CN215388127U

CN215388127U - Movable sand-water separator

Info

Publication number: CN215388127U
Application number: CN202121542168.7U
Authority: CN
Inventors: 沈杰; 沈笑妍
Original assignee: Zhangzhou Zhongmao Environmental Engineering Co ltd
Current assignee: Zhangzhou Zhongmao Environmental Engineering Co ltd
Priority date: 2021-07-08
Filing date: 2021-07-08
Publication date: 2022-01-04
Anticipated expiration: 2031-07-08

Abstract

The utility model relates to the technical field of sand-water separation equipment, in particular to a movable sand-water separator which comprises a bottom plate, wherein rollers are symmetrically arranged below the bottom plate, a shell, an overflow cavity and a motor are arranged on the bottom plate through a rack, a rotating shaft and a spiral blade are arranged at the output end of the motor, a feed inlet is formed in one side of the top end face of the shell, a weir plate is fixedly arranged on the peripheral side of the feed inlet, a sand settling cavity is formed in one side of the bottom end face of the shell, a sand outlet is formed between one side of the top wall of the sand settling cavity and one side of the bottom end face of the shell, and a drain pipe is communicated with the middle part of the bottom end face of the sand settling cavity. According to the sand-water separation device, the roller is arranged, so that an operator can move the sand-water separator conveniently, the screen is arranged in the sand settling cavity, water filtration and dehydration can be performed on a sand-water mixture, meanwhile, the operator can move the grid plate along the inverted T-shaped rod, and further, dredging is performed on sand in the screen, so that screen holes of the screen are prevented from being blocked, and the sand-water separation efficiency is greatly improved.

Description

Movable sand-water separator

Technical Field

The utility model relates to the technical field of sand-water separation equipment, in particular to a movable sand-water separator.

Background

The sand-water separator is mainly used for carrying out sand-water separation on a mud-water mixture discharged by the sand removing equipment of the aeration sand basin so as to be beneficial to transportation, the existing sand-water separator is single in functional structure, not only is inconvenient to move, but also cannot carry out water filtering and dewatering operation on separated sand grains, and further greatly reduces the sand-water separation efficiency, and therefore, a movable sand-water separator is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a movable sand-water separator.

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

a movable sand-water separator comprises a bottom plate, wherein rollers are symmetrically arranged on two sides of the bottom end face of the bottom plate, a shell is arranged in the middle of the top end face of the bottom plate through a rack, an overflow cavity is arranged on one side of the shell, a motor is arranged on the other side of the shell, a rotating shaft is fixedly arranged at the output end of the motor through a coupling and penetrates through the side wall of the shell, and the outside of rotation axis is provided with the spiral leaf, one side of casing top end face is provided with the feed inlet, and the week side installation of feed inlet is fixed with the weir plate, one side of casing bottom end face can be dismantled through the screw and be provided with heavy husky chamber, is equipped with out husky mouth between one side of heavy husky chamber roof and one side of casing bottom end face, and the middle part intercommunication of heavy husky chamber bottom end face has the drain pipe, and the spiral cover is fixed in the spiral shell of one end spiral shell of drain pipe, and the middle part symmetry of heavy husky intracavity wall is provided with the water conservancy diversion piece, and the level is provided with the screen cloth between the water conservancy diversion piece.

Preferably, the shell is installed in an inclined mode, and the included angle between the shell and the horizontal plane is 20-30 degrees.

Preferably, the upper part of one side of the overflow cavity is penetrated through the upper part of the side wall of the shell, and the middle part of the bottom end face of the overflow cavity is communicated with an overflow pipe.

Preferably, the upper part of the flow guide block is an inclined plane, the inclined plane of the flow guide block forms an included angle of 30-45 degrees with the horizontal plane, and the screen is located between the flow guide blocks.

Preferably, the middle part of the bottom end face of the flow guide block is vertically provided with an inverted T-shaped rod, a grid plate is arranged between the vertical parts of the inverted T-shaped rods in a sliding mode, a plurality of dredging needles are arranged on the top end face of the grid plate at equal intervals, and the needle tip parts of the dredging needles are opposite to the sieve holes of the sieve screen one by one.

Preferably, the vertical part of the inverted T-shaped rod is sleeved with a spring, and the spring is positioned between the bottom end face of the flow guide block and the upper end face of the grid plate.

Preferably, one side of the grating plate is provided with a convex block, the side wall of the sand settling cavity is vertically provided with a sliding groove, and the convex block penetrates through the sliding groove on the side wall of the sand settling cavity.

The utility model has the beneficial effects that:

according to the sand-water separator, the roller is arranged, so that an operator can move the sand-water separator conveniently, the screen is arranged in the sand settling cavity, water filtering and dewatering operations can be performed on a filtered sand-water mixture, meanwhile, the operator can move the grid plate along the inverted T-shaped rod, and then dredging on the grid plate is performed on sand in the screen, so that screen holes of the screen are prevented from being blocked, and sand-water separation efficiency is greatly improved.

