump room which characterized in that includes:

a box-type house body formed by a bottom wall, side walls and a top wall,

a slipper disposed under the bottom wall of the house body, both ends of the slipper being configured as inclined surfaces inclined to extend outward in a direction from bottom to top,

the bottom wall and the side walls comprise frames and steel plates arranged on the frames.

2. The mining mobile water pump house according to claim 1, characterized in that the inclined planes at both ends of the skid shoe form an angle of 40-50 degrees with the horizontal direction.

3. The mining mobile water pump house according to claim 1, characterized in that the steel plates are arranged on both sides of the frame, wherein wire chase and threading pipe are laid between the oppositely spaced steel plates.

4. The mining mobile water pump house according to claim 3, characterized in that the frame of the bottom wall is configured in a grid shape, and the steel plates of the bottom wall comprise skin steel plates provided on a lower side of the frame of the bottom wall and anti-skid steel plates provided on an upper side of the frame of the bottom wall.

5. The mining mobile water pump house according to claim 3, wherein the frame of the side wall comprises spaced vertically extending columns and cross columns disposed between adjacent columns, a planar steel plate is disposed on an inner side of the frame of the side wall, and a corrugated steel plate is disposed on an outer side of the frame of the side wall.

6. The mining mobile water pump house according to claim 5, characterized in that glass wool is arranged between the planar steel plate of the side wall and the corrugated steel plate of the side wall.

7. The mining movable water pump room as claimed in claim 1, wherein the top wall of the room body is arranged obliquely and forms an included angle of 2-4 degrees with the horizontal plane, and a towing bar for hoisting is arranged on the outer side of the top wall.

8. The mining mobile water pump house according to any of claims 1 to 7, characterized in that two centrifugal pumps and water system components are provided in the inner cavity of the house body, said water system components comprising:

a water storage tank arranged in the house body,

a main water discharge pipeline, wherein the main water discharge pipeline is selectively connected with the two centrifugal pumps,

a water injection pipeline which is selectively connected with both of the centrifugal pumps,

wherein the water injection line is selectively connected to the main drain line.

9. The mining mobile water pump room as claimed in claim 8, wherein the water injection pipeline is made of PPR DN40 pipe through hot melting welding, and the main drainage pipeline is made of steel DN300 threaded pipe through welding.

10. The mining movable water pump house according to any one of claims 1 to 7, wherein windows are arranged on the front and rear side walls of the pump house, an aluminum alloy sliding window and an anti-mosquito net are arranged at the windows, and a protective net cover is arranged on the outer side of the window.

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