CN214422501U - Waste slurry treatment equipment - Google Patents

Abstract

The utility model relates to a waste slurry treatment equipment relates to the field of mud dehydration, especially relates to a waste slurry treatment equipment, including the frame, there is the basin in the frame beginning, and the wash port that is used for the drainage is seted up to one side of basin. Be provided with conveying part directly over the basin, the one side that lies in conveying part in the frame is provided with the material loading portion that is used for holding mud, and the opposite side is provided with and is used for carrying out extruded mud pressing device to mud, and conveying part top lies in the material loading portion and presses and is provided with the dispersion portion that is used for the silt dispersion between the mud device. During operation, carry the conveying part with mud on from through the material loading portion, transport to mud pressing device one side through the conveying part, when mud through dispersion portion, dispersion portion disperses mud, makes the water in the mud fully expose, then extrudes moisture through mud pressing device, has effectively improved the dehydration effect of device.

Description

Waste slurry treatment equipment

Technical Field

The application relates to the field of mud dewatering, in particular to waste mud treatment equipment.

Background

In the mortar production process, a large amount of waste gas and slurry are often generated, a large amount of mortar raw materials exist in the slurry, waste and environmental pollution are caused by discharge, and therefore the slurry is often required to be dehydrated and reused through a slurry treatment device.

The patent of grant bulletin No. CN210528746U discloses a two roller counterpressure sludge dewatering equipment, including the backup pad, one side of backup pad is rotated and is connected with first transmission shaft, the outer fixed surface of first transmission shaft is connected with the running roller, one side of backup pad is rotated and is connected with the pivot, go up the outer fixed surface of pivot and be connected with from the driving wheel, go up the running roller and go up the surface from the driving wheel and cup jointed the area of pressing, one side of backup pad is rotated and is connected with first roller bearing, the first vibrations piece of the outer fixed surface of first roller bearing is connected with.

With respect to the related art among the above, there are the following drawbacks: in the working process, the slurry is pressed into a whole solid, the inside of the slurry block is easy to have residual moisture, and the dehydration effect is poor.

SUMMERY OF THE UTILITY MODEL

In order to improve the dewatering effect of device, this application provides abandonment mud treatment facility.

The application provides a waste slurry treatment facility adopts following technical scheme:

abandonment mud treatment equipment, which comprises a frame, be provided with conveying part in the frame, conveying part includes filter cloth, a plurality of first drive roller and is used for driving about drive roller pivoted first driving source, and is a plurality of first drive roller rotates and sets up in the frame and be parallel to each other, the filter cloth is around establishing on first drive roller, one side of conveying part is provided with the material loading portion that is used for the material loading, the opposite side of conveying part is provided with the mud pressing device that is used for the dehydration, be provided with in the conveying part and be used for the dispersion portion with silt dispersion.

Through adopting above-mentioned technical scheme, the during operation, carry the filter cloth with mud on through the material loading portion, order about first drive roller through first driving source and rotate, drive the filter cloth and rotate, transport mud to being close to mud pressing device one side, disperse mud through dispersion portion in transporting the in-process, make the water in the mud fully expose, then extrude water from mud through mud pressing device to ooze from the filter cloth, effectively improved the dehydration effect of device.

Preferably, the mud pressing device includes a plurality of second drive rollers, presses the area and is used for driving about second drive roller pivoted second driving source, and is a plurality of the second drive roller rotates the setting and just is on a parallel with first drive roller in filter cloth top, and what press the area around establishing on a plurality of second drive rollers and with the filter cloth contact.

Through adopting above-mentioned technical scheme, after mud moved to mud pressing device one side, it started to rotate to drive the second drive roller through the second driving source order about, and the direction of rotation is opposite with first drive roller to drive and press the area and contact with mud, extrude water from the filter cloth, realized the effect of dehydration.

Preferably, including the material loading portion includes the feeding funnel, the discharge gate has been seted up along the width direction of conveying portion to the bottom of feeding funnel.