Drawings

FIG. 1 is a schematic structural diagram of a movable sand-water separator according to the present invention;

FIG. 2 is a schematic structural diagram of a movable sand-water separator according to the present invention;

FIG. 3 is an enlarged view of A in FIG. 1 of a movable sand-water separator according to the present invention;

fig. 4 is an enlarged view of B in fig. 2 of the movable sand-water separator according to the present invention.

In the figure: the device comprises a base plate 1, rollers 2, a frame 3, a shell 4, an overflow cavity 501, an overflow pipe 502, a sand settling cavity 601, a drain pipe 602, a motor 7, a rotating shaft 8, a spiral blade 9, a weir plate 10, a flow guide block 11, a screen 12, an inverted T-shaped rod 13, a grating plate 14, a dredging needle 15, a convex block 16 and a spring 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-4, a movable sand-water separator comprises a bottom plate 1, wherein rollers 2 are symmetrically arranged on two sides of the bottom end face of the bottom plate 1, a shell 4 is arranged in the middle of the top end face of the bottom plate 1 through a rack 3, the shell 4 is installed in an inclined mode, and an included angle between the shell 4 and the horizontal plane is 20-30 degrees;

an overflow cavity 501 is arranged on one side of the shell 4, the upper part of one side of the overflow cavity 501 penetrates through the upper part of the side wall of the shell 4, an overflow pipe 502 is communicated with the middle part of the bottom end face of the overflow cavity 501, and water in the shell 4 can be better discharged by arranging the overflow cavity 501;

a motor 7 is arranged on the other side of the shell 4, a rotating shaft 8 is fixedly mounted at the output end of the motor 7 through a coupler, the rotating shaft 8 penetrates through the side wall of the shell 4, a spiral blade 9 is arranged on the outer side of the rotating shaft 8, when the motor 7 drives the spiral blade 9 on the rotating shaft 8 to rotate, the sand-water mixture is pushed by the spiral of the spiral blade 9, sand particles are deposited into the sand settling cavity 601 from the gap of the spiral blade 9, and meanwhile, the moisture separated from the sand particles is discharged through an overflow pipe 502 of the overflow cavity 501;

a feed inlet is formed in one side of the top end face of the shell 4, a weir plate 10 is fixedly installed on the periphery of the feed inlet, a sand settling chamber 601 is detachably arranged on one side of the bottom end face of the shell 4 through screws, a sand outlet is formed between one side of the top wall of the sand settling chamber 601 and one side of the bottom end face of the shell 4, a drain pipe 602 is communicated with the middle of the bottom end face of the sand settling chamber 601, a spiral cover is fixedly screwed at one end of the drain pipe 602, the separated sand grains can be subjected to water filtration and dehydration through the arrangement of the sand settling chamber 601, and meanwhile, the sand settling chamber 601 and the shell 4 are fixedly connected through screws, so that a subsequent operator can conveniently detach the sand settling chamber 601 and clean the sand;

the middle part of the inner wall of the sand settling cavity 601 is symmetrically provided with flow guide blocks 11, screens 12 are horizontally arranged between the flow guide blocks 11, the upper parts of the flow guide blocks 11 are inclined planes, the included angle between the inclined planes of the flow guide blocks 11 and the horizontal plane is 30-45 degrees, the screens 12 are positioned between the flow guide blocks 11, and the screens 12 can facilitate an operator to carry out water filtration and dehydration on separated sand grains;

the middle part of the bottom end surface of the diversion block 11 is vertically provided with an inverted T-shaped rod 13, a grating plate 14 is arranged between the vertical parts of the inverted T-shaped rods 13 in a sliding way, the top end surface of the grating plate 14 is equidistantly provided with a plurality of dredging needles 15, the needle point parts of the dredging needles 15 are opposite to the sieve pores of the sieve 12 one by one, the vertical part of the inverted T-shaped rod 13 is sleeved with a spring 17, and the spring 17 is positioned between the bottom end surface of the diversion block 11 and the upper end surface of the grid plate 14, one side of the grid plate 14 is provided with a convex block 16, the side wall of the sand settling cavity 601 is vertically provided with a sliding chute, and the convex block 16 is penetrated through the sliding chute on the side wall of the sand settling cavity 601, when the sieve pores of the sieve 12 are blocked by sand particles, an operator drives the dredging needle 15 on the grating plate 14 to move upwards through the convex block 16, so that the dredging needle 15 dredges the sand particles blocking the sieve pores of the sieve 12, the spring 17 has good elastic potential energy, and can better facilitate the restoration of the grating plate.

