CN220633321U - Do benefit to sand-water separator of broken sand screening - Google Patents

Abstract

The application discloses do benefit to sand-water separation device of broken sand screening relates to sand-water separation equipment field, including two backup pads, two be provided with screening mechanism between the backup pad, be fixed with the supporting leg that two symmetries set up in the backup pad, one side of backup pad is provided with cistern one, be provided with mixing mechanism on the cistern, two be provided with cistern two between the backup pad, the one end that cistern one was kept away from to cistern two is provided with and connects the material pond, two it has the discharge gate to open on the backup pad is close to one that connects the material pond. The water in the first water reservoir is pumped out by the water suction pump and discharged into the screening mechanism, then the screening mechanism screens the crushed sand in the water, the screened crushed sand is sent to the discharge port by the screening mechanism, and the water containing the crushed sand in the first water reservoir is sent to the screening mechanism for screening, so that the possibility that the crushed sand is taken away by water flow is reduced, and the screening efficiency is improved.

Description

Do benefit to sand-water separator of broken sand screening

Technical Field

The application relates to the field of sand-water separation equipment, in particular to a sand-water separation device beneficial to screening crushed sand.

Background

Building construction refers to the process of construction, and in the construction, an engineering operation site is generally called a construction site or a building construction site, and when working on the construction site, a large amount of waste water is generally generated, and the waste water often contains crushed sand.

The utility model provides a green construction sand-water separator who does benefit to broken sand screening mentioned in current chinese patent (bulletin number: CN 214130610U), including the conveyer belt, place in the water catch basin that ground was deleted and sand pool, the conveyer belt is equipped with the hole that leaks that is used for filtering waste water, the water catch basin is used for accepting the waste water that leaks down in hole, sand pool is used for accepting the broken sand that the conveyer belt discharge gate sent out, the conveyer belt rotation is connected with the connecting roller, the length direction of connecting roller is unanimous in the width direction of conveyer belt, the connecting roller is connected with a plurality of through-hole needles that are used for inserting in leaking the hole integratively, pass through the trend distribution of through-hole needle around the connecting roller, it is difficult for the effect of jam to leak the hole.

However, in actual operation, when the wastewater is discharged from the water outlet pipe to the conveyor belt, the conveyor belt rotates and contacts the wastewater, the wastewater is blocked by the conveyor belt and possibly flows along the direction of the conveyor belt, and then crushed sand in the wastewater flows away along with water flow, so that the filtering of the crushed sand cannot be well realized.

Disclosure of Invention

The purpose of the present application is: for solving the problem that the waste water that proposes in the above-mentioned prior art receives the barrier of conveyer belt and probably appears flowing along the direction of conveyer belt, then causes the broken sand in the waste water to follow rivers and flow away, the filtration of broken sand can not be fine realization, this application provides a do benefit to the sand-water separation device of broken sand screening.

The application specifically adopts the following technical scheme for realizing the purposes:

the utility model provides a do benefit to sand-water separator of broken sand screening, includes two backup pads, two be provided with screening mechanism between the backup pad, be fixed with the supporting leg that two symmetries set up in the backup pad, one side of backup pad is provided with cistern one, install the suction pump on the cistern one, be provided with mixing mechanism on the cistern, two be provided with cistern second between the backup pad, the one end that cistern second kept away from cistern one is provided with and connects the material pond, two it has the discharge gate to open on the backup pad is close to one that connects the material pond, screening mechanism includes screening net, screening net is cylindrically, the both ends and the backup pad of screening net are rotation connection, two be provided with drive assembly between the backup pad, be provided with the baffle on the screening net.

