CN211611741U - Inclined plate sedimentation device - Google Patents

Abstract

The utility model discloses a swash plate precipitation device, all install the cell body of universal wheel including bottom four corners, from last dead lever and lower dead lever of down having welded in proper order on the both sides inner wall of cell body, and be fixed with the swash plate that the equidistance distributes and the slope sets up on the relative one side outer wall of dead lever down, the support frame has all been welded to cell body top both sides, and the top of two support frames is connected with the crossbeam. The utility model discloses a servo motor drive belt pulley, driven pulley and driving roller, thereby make first driven belt and the driven belt of second that cup joints on the driving roller outer wall rotate, drive first scraper blade and second scraper blade and move in the swash plate both sides, servo motor drives the stroke that first driven belt and the driven belt of second removed and the same back of swash plate length, servo motor drives first driven belt and the driven belt backward movement of second, carry out reciprocating type mud scraping motion to the both sides outer wall of swash plate, thereby clean the swash plate.

Description

Inclined plate sedimentation device

Technical Field

The utility model relates to a sewage treatment technical field especially relates to an inclined plate sedimentation device.

Background

The inclined plate sedimentation tank is an improved sedimentation tank which is provided with a group of inclined plates in a sedimentation area of a common sedimentation tank so as to shorten the sedimentation time and improve the sedimentation efficiency. A shallow sedimentation tank is arranged between every two parallel inclined plates of the inclined plate sedimentation tank. The treated water (or waste water) and the settled sludge are moved and separated from each other in the shallow layer of the sediment. The separation modes can be divided into three different separation modes of cocurrent flow, incongruous flow and lateral flow according to the force of mutual movement. The inclined plate sedimentation tank utilizes the principle of 'shallow layer sedimentation', shortens the sedimentation distance of particles, thereby shortening the sedimentation time, increasing the sedimentation area of the sedimentation tank and improving the treatment efficiency.

The jam often takes place between the swash plate, or the phenomenon of adhesion takes place, has seriously influenced inclined plane sedimentation tank's precipitation efficiency and use, therefore people often need clear up the swash plate, and all clear up through artifical manual, waste time and energy.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an inclined plate sedimentation device.

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

a tilted plate sedimentation device comprises a tank body, universal wheels are arranged at four corners of the bottom of the tank body, an upper fixing rod and a lower fixing rod are sequentially welded on the inner walls of two sides of the tank body from top to bottom, tilted plates which are distributed equidistantly and are arranged obliquely are fixed on the outer wall of one side of the tank body opposite to the upper fixing rod and the lower fixing rod, supporting frames are welded on two sides of the top of the tank body, the tops of the two supporting frames are connected with a cross beam, a servo motor is fixed at the bottom of one end of the cross beam through bolts, driven belt pulleys which are distributed equidistantly are fixed on the outer wall of one side of the cross beam through bearings, a driving belt pulley is sleeved on an output shaft of the servo motor, the driving belt pulley, the driven belt pulleys and the adjacent two driven belt pulleys are sequentially connected through driving belts in a transmission manner, mounting, two the transmission belt groove has been seted up to the one end of driving roller, and first driven belt groove and the driven belt groove of second have been seted up in proper order to two driving roller middle part both sides, two first driven belt has been cup jointed on the first driven belt groove, has cup jointed the driven belt of second on the driven belt groove of two seconds, the one end that first driven belt and the driven belt of second are close to down the dead lever is connected with first scraper blade, and the one end that first driven belt and the driven belt of second are close to the dead lever is connected with the second scraper blade.

Preferably, all bond on the inner wall of transmission race, first driven race and the driven race of second and have rubber antiskid cover, and seted up anti-skidding screw thread on the rubber antiskid cover.

Preferably, the bottom of the outer wall of one side of the tank body is provided with a water inlet, and the upper part of the outer wall of the other side of the tank body is provided with a water outlet.

Preferably, the included angle degree between the inclined plate and the horizontal direction is 45-60 degrees.

Preferably, the diameter of the driving roller is matched with the sum of the height of the first scraper and the thickness of the second scraper and the inclined plate.

Preferably, the first scraper blade and the second scraper blade are both rubber plates, and the vertical sections of the first scraper blade and the second scraper blade are in wedge-shaped structures.

The utility model has the advantages that:

the utility model discloses in, drive the drive pulley through servo motor, driven pulley and driving roller, thereby make first driven belt and the driven belt of second that cup joints on the driving roller outer wall rotate, drive first scraper blade and second scraper blade and move in the swash plate both sides, servo motor drives the stroke that first driven belt and the driven belt of second removed and the same back of swash plate length, servo motor drives first driven belt and the driven belt backward movement of second, carry out reciprocating type mud scraping motion to the both sides outer wall of swash plate, thereby clean the swash plate, can clean in the swash plate course of operation.

Drawings

Fig. 1 is a schematic structural view of an inclined plate sedimentation device provided by the utility model;

fig. 2 is a schematic structural view of a tilted plate depression surface of the tilted plate sedimentation device provided by the present invention;

fig. 3 is the schematic diagram of the side structure of the inclined plate sedimentation device provided by the utility model.

In the figure: 1 cell body, 2 go up the dead lever, 3 dead levers down, 4 swash plates, 5 support frames, 6 crossbeams, 7 servo motor, 8 drive belt pulleys, 9 driven belt pulleys, 10 drive belt, 11 mounting grooves, 12 driving rollers, 13 drive belt grooves, 14 transmission connecting belt, 15 first driven belt grooves, 16 second driven belt grooves, 17 first driven belt, 18 second driven belt, 19 first scraper blade, 20 second scraper blades.

