CN216077213U - Water prevention and control device for geological engineering - Google Patents

Abstract

The utility model discloses a water control device for geological engineering, which comprises a storage pool, wherein a kinetic energy component is arranged at the upper end of the storage pool, a separation component is arranged on one side of the kinetic energy component, one side of the separation component is communicated with a water drawing pipe, the kinetic energy component comprises a water pumping box, the water pumping box is fixedly connected to the upper end of the storage pool, a water pump is fixedly connected to the inner wall of the water pumping box, and one side of the water pump is communicated with the water drawing pipe. The utility model discloses a can separate the inside silt and the ponding of drawing water pipe through the separable set for can prevent to extract the inside silt of in-process of ponding and block up the device of controlling water in the well of overlength inside, extract the inside that flows into the suction box through the drinking-water pipe with ponding at the water pumper and make the ponding of taking out can not appear once more the backward flow and get into the inside condition of well and take place, keep the inside ponding of well will continuously reduce, protected staff's safety in the well.

Description

Water prevention and control device for geological engineering

Technical Field

The utility model belongs to the technical field of geological engineering, and particularly relates to a water control device for geological engineering.

Background

The geological engineering field is based on natural science and earth science as theoretical basis, and takes geological survey, general survey and exploration of mineral resources, and engineering problems related to geological structures and geological backgrounds of major projects as main objects, and nowadays, many geological engineering exploration mostly relate to the technical field of mineral products.

In the process of mining, the underground water of a mine is often damaged, the situation such as flooding can happen seriously, the existing technical means is that a technician pumps accumulated water in a well away through a water pump, but the slurry minerals in the mine can block the water pumping pipe after being used for a long time, so that the water pumping effect is poor, the life safety of operators in the mine is affected, the lives and properties of the operators in the mine are threatened, and hidden dangers are caused.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the water prevention and control device for the geological engineering.

In order to achieve the purpose, the utility model provides the following technical scheme:

the water control device for the geological engineering comprises a storage pool, wherein a kinetic energy component is arranged at the upper end of the storage pool, a separation component is arranged on one side of the kinetic energy component, and a water drawing pipe is communicated with one side of the separation component;

the kinetic energy component comprises a water pumping box, the water pumping box is fixedly connected to the upper end of the storage pool, a water pump is fixedly connected to the inner wall of the water pumping box, one side of the water pump is communicated with a water pumping pipe, and the other end of the water pumping pipe penetrates out of the water pumping box;

through above-mentioned technical scheme, can separate the inside silt and the ponding of drawing water pipe through the separable set for can prevent to extract the inside silt jam water control device of in-process of ponding inside at the well of overlength, extract the inside of flowing into the suction box through the drinking-water pipe with ponding at the water pumper and make the ponding of taking out can not appear once more the condition that the backward flow got into the well inside take place, kept the inside ponding of well will continuously reduce, protected staff's safety in the well.

Furthermore, the kinetic energy assembly also comprises a rotating shaft, two ends of the rotating shaft are rotatably connected to the inner wall of the storage pool, and one end of the surface of the rotating shaft is fixedly connected with blades which are uniformly distributed;

through above-mentioned technical scheme, the axis of rotation of connecting is rotated to the inner wall in the reservoir, can be in the stable rotation of inner wall in reservoir, when rivers drool on the acanthus leaf surface, will drive the axis of rotation and rotate for the axis of rotation will rotate along with the flow of rivers, and then when ponding in the well was taken out, can drive the axis of rotation through the acanthus leaf and rotate.

Furthermore, a siphon is arranged in the pumping box, one end of the siphon is close to the inner bottom wall of the pumping box, the other end of the siphon penetrates through the inner bottom wall of the pumping box and extends into the storage pool, and the other end of the siphon is located at the upper end of the blade plate;

through above-mentioned technical scheme, through the siphon when the water pumper is about to live the suction box full, discharge the ponding of suction box inside to the storage pond in, be located the one side of axis of rotation at the lower extreme of siphon for the intraductal rivers of siphon will strike on the lamina of axis of rotation one side, when the lamina of one side received rivers and assaulted, will drive the rotation of axis of rotation.