By adopting the technical scheme, the water in the first reservoir is pumped out by the water pump and discharged into the screening mechanism, then the screening mechanism screens the crushed sand in the water, the screened crushed sand is sent to the discharge port by the screening mechanism and then falls into the receiving tank, and the screened water directly enters the second reservoir, so that the possibility that the crushed sand is taken away by water flow is reduced, and the screening efficiency is improved; utilize drive assembly to let screening net rotate, the baffle blocks rivers simultaneously, and screening net leaves the broken sand, utilizes the baffle to send into the broken sand and connects the material pond to screening net rotation drives broken sand and rolls, makes the water that adheres to on the broken sand further get into cistern two, thereby makes the reduction rivers flow take away the possibility of broken sand, improves the efficiency of screening.

Further, the baffle is spiral, the baffle is fixed on the inner wall of screening net.

Through adopting above-mentioned technical scheme, the baffle is rotatory with screening net follow-up, and the baffle will break sand and slowly remove the discharge gate to reduce broken sand and washed away by water's possibility, improved the efficiency of screening.

Further, the drive assembly comprises a drive roller, the drive roller is located between two backup pads, the both ends and the supporting leg of drive roller rotate to be connected, the drive roller offsets with screening net and contacts, the one end of drive roller is provided with driving motor one, driving motor one and supporting leg fixed connection, driving motor one's output runs through the supporting leg, driving motor one's output and drive roller fixed connection, one side of drive roller is provided with the backing roll, the both ends and the supporting leg rotation of backing roll are connected, the backing roll offsets with screening net and contacts.

Through adopting above-mentioned technical scheme, driving motor one utilizes the drive roller to rotate and drives the screening net of contradicting, and screening net is rotatory with the crushed sand that is sieved down to let the crushed sand can roll and further let moisture break away.

Further, be provided with the splash guard on the screening net, the splash guard is the arc, the both ends and the backup pad fixed connection of splash guard.

Through adopting above-mentioned technical scheme, the water that adheres to on the screening net is thrown away the water and is kept off by the splash guard and drip into reservoir two down to reduce the possibility that sewage splashes in the screening process.

Further, two support rods which are symmetrically arranged are fixed between the two support plates, cleaning brushes are fixed on the support rods, and the cleaning brushes are in contact with the inner wall of the screening net.

Through adopting above-mentioned technical scheme, the inner wall of screening net contacts with the clearance brush, lets the broken sand that adheres to at screening net inner wall fall down, gathers together to the possibility that broken sand adheres to on screening net inner wall has been reduced.

Further, the mixing mechanism comprises a mounting plate fixed on the first reservoir, a second driving motor is fixed on the mounting plate, the output end of the second driving motor penetrates through the mounting plate, a rotating rod is fixed at the output end of the second driving motor, and an agitating assembly is arranged at one end, far away from the driving motor, of the rotating rod.

Through adopting above-mentioned technical scheme, start driving motor two and drive the dwang, the dwang drives and stirs the subassembly to the interior water of cistern one to reduce the possibility that the sediment appears in cistern one to the crushed sand, improve the screening efficiency of crushed sand.

Further, the stirring assembly comprises a stirring block rotatably connected to a bottom of the reservoir, and a stirring rod is fixed on the stirring block.

Through adopting above-mentioned technical scheme, stirring piece drives the stirring rod and rotates, and the stirring rod stirs the water in the cistern one to reduce the sediment in the cistern one, improved the efficiency of screening.

In summary, the present application includes at least one of the following benefits;

1. the utility model discloses a row is taken out to screening net through utilizing suction pump with cistern water, start driving motor one simultaneously, let driving motor one utilize the drive roller to drive screening net rotatory, the baffle carries out the check to rivers, then the broken sand of aquatic has remained in screening net through the filtration of screening net, then screening net continues to rotate, screening net drives the broken sand that filters out and rolls further reduction water content, then the baffle on the screening net inner wall removes the broken sand to the discharge gate, the possibility that can reduce broken sand by rivers wash away has been reached, the purpose of broken sand filterable effect has been improved.

2. The utility model discloses a driving the dwang through driving motor two, the dwang drives and stirs the piece, stirs the piece and drive and stir the interior water of pole to cistern one, has reached the possibility that can reduce the broken sand deposit in a cistern bottom, improves the purpose of filter effect.

