CN111790513A

CN111790513A - Automatic water absorption type sand washer

Info

Publication number: CN111790513A
Application number: CN202010782646.5A
Authority: CN
Inventors: 王永生; 高文明; 张中; 王国庆; 王泽生
Original assignee: Shandong Haohai Dredging Equipment Co ltd
Current assignee: Shandong Haohai Dredging Equipment Co ltd
Priority date: 2020-08-06
Filing date: 2020-08-06
Publication date: 2020-10-20

Abstract

The invention discloses an automatic water absorption type sand washer, which comprises a washing wheel assembly, a driving device and a washing pool, wherein the washing wheel assembly is formed by welding a plurality of sand digging hoppers and water leakage baffles, the driving device comprises a motor, a main shaft and a connecting shaft, the sand digging hoppers comprise bottom plates and connecting plates, the bottom plate is in a V-shaped plate shape with two high side walls and one low side wall, the bottom of the bottom plate is curved to be arc-shaped, water seepage holes are densely distributed in the bottom of the bottom plate, the end parts of the two side walls of the bottom plate are respectively connected with a connecting plate through bolts, the upper ends of the two connecting plates are respectively connected with the wear-resistant steel plate through bolts, the side wall baffles are welded on the front side and the rear side of the bottom plate, the two side wall baffles are respectively welded with the wear-resistant steel plate, the two side surfaces of the connecting plate and the two side surfaces of the bottom plate into a whole, the top ends of the water leakage baffles on the two sides are respectively welded with.

Description

Automatic water absorption type sand washer

Technical Field

The invention relates to the technical field of sand washing, in particular to an automatic water absorption type sand washer.

Background

At present in the grit washing technical field of china, the washing wheel is the washing equipment of universal adoption, and the washing wheel in the existing market adopts the fill of digging sand equally, realizes the water sand separation through the principle of bottom aperture infiltration, and the sand that washes out like this contains high water content, reduces water content, can only reduce washing wheel rotational speed, reaches the purpose of removing moisture in the sand through extension infiltration time, reduces the rotational speed, and direct consequence is that productivity ratio reduces, and output reduces in the unit interval, and then causes the cost to increase.

Disclosure of Invention

In view of the above technical shortcomings, the present invention provides an automatic water-absorbing sand washer to solve the problems in the background art.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides an automatic water absorption type sand washer, which comprises a washing wheel assembly, a driving device and a washing pool, wherein the washing wheel assembly is formed by welding a plurality of sand digging hoppers and water leakage baffles, the driving device comprises a motor, a main shaft and a connecting shaft, the sand digging hoppers comprise a bottom plate, a connecting plate, wear-resistant steel plates and side wall baffles, the bottom plate is in a V-shaped plate shape with two higher and lower side walls, the bottom of the bottom plate is bent into an arc shape, water seepage holes are densely distributed at the bottom of the bottom plate, the end parts of the two side walls of the bottom plate are respectively connected with the connecting plate through bolts, the upper ends of the two connecting plates are respectively connected with the wear-resistant steel plates through bolts, the front side and the rear side of the bottom plate are welded with the side wall baffles, the two side wall baffles are respectively welded with the wear-resistant steel plates, the connecting plate and the two side surfaces of, the top ends of the water leakage baffles at the two sides are respectively welded with the side wall baffles at the two sides of the sand digging bucket, one end of the water leakage baffle, which is far away from the main shaft, is bent rightwards, the angle of the water leakage baffle plates bent rightwards is 160-170 degrees, the side surfaces of two adjacent water leakage baffle plates are welded and connected, a plurality of water leakage baffle plates are circumferentially arranged by taking a main shaft as a center, the water leakage baffle plates and the sand digging bucket are welded and connected into a whole to form a water washing wheel assembly, the bottom ends of the water leakage baffle plates are connected into a circle after the water leakage baffle plates are welded into a whole, the bottom end of the water leakage baffle is welded with a connecting piece at an equal angle by taking the main shaft as the center, the connecting piece is connected with one end of the connecting shaft far away from the main shaft through a bolt, one end, far away from the connecting piece, of the connecting shaft is connected with the spindle bolt, and a vacuum cavity is formed among the bottom of the sand digging bucket, water leakage baffles on two sides of the sand digging bucket and the water surface when the washing wheel assembly rotates.