Furthermore, the kinetic energy assembly also comprises a mud pipe, the mud pipe is arranged at the lower end of the rotating shaft, one end of the mud pipe penetrates through the inner wall of the storage pool and extends to the outside of the storage pool, and the inner wall of the mud pipe is rotatably connected with a screw plate;

through above-mentioned technical scheme, the inside sedimentary mud of well makes the difficult discharge of pipeline, can carry the inside to the holding reservoir with mud through the auger plate, and then can transmit inside mud to the outside of well, protected operating personnel's in the well life safety.

Furthermore, the inner wall of the auger plate is fixedly connected with a rotating mud shaft, the upper end of the rotating mud shaft and the surface of the rotating shaft, which is far away from the blade plate, are fixedly connected with bevel gears, the two bevel gears are meshed and connected, and the lower end of the surface of the rotating mud shaft is fixedly connected with a bump;

through the technical scheme, when the axis of rotation strikes the bevel gear that can pass through its fixed surface connection when the interior rivers of pumping box rotate, drive another bevel gear and rotate, and then under the bevel gear's that the meshing is connected drive, it rotates to drive the mud axle of rotating, under the drive that rotates the mud axle, can make the auger plate will follow the rotation that rotates the mud axle and drive the inside mud material mortar of well simultaneously and carry out the well, make things convenient for operating personnel's construction operation more in the inside environment of well.

Furthermore, the separation assembly comprises a separation block and a separation box, the separation box is communicated with the water drawing pipe, the separation block is hinged to the inner wall of the separation box, an upper cavity is formed by the upper end of the separation block and the inner wall of the separation box and is communicated with the water pumping pipe, a lower cavity is formed by the lower end of the separation block and the inner wall of the separation box and is communicated with the slurry pipe, and one end of the rotating slurry shaft is rotatably connected with the inner wall of the lower cavity;

through the technical scheme, the separating box is a fully-closed box body, negative pressure can be formed inside the separating box when water is pumped through the water pump, the slurry water in the well is pumped into the separating box through the water pumping pipe, the water pumping pipe is communicated with the upper cavity, the slurry water is conveyed into the upper cavity through the water pumping pipe, the water and the slurry can be precipitated and separated through the separating block, the slurry can be deposited in the lower cavity when passing through the separating block, the winch plate is driven to convey the slurry through the rotating of the mud shaft, the water in the upper cavity can be conveyed into the water pumping box through the water pumping pipe, the water can be prevented from being blocked in the tax collecting process, the water control effect of the water control device is kept, and the life and property safety of workers in the well is protected.

Furthermore, the inner wall of the separation box is fixedly connected with a concave arc fixture block, the inner side of the concave arc fixture block is connected with one side of the separation block in a sliding manner, the surface of the separation block is provided with uniformly distributed sedimentation holes, the lower end of the separation block is fixedly connected with an inclined plate, and the lower end of the inclined plate is in contact with the convex block;

through the technical scheme, can drive the lug when rotating the mud axle and besieged the pivoted and rotate, when the lug rotates, can with the periodic contact of swash plate, and then can the periodic swash plate that supports, when the swash plate lifting, can drive the separator block and carry out the arc motion, the inside of separator block is provided with a plurality of precipitation holes, make ponding mud can pass through the precipitation hole when contacting the separator block, the inside scope at the precipitation hole is little, make the diffusion range of mud reduce, and then deposit with higher speed, periodic lifting when the separator block rotates along with rotating the mud axle, and then slide motion is carried out in the inboard of concave arc fixture block, make can be with the mud vibrations compaction in the precipitation hole of inside when the separator block shakes, extrude unnecessary moisture, also can reduce the inside condition emergence of blockking up of appearance of precipitation hole simultaneously.

In conclusion, the utility model has the following beneficial effects:

1. through setting up the kinetic energy subassembly, can extract the ponding in the well at the in-process that the water pumper drew water, prevent that the backward flow from appearing in the well ponding, and can drive the acanthus leaf through the siphon when the suction box is about to take out to full stir, and then can realize driving the axis of rotation when the rivers in the suction box emptying box body, can drive the mud pipe and carry out mud through the auger plate when the axis of rotation pivoted, it piles up to cause the jam to have prevented mud, and then can take out the ponding in the well comparatively lastingly, staff's in the well personal safety has been ensured.