Through adopting above-mentioned technical scheme, after mud pours into the feeding funnel into, mud flows from the discharge gate to along the width direction of conveying part tiling on the filter cloth, make the water in the mud fully expose, and improved the area of contact of mud and filter cloth, effectively improved the dehydration effect of device.

Preferably, the feeding hopper is internally provided with a distributing roller in a rotating manner along the width direction of the conveying part, and the feeding hopper is provided with a third driving source for driving the distributing roller to rotate.

Through adopting above-mentioned technical scheme, after mud got into the feeding funnel, drove the branch material roller through the third driving source and begin to rotate, make the branch material roller extrude mud, with mud fully dispersed to make the more even of mud whereabouts.

Preferably, the dispersion portion includes installation pole and a plurality of dispersion pole, the installation pole sets up in the conveying portion top along the width direction of conveying portion, and is a plurality of the dispersion pole sets up in the one side of installation pole towards the conveying portion along the even interval of width direction of installation pole, and with the contact of conveying portion.

By adopting the technical scheme, in the process of moving the slurry on the filter cloth, the slurry is contacted with the dispersing rods, and the dispersing rods plough the slurry out of a plurality of gullies, so that the water is fully exposed from the slurry and then seeps out of the filter cloth, and the dehydration effect of the device is effectively improved.

Preferably, the mounting rod is arranged in a reciprocating sliding mode along the width direction of the conveying part, and a driving part for driving the mounting rod to slide is arranged on the rack.

By adopting the technical scheme, in the sliding process of the installation rod, the installation rod drives the dispersion rod to do transverse reciprocating motion, so that zigzag gullies are ploughed on the surface of the slurry, the length of the gullies of the slurry is longer, the surface area of the gullies of the slurry is larger, the moisture in the slurry is further exposed, and the dehydration effect of the device is further improved.

Preferably, the driving part comprises a cam and a fourth driving source for driving the cam to rotate, the cam is rotatably arranged on the rack, the rotation axis of the cam is perpendicular to the mounting rod, the side wall of the cam is abutted to the end of the mounting rod, and one end, far away from the cam, of the mounting rod is provided with an elastic piece for driving the mounting rod to be close to the cam.

Through adopting above-mentioned technical scheme, in the course of the work, order about the cam through the fourth drive source and rotate, and then order about the installation pole and slide to keeping away from cam one side, then order about the installation pole through the elastic component and slide to being close to cam one side, and then realized the effect that the installation pole reciprocated sliding.

Preferably, the dispersing part is provided with a plurality of groups, the dispersing parts are arranged at intervals along the length direction of the conveying part, and the dispersing rods are arranged adjacently in a staggered manner along the length direction of the conveying part.

By adopting the technical scheme, the gullies formed by the slurry are further dispersed by the dispersing rods arranged in a staggered mode, so that the moisture in the slurry is further exposed, and the dehydration effect of the device is further improved.

In summary, the present application includes at least one of the following beneficial technical effects:

when the mud moves on the surface of the filter cloth, gullies are ploughed on the surface of the mud through the dispersing rods, so that the moisture in the mud is exposed, and then the moisture is pressed out of the filter cloth through the mud pressing device, so that the dehydration effect of the device is effectively improved;

the mounting rods which slide back and forth drive the dispersing rods to plow out zigzag gullies, so that moisture in the slurry is further exposed, and the dehydration effect of the device is improved;

the material separating roller extrudes the slurry and fully disperses the slurry, so that the slurry falls more uniformly, the moisture in the slurry is fully exposed, and the dehydration effect of the device is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a partial cross-sectional view from another perspective of an embodiment of the present application.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a partially enlarged schematic view of a portion B in fig. 2.

Fig. 5 is a schematic structural view of a dispersing unit in the embodiment of the present application.