Preferably, a water inlet tank is installed on one side of the washing pool, a sand collecting box is installed on the other side of the washing pool, overflow baffles are welded on the inner walls of the washing pools on two adjacent sides of the water inlet tank, overflow grooves are formed in the inner walls of the overflow baffles and the washing pools, drainage grooves are welded on the outer walls of the washing pools corresponding to the overflow grooves, a supporting square pipe I is vertically welded in the drainage grooves on two sides of the washing pool, and a supporting box is welded at the top end of the supporting square pipe I.

Preferably, the overflow launder is welded 20-30cm below the upper surface of the wash basin.

Preferably, speed reducer and motor are installed on the water drainage tank top of arbitrary one side in rinsing pond, the motor passes through the V belt transmission with the speed reducer and is connected, the speed reducer passes through the shaft coupling transmission with the main shaft and is connected, bucket wheel bearing is installed at the main shaft both ends, bucket wheel bearing is located the support box, the main shaft is fixed on a support side pipe top through the support box.

Preferably, the number of the water seepage holes is 200-300, and the diameter of the water seepage holes is 3-8 mm.

Preferably, the width of one end, close to the water inlet tank, of the drainage tank is larger than the width of the other end of the drainage tank, the width of the overflow groove, close to the inner wall of the washing basin, is larger than the width of the other end of the overflow groove, the longitudinal sections of the overflow groove and the drainage groove are in a right trapezoid shape, a plurality of overflow holes I are horizontally formed between the drainage groove and the overflow groove, the drainage groove and the overflow groove are mutually communicated through the overflow holes I, a plurality of overflow holes II are horizontally formed in one surface, far away from the inner wall of the washing basin, of the overflow groove.

Preferably, the washing tank is welded with the base at the bottom, a second supporting square tube is welded on the wall between the speed reducer and the base, and a horizontal reinforcing plate and a vertical reinforcing plate are welded on the outer wall of the washing tank.

Preferably, one side of the water inlet tank, which is far away from the washing pool, is provided with a water inlet, and the bottom of the sand collecting box is provided with a sand discharging opening.

Preferably, one top end of the supporting square pipe is higher than the upper surface of the washing pool.

The invention has the beneficial effects that:

1. the mud-sand mixture enters a washing pool through a water inlet tank, sand is precipitated at the bottom of the washing pool due to the stirring effect of a washing wheel assembly, the soil is mixed in water, the sand at the bottom is fished up through a sand digging bucket, when the sand digging bucket rotates out of a water surface, water seepage holes are densely distributed at the bottom of the sand digging bucket, under the action of gravity, the water in the sand flows out through the water seepage holes, meanwhile, when the sand digging bucket rotates out of the water surface, a vacuum cavity is formed between a water seepage baffle and the water surface, the pressure in the vacuum cavity is smaller than the atmospheric pressure above the water surface, suction is generated in the vacuum cavity, and due to the action of the vacuum suction, the suction to the water in the sand is enhanced, so that the water content in the sand is reduced.

2. The upper end of the connecting plate in the sand digging bucket is provided with the wear-resistant steel plate, when the sand digging bucket rotates, sand is shoveled through the wear-resistant steel plate, damage to the sand digging bucket caused by the sand is reduced, and meanwhile, the wear-resistant steel plate is fixed on the connecting plate through the bolt, so that the sand digging bucket is convenient to replace.

3. Horizontal reinforcing plate and vertical reinforcing plate are welded to the outer wall of the washing tank, and a supporting square tube III is welded to the washing tank, so that the stability of the washing tank is enhanced.