Drawings

FIG. 1 is a first perspective view of a separation device of the present application;

FIG. 2 is a second perspective view of the separation device of the present application;

FIG. 3 is a third perspective view of the separation device of the present application;

fig. 4 is a schematic cross-sectional view of a first reservoir in the present application.

Reference numerals illustrate:

1. a support plate; 2. support legs; 3. a screening mechanism; 31. screening net; 32. a drive assembly; 321. driving a first motor; 322. a driving roller; 323. a support roller; 33. a baffle; 4. a first reservoir; 5. a reservoir II; 6. a water pump; 7. a mixing mechanism; 71. a second driving motor; 72. a rotating lever; 73. an agitation assembly; 731. a stirring block; 732. an agitating rod; 74. a mounting plate; 8. a splash shield; 9. a support rod; 10. cleaning brushes; 11. a discharge port; 12. and a receiving pool.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a do benefit to sand-water separator of broken sand screening.

Referring to fig. 1, fig. 2 and fig. 3, a green construction sand-water separator for facilitating screening of crushed sand comprises two support plates 1, a screening mechanism 3 is arranged between the two support plates 1, two symmetrically arranged support legs 2 are fixed on the support plates 1, a first reservoir 4 is arranged on one side of the support plates 1, a water suction pump 6 is arranged on the first reservoir 4, a mixing mechanism 7 is arranged on the first reservoir 4, a second reservoir 5 is arranged between the two support plates 1, one end, far away from the first reservoir 4, of the second reservoir 5 is provided with a receiving tank 12, and a discharge hole 11 is formed in one, close to the receiving tank 12, of the two support plates 1. When the sand-water separation device is needed, firstly, water which is needed to be screened and crushed sand is stored in the first reservoir 4, and when the water is stored in a certain amount, the first reservoir 4 is pumped out and discharged into the screening mechanism 3 by the water pump 6, then the crushed sand in the water is screened by the screening mechanism 3, the screened crushed sand is sent to the discharge port 11 by the screening mechanism 3 and falls into the receiving tank 12, the screened water directly enters the second reservoir 5, and then is discharged in a directional mode, and the crushed sand-containing water in the first reservoir 4 is sent into the screening mechanism 3 for screening, so that the possibility that the crushed sand is taken away by water flow is reduced, and the screening efficiency is improved.

Referring to fig. 1, 2 and 3, the screening mechanism 3 includes a screening net 31, the screening net 31 is cylindrical, two ends of the screening net 31 are rotatably connected with the support plates 1, a driving assembly 32 is disposed between the two support plates 1, and a baffle 33 is disposed on the screening net 31. The suction pump 6 discharges the water mixed with the crushed sand in the first reservoir 4 into the screening net 31, the supporting plate 1 close to the first reservoir 4 blocks the sputtered water to a certain extent, then the screening net 31 is rotated by the driving assembly 32, meanwhile, the baffle 33 blocks the water flow, the screening net 31 leaves the crushed sand, the crushed sand is conveyed into the receiving tank 12 by the baffle 33, the screening net 31 is rotated to drive the crushed sand to roll, the water attached to the crushed sand further enters the second reservoir 5, and the water containing the crushed sand is screened by the screening net 31, so that the possibility of taking the crushed sand away by the water flow is reduced, and the screening efficiency is improved.

Referring to fig. 1 and 2, the baffle 33 is spiral, and the baffle 33 is fixed to the inner wall of the screen 31. When the crushed sand is screened and left in the screening net 31, the driving assembly 32 drives the screening net 31 to rotate, the baffle plate 33 also rotates, the crushed sand is slowly moved to the discharge hole 11 by the baffle plate 33, then enters the receiving tank 12 from the discharge hole 11, and the crushed sand is slightly sent out of the screening net 31 by the baffle plate 33, so that the possibility that the crushed sand is washed away by water is reduced, and the screening efficiency is improved.