2. Through setting up the separable set, make when drawing the ponding that the water pipe will be thoughtlessly have mud and carry to the inside of separator box, can carry out comparatively quick precipitation separation in the separator box inside, make mud reduce at the inside diffusion scope in precipitation hole, and then the sedimentation rate accelerates, make the upper portion cavity in the separator box use liquid as leading, and the lower part cavity is given first place to mud, the action through the swash plate can prevent that the mud in the precipitation hole from appearing the condition of jam, and then reduced the situation that the jam appears under the long-term circumstances of drawing water, the usability reinforcing of the device of controlling water has been kept.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

FIG. 2 is a schematic view of the connection between the storage tank and the pumping box in the present embodiment;

fig. 3 is a schematic view of the connection between the water pump and the water pumping pipe according to the present embodiment;

fig. 4 is a schematic view of the connection between the bump and the sloping plate in this embodiment.

Description of reference numerals: 1. a water drawing pipe; 2. a storage tank; 3. a kinetic energy assembly; 301. a water pumping box; 302. a water pump; 303. a water pumping pipe; 304. a siphon tube; 305. a rotating shaft; 306. a leaf plate; 307. rotating the mud shaft; 308. a bevel gear; 309. a mud pipe; 310. a twisted plate; 311. a bump; 4. a separation assembly; 401. a separation tank; 402. a concave arc fixture block; 403. separating the blocks; 404. a sloping plate; 405. and (4) precipitating pores.

Detailed Description

Example (b):

the utility model is described in further detail below with reference to figures 1-4.

A water control device for geological engineering comprises a storage pool 2, a kinetic energy component 3 is arranged at the upper end of the storage pool 2, a separation component 4 is arranged at one side of the kinetic energy component 3, one side of the separation component 4 is communicated with a water drawing pipe 1, the kinetic energy component 3 comprises a water drawing tank 301, the water drawing tank 301 is fixedly connected to the upper end of the storage pool 2, a water pump 302 is fixedly connected to the inner wall of the water drawing tank 301, one side of the water pump 302 is communicated with a water drawing pipe 303, the other end of the water drawing pipe 303 penetrates through the water drawing tank 301, when accumulated water in a well is drawn out, silt and accumulated water in the water drawing pipe 1 can be separated from the accumulated water through the separation component 4, so that the water control device can be prevented from being blocked by the silt in the process of drawing the accumulated water in the well, the water treatment device can run normally, the safety of lives and properties of workers in the well is protected, accumulated water is pumped out by the water pump 302 through the water pumping pipe 303 and flows into the water pumping box 301, so that the pumped accumulated water cannot flow back into the well again, the accumulated water in the well is kept to be reduced continuously, and the safety of the workers in the well is protected;

the kinetic energy component 3 further comprises a rotating shaft 305, two ends of the rotating shaft 305 are rotatably connected to the inner wall of the storage pool 2, one end of the surface of the rotating shaft 305 is fixedly connected with blades 306 which are uniformly distributed, the rotating shaft 305 rotatably connected to the inner wall of the storage pool 2 can stably rotate on the inner wall of the storage pool 2, when water flows on the surface of the blades 306, the rotating shaft 305 is driven to rotate along with the flow of the water, and then when accumulated water in a hoistway is pumped out, the rotating shaft 305 is driven to rotate through the blades 306, a siphon 304 is arranged inside the pumping box 301, one end of the siphon 304 is close to the inner bottom wall of the pumping box 301, the other end of the siphon 304 penetrates through the inner bottom wall of the pumping box 301 and extends into the storage pool 2, the other end of the siphon 304 is located at the upper end of the blades 306, and the highest position of the siphon 304 is lower than the height of the pumping box 301, and then when the water pump 302 is about to fully hold the water pumping tank 301, the accumulated water in the water pumping tank 301 is discharged into the storage tank 2 through the siphon 304, the lower end of the siphon 304 is located at one side of the rotating shaft 305, so that the water flow in the siphon 304 will impact on the paddle 306 at one side of the rotating shaft 305, when the paddle 306 at one side is impacted by the water flow, the rotating shaft 305 will be driven to rotate, the kinetic energy component 3 further comprises a slurry pipe 309, the slurry pipe 309 is arranged at the lower end of the rotating shaft 305, one end of the slurry pipe 309 penetrates through the inner wall of the storage tank 2 and extends to the outside of the storage tank 2, the inner wall of the slurry pipe 309 is rotatably connected with a auger plate 310, the slurry deposited in the well makes the pipeline difficult to discharge, the slurry can be conveyed to the inside of the storage tank 2 through the auger plate 310, and then the slurry in the well can be conveyed to the outside of the well, thereby keeping the slurry in the well from affecting the normal work of workers, the life safety of operators in a well is protected, the inner wall of the auger plate 310 is fixedly connected with a rotating mud shaft 307, the upper end of the rotating mud shaft 307 and the surface of the rotating shaft 305, which is far away from the blade 306, are fixedly connected with bevel gears 308, the two bevel gears 308 are meshed and connected, the lower end of the surface of the rotating mud shaft 307 is fixedly connected with a lug 311, when the rotating shaft 305 rotates under the impact of water flow in the water pumping box 301, the other bevel gear 308 can be driven to rotate, the rotating mud shaft 307 is driven to rotate under the drive of the meshed and connected bevel gears 308, under the drive of the rotating mud shaft 307, the auger plate 310 can drive the mud mortar in the well to be conveyed out of the well along with the rotation of the rotating mud shaft 307, and the environment in the well is more convenient for the construction operation of the operators;