4. The main shaft and the connecting shaft are fixed through bolts, and the connecting shaft and the washing wheel assembly are fixed through bolts, so that the washing machine is convenient to disassemble, transport and maintain.

5. The width of one end, close to the water inlet tank, of the drainage groove is larger than that of the other end of the drainage groove, the width of the overflow groove, close to the inner wall of the washing pool, is larger than that of the other end of the overflow groove, and the overflow hole I and the overflow hole II are formed in the overflow groove and the drainage groove, so that muddy water in the washing pool can be conveniently discharged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front view of a sand washer of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a left side view of the sand washer of the present invention;

FIG. 4 is a schematic view of a partial structure of a water washing wheel assembly of the sand washer of the present invention;

FIG. 5 is an enlarged view of the portion C of FIG. 4;

FIG. 6 is a sectional view of the drain channel taken along the direction B in FIG. 2;

FIG. 7 is a sectional view of the drain channel in the direction A of FIG. 2;

FIG. 8 is a schematic diagram of the movement of the sand hopper.

Description of reference numerals:

1-a washing pool, 2-a first supporting square pipe, 3-a water inlet tank, 31-a water inlet, 4-a sand collecting box, 41-a sand discharge port, 5-an overflow baffle, 51-a side baffle, 6-an overflow trough, 7-a second supporting square pipe, 8-a supporting box, 9-a water discharge trough, 91-a water discharge port, 10-a motor, 11-a speed reducer, 12-a V-belt, 13-a main shaft, 14-a bucket wheel bearing, 15-a connecting shaft, 16-a sand digging bucket, 161-a bottom plate, 162-a connecting plate, 163-a wear-resistant steel plate, 164-a water seepage hole, 165-a side wall baffle, 17-a water seepage baffle, 18-a connecting piece, 19-a first overflow hole, 20-a second overflow hole, 21-a base and a third supporting square pipe, 23 horizontal reinforcing plate, 24 vertical reinforcing plate and 25 vacuum cavity.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example (b):

as shown in figures 1-8, the invention provides an automatic water absorption sand washer, which comprises a water washing pool 1, a driving device and a water washing wheel assembly, the upper ends of the front and rear side walls of the water pool 1 are horizontally and symmetrically welded with supporting square pipes 2, the upper end of one side of the water washing pool 1 is welded with a water inlet tank 3, the water inlet tank 3 is positioned between the front and the rear supporting square pipes 2, the outer wall of one side of the washing pool 1, which is opposite to the water inlet tank 3, is welded with a sand-collecting box 4, a plurality of overflow baffles 5 are respectively welded on the upper parts of the front and rear inner walls of the washing tank 1 in an inclined and upward manner, two adjacent overflow baffles 5 are connected by welding, one end of each overflow baffle 5 far away from the washing tank 1 is vertically welded with a side baffle 51, thus, two overflow chutes 6 are formed between the front and rear inner walls of the washing tank 1 and the overflow barrier 5 and the side barriers 51, and the height of the side barriers 51 is lower than that of the washing tank 1.

Two supporting square tubes 7 are vertically welded on two sides of the bottom of the washing pool 1, the two supporting square tubes 7 penetrate through overflow chutes 6 to be vertically welded with the supporting square tubes 2, supporting boxes 8 are welded on the upper surfaces of the two supporting square tubes 2, the two supporting boxes 8 are located right above the supporting square tubes 7, water drainage grooves 9 are respectively welded on the front outer wall and the rear outer wall of the washing pool 1, and the two water drainage grooves 9 are respectively communicated with the two overflow chutes 6;