Referring to fig. 1, 2 and 3, the driving assembly 32 includes a driving roller 322, the driving roller 322 is located between two supporting plates 1, two ends of the driving roller 322 are rotatably connected with supporting legs 2, the driving roller 322 is abutted against the screening net 31, one end of the driving roller 322 is provided with a driving motor 321, the driving motor 321 is fixedly connected with the supporting legs 2, an output end of the driving motor 321 penetrates through the supporting legs 2, an output end of the driving motor 321 is fixedly connected with the driving roller 322, one side of the driving roller 322 is provided with a supporting roller 323, two ends of the supporting roller 323 are rotatably connected with the supporting legs 2, and the supporting roller 323 is abutted against the screening net 31. The first driving motor 321 is started, the first driving motor 321 drives the driving roller 322 to rotate, the driving roller 322 rotates to drive the screening net 31 which is abutted, the screening net 31 starts to rotate, the screening net 31 rotates with the screened crushed sand, the screening net 31 moves to the discharge port 11 by the baffle 33, the screening net 31 rotates by the first driving motor 321, and accordingly the crushed sand can roll to further separate water.

Referring to fig. 1 and 2, a splash guard 8 is provided on a screen 31, the splash guard 8 is arc-shaped, and both ends of the splash guard 8 are fixedly connected with a support plate 1. When the screening net 31 starts to rotate, water attached to the screening net 31 can be thrown out, the thrown-out water is blocked by the splash guard 8, then water drops on the splash guard 8 enter the water reservoir II 5, and the screening net 31 is blocked by the splash guard 8, so that the possibility of splashing of sewage in the screening process is reduced.

Referring to fig. 1, two symmetrically arranged support rods 9 are fixed between two support plates 1, and cleaning brushes 10 are fixed on the support rods 9, and the cleaning brushes 10 are abutted against the inner wall of a screening net 31. Because some broken sand contains moisture and will adhere to the inner wall of the screening net 31, when the screening net 31 rotates, the inner wall of the screening net 31 is contacted with the cleaning brush 10, and then the cleaning brush 10 sweeps the inner wall of the screening net 31, so that the broken sand adhered to the inner wall of the screening net 31 falls down and is concentrated together, and the inner wall of the rotating screening net 31 is cleaned by utilizing the cleaning brush 10, so that the possibility that the broken sand adheres to the inner wall of the screening net 31 is reduced.

Referring to fig. 1, 2 and 4, the mixing mechanism 7 includes a mounting plate 74 fixed on the first reservoir 4, a second driving motor 71 is fixed on the mounting plate 74, an output end of the second driving motor 71 penetrates through the mounting plate 74, a rotating rod 72 is fixed at an output end of the second driving motor 71, and an agitating assembly 73 is arranged at one end of the rotating rod 72 away from the driving motor. When the sand-water mixture containing crushed sand is in the first water storage tank 4, when the water suction pump 6 pumps water, the second driving motor 71 is started, the second driving motor 71 drives the rotating rod 72, the rotating rod 72 drives the stirring assembly 73 to stir the inner water of the first water storage tank 4, and the second driving motor 71 drives the stirring assembly 73 to stir the inner water of the first water storage tank 4, so that the possibility that the crushed sand is precipitated in the first water storage tank 4 is reduced, and the screening efficiency of the crushed sand is improved.

Referring to fig. 1 and 4, the agitating assembly 73 includes an agitating block 731 rotatably coupled to the bottom of the reservoir one 4, and an agitating rod 732 is fixed to the agitating block 731. When the rotating rod 72 rotates, the rotating rod 72 drives the stirring block 731 to rotate at the bottom of the first water storage tank 4, the stirring block 731 drives the stirring rod 732 to rotate, and the stirring rod 732 stirs water in the first water storage tank 4, so that precipitation in the first water storage tank 4 is reduced and screening efficiency is improved by using the stirring rod 732 for stirring.