Detailed Description

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

Referring to fig. 1-3, a tilted plate sedimentation device comprises a tank body 1 with universal wheels mounted at four corners of the bottom, an upper fixing rod 2 and a lower fixing rod 3 are sequentially welded on the inner walls of two sides of the tank body 1 from top to bottom, tilted plates 4 which are equidistantly distributed and obliquely arranged are fixed on the outer wall of one side of the upper fixing rod 2 and the lower fixing rod 3, supporting frames 5 are welded on two sides of the top of the tank body 1, the tops of the two supporting frames 5 are connected with a cross beam 6, a servo motor 7 is fixed at the bottom of one end of the cross beam 6 through bolts, driven belt pulleys 9 which are equidistantly distributed are fixed on the outer wall of one side of the cross beam 6 through bearings, a driving belt pulley 8 is sleeved on an output shaft of the servo motor 7, the driving belt pulley 8 and the driven belt pulley 9, two adjacent driven belt pulleys 9 are sequentially, both ends inner wall of two mounting grooves 11 all is connected with driving roller 12 through the bearing, transmission race 13 has been seted up to the one end of two driving rollers 12, first driven race 15 and the driven race 16 of second have been seted up in proper order to two driving rollers 12 middle part both sides, first driven belt 17 has been cup jointed on two first driven race 15, the driven race 18 of second has been cup jointed on two driven races 16 of second, first driven belt 17 and the driven race 18 of second are connected with first scraper blade 19 near the one end of dead lever 3 down, the one end that first driven belt 17 and the driven race 18 of second are close to last dead lever 2 is connected with second scraper blade 20.

The utility model discloses in, transmission belt groove 13, all bond on the inner wall of first driven belt groove 15 and second driven belt groove 16 and have rubber antiskid cover, the antiskid screw thread has been seted up on the rubber antiskid cover, the water inlet has been seted up to the bottom of 1 one side outer wall of cell body, the delivery port has been seted up on the upper portion of 1 opposite side outer wall of cell body, swash plate 4 is 45-60 with the contained angle number of degrees of horizontal direction, the diameter of driving roller 12 and first scraper blade 19's height, the sum looks adaptation of the thickness of second scraper blade 20 and swash plate 4, first scraper blade 19 and second scraper blade 20 are the rubber slab, the perpendicular cross-section of first scraper blade 19 and second scraper blade 20 is the wedge column structure.

The working principle is as follows: through servo motor 7 drive belt pulley 8, driven pulley 9 and driving roller 12, thereby make first driven belt 17 and the driven belt 18 of second of cup jointing on the outer wall of driving roller 12 rotate, drive first scraper blade 19 and the motion of second scraper blade 20 in swash plate 4 both sides, servo motor 7 drives the stroke that first driven belt 17 and the driven belt 18 of second removed and the same back of swash plate 4 length, servo motor 7 drives first driven belt 17 and the driven belt 18 backward movement of second, carry out reciprocating type mud scraping motion to the both sides outer wall of swash plate 4, thereby clean swash plate 4.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a swash plate precipitation device, includes that the universal wheel's of bottom four corners cell body (1) is all installed, its characterized in that, from last dead lever (2) and dead lever (3) down welded in proper order on the both sides inner wall of cell body (1), and be fixed with swash plate (4) that equidistance distributes and the slope sets up on dead lever (2) and dead lever (3) relative one side outer wall down, cell body (1) top both sides have all been welded support frame (5), and the top of two support frames (5) is connected with crossbeam (6), crossbeam (6) one end bottom is fixed with servo motor (7) through the bolt, and is fixed with driven pulley (9) that the equidistance distributes through the bearing on one side outer wall of crossbeam (6), cup jointed driving pulley (8) on the output shaft of servo motor (7), and driving pulley (8) and driven pulley (9), Two adjacent driven pulleys (9) are connected in sequence in a transmission manner through a driving belt (10), a mounting groove (11) is formed in the top end of each inclined plate (4) and the middle of the bottom end of each inclined plate (4), the inner walls of the two ends of each mounting groove (11) are connected with a driving roller (12) and two driving rollers (13) respectively through bearings, a first driven belt groove (15) and a second driven belt groove (16) are formed in two sides of the middle of each driving roller (12) respectively, a first driven belt (17) is sleeved on each first driven belt groove (15), a second driven belt (18) is sleeved on each second driven belt groove (16), one ends, close to the lower fixing rods (3), of the first driven belt (17) and the second driven belt (18) are connected with a first scraper (19), and one ends, close to the upper fixing rods (2), of the first driven belt (17) and the second driven belt (18) are connected with a second scraper (20) .

2. The inclined plate sedimentation device according to claim 1, wherein the inner walls of the transmission belt groove (13), the first driven belt groove (15) and the second driven belt groove (16) are respectively bonded with a rubber anti-skid sleeve, and the rubber anti-skid sleeves are provided with anti-skid threads.

3. The inclined plate sedimentation device according to claim 1, wherein a water inlet is formed at the bottom of the outer wall of one side of the tank body (1), and a water outlet is formed at the upper part of the outer wall of the other side of the tank body (1).

4. An inclined plate sedimentation device according to claim 1, wherein the angle between the inclined plates (4) and the horizontal is 45 ° to 60 °.

5. An inclined plate sedimentation device according to claim 1, wherein the diameter of the driving roller (12) is adapted to the sum of the height of the first scraper (19), the thickness of the second scraper (20) and the inclined plate (4).

6. The inclined plate sedimentation device as claimed in claim 1, wherein the first scraper (19) and the second scraper (20) are both rubber plates, and the vertical sections of the first scraper (19) and the second scraper (20) are in a wedge-shaped structure.

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