the driving device comprises a motor 10, a speed reducer 11, a main shaft 13 and a connecting shaft 15, wherein the motor 10 and the speed reducer 11 are fixedly installed at the upper end of a drainage channel 9 on any one side, the motor 10 and the speed reducer 11 are in transmission connection through a triangular belt 12, the speed reducer 11 and the main shaft 13 are in transmission connection through a coupler, bucket wheel bearings 14 are installed at two ends of the main shaft 13, the bucket wheel bearings 14 are fixed on a supporting box 8, a washing wheel assembly is fixed on the main shaft 13, the main shaft 13 is respectively connected with two sides of the washing wheel assembly through six connecting shafts 15 which are arranged at equal angles on the circumference, and the connecting shafts 15 are in bolt connection with the main shaft 13;

the washing wheel assembly is formed by welding a plurality of sand digging hoppers 16 which are arranged circumferentially and water leakage baffles 17, the sand hopper 16 includes a bottom plate 161, a connection plate 162, a wear-resistant steel plate 163 and a sidewall guard 165, the bottom plate 161 is in a V-shaped plate shape with two side walls being higher and lower, the bottom of the bottom plate 161 is curved in an arc shape, the bottom of the bottom plate 161 is densely distributed with water seepage holes 164, the end parts of the two side walls of the bottom plate 161 are respectively connected with the connecting plates 162 through bolts, the upper ends of the two connecting plates 162 are respectively connected with the wear-resistant steel plates 163 through bolts, the front side and the rear side of the bottom plate 161 are welded with side wall baffles 165, the two side wall baffles 165 are respectively welded with the wear-resistant steel plate 163, the connecting plate 162 and the two side surfaces of the bottom plate 161 into a whole, the side wall baffle 165 is matched with the side edge shapes of the bottom plate 161, the connecting plate 162 and the wear-resistant steel plate 163, and the plurality of sand hoppers 16 are connected through the connecting plate 162;

the middle part of the top end of the water leakage baffle 17 is arc-shaped, the top end of the water leakage baffle 17 is matched with the bottom shape of the side wall baffle 165, the top ends of the water leakage baffles 17 at two sides are respectively welded with the side wall baffles 165 at two sides of the sand excavating bucket 16, one end of the water leakage baffle 17 far away from the main shaft 13 is bent rightwards, the angle of the right bending of the water leakage baffle 17 is 160-170 degrees, the side surfaces of two adjacent water leakage baffles 17 are welded, the water leakage baffle 17 and the side wall baffle 165 are positioned on the same vertical surface, a plurality of the water leakage baffles 17 are circumferentially arranged by taking the main shaft 13 as the center, the water leakage baffles 17 and the sand excavating bucket 16 are welded into a whole to form a water washing wheel assembly, the bottom ends of the water leakage baffles 17 are connected into a circle after the water leakage baffles 17 are welded into a whole, and the bottom ends of the water leakage baffles 17, the connecting piece 18 is connected with one end of the connecting shaft 15 far away from the main shaft 13 through a bolt, and when the washing wheel assembly rotates, a vacuum cavity 25 is formed among the bottom of the sand digging bucket 16, the water leakage baffles 17 on two sides of the sand digging bucket 16 and the water surface.

Furthermore, the number of the water seepage holes 164 is 200-300, and the diameter of the water seepage holes 164 is 3-8 mm.

Furthermore, one end of the water drainage tank 9, which is close to the water inlet tank 3, is higher than the other end of the water drainage tank 9, the height of one side of the overflow trough 6, which is close to the inner wall of the rinsing pool 1, is greater than the height of the other side of the overflow trough 6, and the longitudinal sections of the overflow trough 6 and the water drainage tank 9 are right-angled trapezoids.

Furthermore, a plurality of overflow holes I19 are horizontally formed between the overflow groove 6 and the water discharge groove 9, the water discharge groove 9 and the overflow groove 6 are mutually communicated through the overflow holes I19, a plurality of overflow holes II 20 are horizontally formed in the side surface of the overflow groove 6, which is far away from the inner wall of the washing basin 1, and the aperture of the overflow holes II 20 is larger than that of the overflow holes I19.