Description of reference numerals: 1. a frame; 11. a water tank; 12. a drain hole; 13. a first mounting plate; 14. a second mounting plate; 141. mounting a box; 15. a third mounting plate; 2. a conveying section; 21. a first driving roller; 22. a first drive source; 23. a sieve plate; 24. filtering cloth; 3. a feeding part; 31. feeding a hopper; 311. a discharge port; 32. a material distributing roller; 33. a third drive source; 4. a dispersing section; 41. mounting a rod; 42. a drive section; 421. an elastic member; 422. a cam; 423. a fourth drive source; 43. a dispersion rod; 5. a mud pressing device; 51. a second driving roller; 52. a second drive source; 53. pressing the belt; 6. a first squeegee; 7. a second squeegee.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses waste slurry treatment equipment. Referring to fig. 1, a waste sludge treatment apparatus includes a frame 1, a water tank 11 formed on the frame 1, and a drain hole 12 formed at one side of the water tank 11 for draining water. A conveying part 2 is arranged right above the water tank 11, a feeding part 3 used for containing slurry is arranged on one side of the conveying part 2 on the rack 1, a mud pressing device 5 used for extruding the slurry is arranged on the other side of the conveying part 2, and a dispersing part 4 used for dispersing the mud is arranged between the feeding part 3 and the mud pressing device 5 above the conveying part 2. During operation, carry conveying portion 2 with mud on from through material loading portion 3, transport to mud pressing device 5 one side through conveying portion 2, when mud through dispersion portion 4, dispersion portion 4 disperses mud, makes the water in the mud fully expose, then extrudes moisture through mud pressing device 5, has effectively improved the dehydration effect of device.

Referring to fig. 2 and 3, two vertical first mounting plates 13 are welded to two sides of the frame 1 above the water tank 11 on the frame 1 through support rods, and the conveying part 2 is disposed between the first mounting plates 13 and includes two first driving rollers 21, a filter cloth 24, and a first driving source 22. Two first drive rollers 21 rotate respectively along the horizontal direction and set up the both sides at first mounting panel 13, and two first drive rollers 21 are parallel to each other, and filter cloth 24 is around establishing on two first drive rollers 21, is provided with a sieve 23 between two-layer filter cloth 24, and sieve 23 welds on first mounting panel 13 along the horizontal direction and just butts with the filter cloth 24 at top. The first drive source 22 is a first motor in this embodiment, the first drive source 22 is mounted on the first mounting plate 13 by bolts, and an output shaft of the first drive source 22 is coaxially welded to one of the first drive rollers 21.

Referring to fig. 2 and 3, the feeding portion 3 includes a feeding hopper 31, the feeding hopper 31 is welded to one side of the frame 1 close to the first driving source 22 through a support rod, a strip-shaped discharging port 311 is formed in the bottom of the feeding hopper 31, and the width direction of the discharging port 311 is parallel to the width direction of the filter cloth 24, so that the slurry falls down and is spread on the filter cloth 24. The feeding hopper 31 is rotatably provided with a distributing roller 32, the rotating direction of the distributing roller 32 is parallel to the width direction of the filter cloth 24, a gap exists between the distributing roller 32 and the side wall of the feeding hopper 31 parallel to the gap, the outer wall of the feeding hopper 31 is provided with a third driving source 33 for driving the distributing roller 32 to rotate, in this embodiment, the third driving source 33 is a third motor, the third driving source 33 is installed on the side wall of the feeding hopper 31 through bolts, and the output shaft of the third driving source 33 is coaxially welded with the distributing roller 32. After the slurry enters the feeding hopper 31, the third driving source 33 drives the material distribution roller 32 to start rotating, so that the material distribution roller 32 extrudes the slurry, the slurry is fully dispersed, and the slurry falls more uniformly.

Referring to fig. 2 and 5, the dispersing section 4 includes a mounting rod 41 and a plurality of dispersing rods 43. Two second mounting plates 14 are welded on two sides of the conveying part 2 on the frame 1, the mounting rods 41 are arranged between the two second mounting plates 14 in a sliding mode along the width direction parallel to the filter cloth 24, the dispersing rods 43 are vertically arranged at the bottoms of the mounting rods 41 and in surface contact with the filter cloth 24, and the dispersing rods 43 are arranged at even intervals. The dispersing rod 43 is a rod member having a V-shaped cross section, and the protruding edge of the dispersing rod 43 faces the upper hopper 31. In the process that the mud moves on the filter cloth 24, the mud is in contact with the dispersing rods 43, the dispersing rods 43 plough the mud out of a plurality of gullies, so that the water is fully exposed from the mud and then seeps out of the filter cloth 24, and the dehydration effect of the device is effectively improved.