the separation assembly 4 comprises a separation block 403 and a separation box 401, the separation box 401 is communicated with a water drawing pipe 1, the separation block 403 is hinged to the inner wall of the separation box 401, the upper end of the separation block 403 and the inner wall of the separation box 401 form an upper cavity, the upper cavity is communicated with a water drawing pipe 303, the lower end of the separation block 403 and the inner wall of the separation box 401 form a lower cavity, the lower cavity is communicated with a mud pipe 309, one end of a rotating mud shaft 307 is rotatably connected with the inner wall of the lower cavity, the separation box 401 is a fully-enclosed box body, when water is drawn by a water pump 302, negative pressure is formed inside the separation box 401, mud water in a well is drawn into the separation box 401 through the water drawing pipe 1, the water drawing pipe 1 is communicated with the upper cavity, the mud water is conveyed into the upper cavity through the water drawing pipe 1, the water and the mud can be precipitated and separated through the separation block 403, and further, when the mud passes through the separation block 403, the mud is deposited in the lower chamber, the auger plate 310 is driven to convey mud by rotating the mud shaft 307, accumulated water in the upper chamber can be conveyed into the water pumping box 301 through the water pumping pipe 303, so that blockage in the tax collection process can be prevented, the water control effect of the water control device is kept, the life and property safety of workers in a well is protected, the inner wall of the separation box 401 is fixedly connected with a concave arc fixture block 402, the inner side of the concave arc fixture block 402 is slidably connected with one side of the separation block 403, the surface of the separation block 403 is provided with uniformly distributed settling holes 405, the lower end of the separation block 403 is fixedly connected with a sloping plate 404, the lower end of the sloping plate 404 is in contact with the convex block 311, the convex block 311 is driven to rotate when the mud shaft 307 rotates, the sloping plate 311 is in periodic contact with the sloping plate 404 when the convex block 311 rotates, the sloping plate 404 is periodically abutted, and when the sloping plate 404 ascends, can drive separation piece 403 to carry out the arc motion, the inside of separation piece 403 is provided with a plurality of precipitation holes 405, make ponding mud can pass through precipitation holes 405 when contacting separation piece 403, the internal range at precipitation holes 405 is little, make the diffusion scope of mud reduce, and then deposit with higher speed, periodic lifting when separation piece 403 rotates along with rotating mud axle 307, and then carry out sliding motion in concave arc fixture block 402's inboard, make can be when separation piece 403 shakes the mud vibrations in the precipitation holes 405 of inside compact, extrude unnecessary moisture, also can reduce the inside condition emergence of blockking up that appears of precipitation holes 405 simultaneously.