Further, the overflow baffle 5 is welded 20-30cm below the upper surface of the washing basin.

Further, the bottom of the washing pool 1 is welded with a base 21, and a supporting square tube III 22 is welded between the speed reducer 11 and the base 21.

Further, a water inlet 31 is arranged on the side face, far away from the washing pool 1, of the water inlet tank 3, a sand discharging port 41 is arranged at the bottom of the sand collecting box 4, and a water discharging port 91 is arranged on the end face of the water discharging groove 9 on the same side as the water inlet tank 3.

Furthermore, a horizontal reinforcing plate 23 and a vertical reinforcing plate 24 are welded on the outer wall of the washing tank 1.

Further, the top end of the second supporting square pipe 7 is higher than the upper surface of the washing pool 1.

The working principle is as follows:

when the automatic water absorption type sand washer works, mud-sand mixture is continuously injected into a washing pool 1 through a water inlet box 3, a motor 10 drives a speed reducer 11 to work through a triangular belt 12, the speed reducer 11 further drives a main shaft 13 to rotate, the main shaft 13 is connected with a washing wheel assembly through a connecting shaft 15, referring to figures 1 and 8, the washing wheel assembly starts to rotate clockwise, sand is precipitated at the bottom of the washing pool 1 due to the stirring effect of the washing wheel assembly, soil is mixed in water, the sand at the bottom of the washing pool 1 is fished up through a sand digging bucket 16, the washing wheel assembly rotates out of the water surface, muddy water in the sand digging bucket 16 is discharged through water seepage holes 164 due to the action of gravity, the water seepage holes 164 are fully distributed at the bottom of the sand digging bucket 16, the number of the water seepage holes 164 is 200 and 300, the aperture of the seepage holes 164 is 3-8mm, and the number and the aperture of the seepage holes 164 are set according, meanwhile, muddy water in the wash basin flows into the overflow groove 6 through the overflow hole two 20 on the overflow groove 6, flows into the drainage groove 9 through the overflow hole one 19, is discharged through the drainage port 91, can be quickly discharged due to the inconsistent width of the two ends of the drainage groove 9, and slides out of the sand excavating hopper 16 to flow into the sand collecting box 4 under the action of gravity of the sand when rotating to one side of the sand collecting box 4, and is conveyed out through the sand discharge port 41.

Referring to fig. 8, in the process of discharging muddy water in the sand through the water seepage holes 164, each sand digging hopper 16 rotates one by one to be separated from the water surface, in the process of separating one sand digging hopper 16 from the water surface, a vacuum cavity 25 is formed among the sand digging hopper 16, the water leakage baffle 17 and the water surface, the pressure in the vacuum cavity 25 is smaller than the atmospheric pressure above the water surface, suction is generated in the vacuum cavity 25, the suction to the water in the sand is enhanced due to the action of the vacuum suction, the vacuum suction disappears after the sand digging hopper 16 is separated from the water surface, the muddy water is continuously discharged through the water seepage holes 164 through the self gravity, the water content in the sand is integrally reduced, wherein the length of the water leakage baffle 17 is determined by the diameter of the washing wheel assembly, and the longer the length of the water leakage baffle 17 is made according to the production requirements, the longer the time the vacuum cavity 25 generates the suction, and.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. An automatic water absorption type sand washer comprises a washing wheel assembly, a driving device and a washing pool, and is characterized in that the washing wheel assembly is formed by welding a plurality of sand digging hoppers and water leakage baffles, the driving device comprises a motor, a main shaft and a connecting shaft, the sand digging hoppers comprise a bottom plate, a connecting plate, wear-resistant steel plates and side wall baffles, the bottom plate is in a V-shaped plate shape with two high side walls and one low side walls, the bottom of the bottom plate is bent to be arc-shaped, water seepage holes are densely distributed at the bottom of the bottom plate, the end parts of the two side walls of the bottom plate are respectively connected with the connecting plate through bolts, the upper ends of the two connecting plates are respectively connected with the wear-resistant steel plates through bolts, the side wall baffles are welded at the front side and the rear side of the bottom plate, the two side wall baffles are respectively welded with the two side faces of the wear-resistant steel plates, the connecting, the top ends of the water leakage baffles at the two sides are respectively welded with the side wall baffles at the two sides of the sand digging bucket, one end of the water leakage baffle, which is far away from the main shaft, is bent rightwards, the angle of the water leakage baffle plates bent rightwards is 160-170 degrees, the side surfaces of two adjacent water leakage baffle plates are welded and connected, a plurality of water leakage baffle plates are circumferentially arranged by taking a main shaft as a center, the water leakage baffle plates and the sand digging bucket are welded and connected into a whole to form a water washing wheel assembly, the bottom ends of the water leakage baffle plates are connected into a circle after the water leakage baffle plates are welded into a whole, the bottom end of the water leakage baffle is welded with a connecting piece at an equal angle by taking the main shaft as the center, the connecting piece is connected with one end of the connecting shaft far away from the main shaft through a bolt, one end, far away from the connecting piece, of the connecting shaft is connected with the spindle bolt, and a vacuum cavity is formed among the bottom of the sand digging bucket, water leakage baffles on two sides of the sand digging bucket and the water surface when the washing wheel assembly rotates.