Referring to fig. 2, the dispersing unit 4 is provided with two sets of dispersing rods 43, the two sets of dispersing rods 43 are arranged in a staggered manner, and the dispersing rods 43 arranged in a staggered manner further disperse the gullies formed by the slurry, thereby further exposing the water in the slurry and further improving the dewatering effect of the device.

Referring to fig. 2 and 5, the second mounting plate 14 is provided with a driving portion 42 for driving the mounting rod 41 to slide, and includes a cam 422, an elastic member 421 and a fourth driving source 423 for driving the cam 422 to rotate. The cam 422 and the elastic member 421 are respectively disposed on two sides of the mounting rod 41, the mounting boxes 141 are respectively welded on the second mounting plates 14 on the two sides, the cam 422 is rotatably disposed in the mounting box 141 on one side, a rotation axis of the cam 422 is perpendicular to the mounting rod 41, a side wall of the cam 422 abuts against an end portion of the mounting rod 41, in the embodiment, the fourth driving source 423 is a fourth motor, the fourth driving source 423 is mounted in the mounting box 141 where the cam 422 is located through a bolt, and an output shaft of the fourth driving source 423 is coaxially welded with the cam 422. In this embodiment, the elastic member 421 is a spring, the elastic member 421 is disposed in the mounting box 141 on the other side, one end of the elastic member 421 abuts against the vertical sidewall of the mounting box 141, and the other end abuts against the end of the mounting rod 41, so as to urge the mounting rod 41 to abut against the cam 422.

In the working process, the cam 422 is driven to rotate by the fourth driving source 423, the mounting rod 41 is driven to slide to the side far away from the cam 422, the mounting rod 41 is driven to slide to the side close to the cam 422 by the elastic piece 421, the reciprocating sliding effect of the mounting rod 41 is further realized, the mounting rod 41 drives the dispersing rod 43 to transversely reciprocate, and accordingly, a zigzag gully is ploughed on the surface of mud, the length of the gully is longer, the surface area is larger, moisture in the mud is further exposed, and the dewatering effect of the device is further improved.

Referring to fig. 2 and 4, the mud-jacking device 5 includes three second driving rollers 51, a push belt 53, and a second driving source 52 for driving the second driving rollers 51 to rotate. Two third mounting plates 15 are welded on one side, away from the feeding hopper 31, of the frame 1, the two third mounting plates 15 are located on two sides of the conveying part 2, the three second driving rollers 51 are rotatably arranged between the two third mounting plates 15 and are parallel to the first driving roller 21, the three second driving rollers 51 are distributed in a triangular mode on a vertical plane, the pressing belt 53 is wound on the second driving rollers 51, the two driving rollers are located at the bottom and are in contact with the filter cloth 24 through the pressing belt 53, the second driving source 52 is a second motor in the embodiment, the second motor is installed on the third mounting plates 15 through bolts, and an output shaft of the second driving source 52 is coaxially welded with one of the second driving rollers 51. When the mud moves to one side of the mud pressing device 5, the second driving roller 51 is driven to rotate by the second driving source 52, the rotation direction is opposite to that of the first driving roller 21, so that the pressing belt 53 is driven to be in contact with the mud, the mud is pressed towards one side far away from the feeding hopper 31, water is squeezed out from the filter cloth 24, and the dewatering effect is achieved.

Referring to fig. 1, a first scraper 6 parallel to the width of the filter cloth 24 is welded on the third mounting plate 15, the first scraper 6 is in contact with the press belt 53 and used for scraping off slurry on the press belt 53, a second scraper 7 parallel to the width of the filter cloth 24 is welded at the bottom of the frame 1, and the second scraper 7 is in contact with the filter cloth 24 and used for scraping off the slurry on the filter cloth 24, so that the dehydrated slurry and the un-dehydrated slurry are effectively prevented from being mixed, and the working efficiency of the device is improved.