In this embodiment, an operator can move the sand-water separator to a required working area through the roller 2 arranged below the bottom plate 1, and turn on the power supply, and then inject the sand-water mixture into the shell 4 from above the weir plate 10, when the motor 7 drives the spiral blade 9 on the rotating shaft 8 to rotate, the sand-water mixture is pushed by the spiral of the spiral blade 9, so that sand particles are deposited into the sand settling cavity 601 from the gap of the spiral blade 9, and simultaneously, the water separated from the sand particles is discharged through the overflow pipe 502 of the overflow cavity 501;

wherein, the shell 4 is installed in an inclined way, and the included angle between the shell 4 and the horizontal plane is 20-30 degrees, when the sand-water mixed liquid enters the shell 4 which is installed in an inclined way, sand particles in the mixed liquid can be better caused to descend and deposit at the bottom of the shell 4 due to the dead weight;

the sand settling chamber 601 is arranged, so that the separated sand grains can be better subjected to water filtering and dewatering operation, and meanwhile, the sand settling chamber 601 and the shell 4 are fixedly connected through screws, so that a subsequent operator can conveniently detach the sand settling chamber 601, and the sand in the sand settling chamber 601 is cleaned;

furthermore, the screen 12 in the sand settling chamber 601 can facilitate an operator to perform water filtration and dehydration operations on the separated sand, when the sieve pores of the screen 12 are blocked by the sand, the operator drives the dredging needle 15 on the grid plate 14 to move upwards through the bump 16, so that the dredging needle 15 dredges the sand blocking the sieve pores of the screen 12, wherein the spring 17 has good elastic potential energy, and the grid plate can be better and conveniently reset;

can be better be convenient for the operator through setting up the gyro wheel and remove this sand-water separator to set up the screen cloth and can carry out the operation of drainage and dehydration to the husky water mixture that filters out in the desilting intracavity, the operator can follow the bar removal grid board of falling T shape simultaneously, and then makes the mediation on the grid board dredge to the sand in the screen cloth, thereby avoids the sieve mesh of screen cloth to appear blockking up, has improved sand-water separation efficiency greatly.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims

1. A movable sand-water separator comprises a bottom plate (1) and is characterized in that rollers (2) are symmetrically arranged on two sides of the bottom end face of the bottom plate (1), a shell (4) is arranged in the middle of the top end face of the bottom plate (1) through a rack (3), an overflow cavity (501) is arranged on one side of the shell (4), a motor (7) is arranged on the other side of the shell (4), a rotating shaft (8) is fixedly mounted at the output end of the motor (7) through a coupler, the rotating shaft (8) penetrates through the side wall of the shell (4), spiral blades (9) are arranged on the outer side of the rotating shaft (8), a feed inlet is arranged on one side of the top end face of the shell (4), weir plates (10) are fixedly mounted on the periphery sides of the feed inlet, a sand settling cavity (601) is detachably arranged on one side of the bottom end face of the shell (4) through screws, a sand outlet is arranged between one side of the top wall of the sand settling cavity (601) and one side of the bottom end face of the shell (4), the middle part of the bottom end face of the sand settling cavity (601) is communicated with a drain pipe (602), one end of the drain pipe (602) is screwed and fixed with a spiral cover, the middle part of the inner wall of the sand settling cavity (601) is symmetrically provided with flow guide blocks (11), and a screen (12) is horizontally arranged between the flow guide blocks (11).

2. A movable sand-water separator according to claim 1, characterized in that the housing (4) is mounted inclined and that the angle between the housing (4) and the horizontal is 20-30 °.

3. The movable sand-water separator according to claim 1, characterized in that the upper part of one side of the overflow cavity (501) is penetrated with the upper part of the side wall of the shell (4), and the middle part of the bottom end surface of the overflow cavity (501) is communicated with an overflow pipe (502).

4. The movable sand-water separator as claimed in claim 1, wherein the upper part of the deflector block (11) is an inclined surface, the inclined surface of the deflector block (11) forms an angle of 30-45 ° with the horizontal plane, and the screen (12) is located between the deflector blocks (11).

5. The movable sand-water separator as claimed in claim 1, wherein the middle part of the bottom end surface of the flow guide block (11) is vertically provided with an inverted T-shaped rod (13), a grating plate (14) is slidably arranged between the vertical parts of the inverted T-shaped rods (13), the top end surface of the grating plate (14) is equidistantly provided with a plurality of dredging needles (15), and the needle tips of the dredging needles (15) are opposite to the sieve holes of the sieve mesh (12).

6. A movable sand-water separator according to claim 5, characterized in that the vertical part of the inverted T-shaped bar (13) is provided with a spring (17), and the spring (17) is arranged between the bottom end surface of the deflector block (11) and the upper end surface of the grid plate (14).

7. A movable sand-water separator according to claim 5, characterized in that one side of the grating plate (14) is provided with a convex block (16), the side wall of the sand settling chamber (601) is vertically provided with a sliding groove, and the convex block (16) penetrates through the sliding groove of the side wall of the sand settling chamber (601).