The working principle is as follows: when the water drawing pipe 1 is placed at the position where the water enters the inside accumulated water, after the water pump 302 is started, negative pressure is formed inside the separation box 401, the accumulated water is drawn out through the water drawing pipe 1 and enters the inside of the separation box 401, in the inside of the separation box 401, the accumulated water in the slurry can rapidly sink the slurry through the settling hole 405 when contacting with the separation block 403, the slurry is separated from the accumulated water, the accumulated water can be drawn out under the action of the water pump 302 and enters the inside of the water drawing box 301, when the inside of the water drawing box 301 is about to be full, the siphon 304 can be triggered to draw out the water in the water drawing box 301 and inject the water into the inside of the storage pool 2, when the siphon 304 conveys the accumulated water in the water drawing box 301 to the storage pool 2, the siphon 304 can drive water flow to impact the side blade 306, so that the blade 306 drives the rotating shaft 305 to rotate, and then the bevel gear 308 can be driven to rotate when the rotating shaft 305 rotates, under the condition that two bevel gears 308 meshing connect, and then can drive when rotating axis 305 rotates and rotate the mud axle 307 together, when rotating mud axle 307 and rotating, can drive through its fixed connection's auger board 310 and rotate, carry the inside to the storage pool 2 with the deposit mud in the lower part cavity, and when rotating the rotation of mud axle 307, can drive lug 311 and rotate the operation, and then can promote separation block 403 and move about, make and can push separation block 403 to carry out the arc motion through lug 311 periodicity when rotating mud axle 307 and rotating, and then the condition that appears blockking up in the precipitation hole 405 takes place, it can be comparatively lasting operation to have kept the water treatment device, constructor's life and property safety in the well has been protected.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a geological engineering is with preventing and treating water installation, includes holding up basin (2), its characterized in that: a kinetic energy component (3) is arranged at the upper end of the storage pool (2), a separation component (4) is arranged on one side of the kinetic energy component (3), and a water drawing pipe (1) is communicated with one side of the separation component (4);

kinetic energy subassembly (3) are including suction box (301), suction box (301) fixed connection is in the upper end of storage pool (2), the inner wall fixedly connected with water pumper (302) of suction box (301), one side intercommunication of water pumper (302) has drinking-water pipe (303), the other end of drinking-water pipe (303) runs through out suction box (301).

2. The water control device for geological engineering according to claim 1, characterized in that: kinetic energy subassembly (3) still include axis of rotation (305), the both ends of axis of rotation (305) are all rotated and are connected in the inner wall of holding up basin (2), the surperficial one end fixedly connected with evenly distributed's of axis of rotation (305) leaf board (306).

3. The water control device for geological engineering according to claim 1, characterized in that: the inside of drawing water tank (301) is provided with siphon (304), the one end of siphon (304) is close to the interior diapire of drawing water tank (301), the other end of siphon (304) runs through the interior diapire of drawing water tank (301) and extends to the inside of holding reservoir (2), the other end of siphon (304) is located the upper end of paddle (306).

4. The water control device for geological engineering according to claim 1, characterized in that: kinetic energy subassembly (3) still include mud pipe (309), mud pipe (309) set up in the lower extreme of axis of rotation (305), the one end of mud pipe (309) runs through the inner wall of holding vessel (2) and extends to the outside of holding vessel (2), the inner wall of mud pipe (309) rotates and is connected with auger plate (310).

5. The water control device for geological engineering according to claim 4, characterized in that: the inner wall fixedly connected with of auger plate (310) rotates mud axle (307), the equal fixedly connected with bevel gear (308) in surface that the upper end of rotating mud axle (307) and axis of rotation (305) kept away from leaf plate (306), two bevel gear (308) meshing connects, the surperficial lower extreme fixedly connected with lug (311) of rotating mud axle (307).

6. The water control device for geological engineering according to claim 5, characterized in that: the separation assembly (4) comprises a separation block (403) and a separation box (401), the separation box (401) is communicated with the water drawing pipe (1), the separation block (403) is hinged to the inner wall of the separation box (401), an upper cavity is formed by the upper end of the separation block (403) and the inner wall of the separation box (401), the upper cavity is communicated with the water drawing pipe (303), a lower cavity is formed by the lower end of the separation block (403) and the inner wall of the separation box (401), the lower cavity is communicated with the mud pipe (309), and one end of the rotating mud shaft (307) is rotatably connected with the inner wall of the lower cavity.

7. The water control device for geological engineering according to claim 6, characterized in that: the inner wall fixedly connected with concave arc fixture block (402) of separator box (401), the inboard of concave arc fixture block (402) and one side sliding connection of separation piece (403), evenly distributed's precipitation hole (405) have been seted up on the surface of separation piece (403), the lower extreme fixedly connected with swash plate (404) of separation piece (403), the lower extreme and the lug (311) of swash plate (404) contact.

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