The implementation principle of the waste slurry treatment equipment in the embodiment of the application is as follows: during operation, slurry is injected into the feeding hopper 31, the third driving source 33 drives the distributing roller 32 to rotate, so that the slurry uniformly falls on the filter cloth 24, the first driving source 22 is started to drive the filter cloth 24 to drive the slurry to start to move, the fourth driving source 423 is started to drive the mounting rod 41 to drive the dispersing rod 43 to start to slide in a reciprocating manner, so that a zigzag gully is ploughed on the surface of the slurry, water in the slurry is exposed, the second driving source 52 is started to drive the pressing belt 53 to start to move, the slurry is extruded, the water is extruded into the water tank 11 through the filter cloth 24, and the dehydrated slurry falls down to complete dehydration. The slurry is dispersed by the dispersing part 4 in the conveying process, so that water in the slurry is fully exposed, and then the water is pressed out of the slurry by the mud pressing device 5 and seeps out of the filter cloth 24, thereby effectively improving the dewatering effect of the device.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a waste mud treatment facility which characterized in that: including frame (1), be provided with conveying part (2) in frame (1), conveying part (2) include filter cloth (24), a plurality of first drive roller (21) and are used for driving about drive roller pivoted first drive source (22), and are a plurality of first drive roller (21) rotate to set up in frame (1) and be parallel to each other, filter cloth (24) are around establishing on first drive roller (21), one side of conveying part (2) is provided with material loading portion (3) that are used for the material loading, the opposite side of conveying part (2) is provided with presses mud device (5) that are used for the dehydration, be provided with on conveying part (2) and be used for dispersing dispersion portion (4) with silt.

2. The waste sludge treatment apparatus as claimed in claim 1, wherein: mud pressing device (5) include a plurality of second drive rollers (51), press area (53) and be used for driving second drive roller (51) pivoted second driving source (52), and a plurality of second drive roller (51) rotate to set up in filter cloth (24) top and be on a parallel with first drive roller (21), and it contacts just with filter cloth (24) around establishing on a plurality of second drive rollers (51) to press area (53) as shown.

3. The waste sludge treatment apparatus as claimed in claim 2, wherein: the feeding part (3) comprises a feeding hopper (31), and a discharge hole (311) is formed in the bottom of the feeding hopper (31) along the width direction of the conveying part (2).

4. The waste sludge treatment apparatus as claimed in claim 3, wherein: the feeding device is characterized in that a distributing roller (32) is rotatably arranged in the feeding hopper (31) along the width direction of the conveying part (2), and a third driving source (33) for driving the distributing roller (32) to rotate is arranged on the feeding hopper (31).

5. The waste sludge treatment apparatus as claimed in claim 1, wherein: the dispersion portion (4) is including installation pole (41) and a plurality of dispersion pole (43), installation pole (41) set up in conveying portion (2) top along the width direction of conveying portion (2), and is a plurality of dispersion pole (43) set up in one side of installation pole (41) towards conveying portion (2) along the even interval of width direction of installation pole (41), and with conveying portion (2) contact.

6. The waste sludge treatment apparatus as claimed in claim 5, wherein: the mounting rod (41) is arranged in a reciprocating sliding mode along the width direction of the conveying part (2), and a driving part (42) used for driving the mounting rod (41) to slide is arranged on the rack (1).

7. The waste sludge treatment apparatus as claimed in claim 6, wherein: the driving part (42) comprises a cam (422) and a fourth driving source (423) for driving the cam (422) to rotate, the cam (422) is rotatably arranged on the rack (1), the rotating axis of the cam (422) is perpendicular to the mounting rod (41), the side wall of the cam (422) is abutted to the end part of the mounting rod (41), and one end, far away from the cam (422), of the mounting rod (41) is provided with an elastic part (421) for driving the mounting rod (41) to be close to the cam (422).

8. The waste sludge treatment apparatus as claimed in claim 5, wherein: the dispersing part (4) is provided with a plurality of groups, and a plurality of groups of driving parts (42) are arranged at intervals along the length direction of the conveying part (2).

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