2. The automatic water absorption type sand washer according to claim 1, wherein an inlet tank is installed on one side of the washing pool, a sand collection box is installed on the other side of the washing pool, overflow baffles are welded on the inner walls of the washing pools on two adjacent sides of the inlet tank, overflow grooves are formed on the overflow baffles and the inner wall of the washing pool, drainage grooves are welded on the outer wall of the washing pool corresponding to the overflow grooves, a first supporting square pipe is vertically welded in the drainage grooves on two sides of the washing pool, and a supporting box is welded at the top end of the first supporting square pipe.

3. An automatic suction sand washer according to claim 2, characterized in that the overflow launder is welded 20-30cm below the upper surface of the wash basin.

4. The automatic water absorption type sand washer according to claim 2, wherein a speed reducer and a motor are installed at the top end of the water discharge tank on any side of the washing pool, the motor is in transmission connection with the speed reducer through a triangular belt, the speed reducer is in transmission connection with a main shaft through a coupler, bucket wheel bearings are installed at two ends of the main shaft, the bucket wheel bearings are located in a supporting box, and the main shaft is fixed to the top end of the supporting square pipe through the supporting box.

5. The automatic water absorption sand washer as claimed in claim 1, wherein the number of the water seepage holes is 200-300, and the diameter of the water seepage holes is 3-8 mm.

6. The automatic water absorption type sand washer according to claim 2, wherein the width of one end of the drainage groove close to the water inlet tank is larger than the width of the other end of the drainage groove, the width of the inner wall of the overflow groove close to the washing basin is larger than the width of the other end of the overflow groove, the longitudinal sections of the overflow groove and the drainage groove are in a right trapezoid shape, a plurality of first overflow holes are horizontally formed between the drainage groove and the overflow groove, the drainage groove and the overflow groove are mutually communicated through the first overflow holes, a plurality of second overflow holes are horizontally formed in one surface of the overflow groove, which is far away from the inner wall of the washing basin, and the aperture of the second overflow.

7. The automatic water absorption type sand washer as claimed in claim 1, wherein a base is welded to the bottom of the washing tank, a second supporting square tube is welded to the wall between the speed reducer and the base, and a horizontal reinforcing plate and a vertical reinforcing plate are welded to the outer wall of the washing tank.

8. The automatic water absorption sand washer according to claim 2, wherein a water inlet is arranged on one side of the water inlet tank, which is far away from the washing pool, and a sand discharge port is arranged at the bottom of the sand collection tank.

9. The machine of claim 2, wherein the top end of the square support tube is higher than the upper surface of the washing basin.