Working principle: when the sand-water separation device is needed, firstly, water of sand to be screened and crushed sand is stored in the first reservoir 4, when the water is stored in a certain amount, the second driving motor 71 is started to enable the second driving motor 71 to drive the stirring rod 732 to stir sand and water in the first reservoir 4 by using the rotating rod 72 to mix, sediment is reduced, then the first reservoir 4 water is pumped out and discharged to the screening net 31 by using the water suction pump 6, meanwhile, the first driving motor 321 is started to enable the first driving motor 321 to drive the screening net 31 to rotate by using the driving roller 322, then the crushed sand in the water is filtered by the screening net 31 and is remained in the screening net 31, the screening net 31 continues to rotate, the screening net 31 drives the filtered crushed sand to roll for further reducing water content, then the baffle 33 on the inner wall of the screening net 31 moves the crushed sand to the discharge hole 11, then enters the receiving tank 12 from the discharge hole 11, and the water filtered by the screening net 31 enters the reservoir, and is discharged directionally.

Claims (7)

1. The utility model provides a do benefit to sand-water separator of broken sand screening, includes two backup pads (1), its characterized in that: be provided with screening mechanism (3) between backup pad (1), be fixed with supporting leg (2) that two symmetries set up on backup pad (1), one side of backup pad (1) is provided with cistern one (4), install suction pump (6) on cistern one (4), be provided with mixing mechanism (7) on cistern one (4), two be provided with cistern two (5) between backup pad (1), the one end that cistern one (4) was kept away from to cistern two (5) is provided with and connects material pond (12), two it has discharge gate (11) to open on one that backup pad (1) is close to receiving material pond (12), screening mechanism (3) are including screening net (31), screening net (31) are cylindrically, the both ends and backup pad (1) of screening net (31) are the rotation and are connected, two be provided with drive assembly (32) between backup pad (1), be provided with baffle (33) on screening net (31).

2. A sand-water separator for facilitating screening of crushed sand according to claim 1, wherein: the baffle (33) is spiral, and the baffle (33) is fixed on the inner wall of the screening net (31).

3. A sand-water separator for facilitating screening of crushed sand according to claim 2, wherein: the driving assembly (32) comprises a driving roller (322), the driving roller (322) is located between two supporting plates (1), two ends of the driving roller (322) are rotationally connected with supporting legs (2), the driving roller (322) is abutted against screening nets (31), one end of the driving roller (322) is provided with a driving motor I (321), the driving motor I (321) is fixedly connected with the supporting legs (2), the output end of the driving motor I (321) penetrates through the supporting legs (2), the output end of the driving motor I (321) is fixedly connected with the driving roller (322), one side of the driving roller (322) is provided with a supporting roller (323), two ends of the supporting roller (323) are rotationally connected with the supporting legs (2), and the supporting roller (323) is abutted against the screening nets (31).

4. A sand-water separator for facilitating screening of crushed sand according to claim 3, wherein: the screening net (31) is provided with a splash guard (8), the splash guard (8) is arc-shaped, and two ends of the splash guard (8) are fixedly connected with the supporting plate (1).

5. A sand-water separator for facilitating screening of crushed sand as claimed in claim 4, wherein: two supporting rods (9) which are symmetrically arranged are fixed between the two supporting plates (1), cleaning brushes (10) are fixed on the supporting rods (9), and the cleaning brushes (10) are in contact with the inner wall of the screening net (31).

6. A sand-water separator for facilitating screening of crushed sand according to claim 1, wherein: the mixing mechanism (7) comprises a mounting plate (74) fixed on the first reservoir (4), a second driving motor (71) is fixed on the mounting plate (74), the output end of the second driving motor (71) penetrates through the mounting plate (74), a rotating rod (72) is fixed at the output end of the second driving motor (71), and an agitating assembly (73) is arranged at one end, far away from the driving motor, of the rotating rod (72).

7. The sand-water separator for facilitating crushed sand screening according to claim 6, wherein: the stirring assembly (73) comprises a stirring block (731) rotatably connected to the bottom of the first water reservoir (4), and stirring rods (732) are fixed on the stirring block (731).