CN113476915A

CN113476915A - Mud processing apparatus for building engineering

Info

Publication number: CN113476915A
Application number: CN202110813136.4A
Authority: CN
Inventors: 宋来存; 王志广; 王志峰; 刘通; 付宁; 何胜甲; 王传春; 周磊; 温立仁
Original assignee: First Engineering Co Ltd of China Railway 22nd Bureau Group Co Ltd; China Railway 22nd Bureau Group Co Ltd
Current assignee: First Engineering Co Ltd of China Railway 22nd Bureau Group Co Ltd; China Railway 22nd Bureau Group Co Ltd
Priority date: 2021-07-19
Filing date: 2021-07-19
Publication date: 2021-10-08
Anticipated expiration: 2041-07-19
Also published as: CN113476915B

Abstract

The invention discloses a slurry treatment device for constructional engineering, which comprises a main body, a liquid storage tank, a recovery tank, a fixing frame, a suction piston cylinder, a drain pipe, a water pumping pipe, a suction piston, a transmission roller, a connecting rod, a double-shaft motor, a transmission cam, a blanking part and a crushing part, wherein the main body is internally provided with the vertical liquid storage tank and the vertical recovery tank in sequence from top to bottom, and the top end of the inner wall of the main body is fixedly provided with the vertical fixing frame. The invention can ensure that each pumping piston intermittently slides along each pumping piston cylinder by utilizing the rotation of a double-shaft motor, thereby reducing the probability of equipment blockage and damage, efficiently transporting slurry, and well screening and unloading while realizing secondary screening by using the upper roll-over stand and the lower roll-over stand which can move left and right and swing, thereby avoiding the blockage of stone drilling slag on coarse and fine meshes.

Description

Mud processing apparatus for building engineering

Technical Field

The invention relates to the field of buildings, in particular to a slurry treatment device for constructional engineering.

Background

The mud often has an important effect in other building engineering fields such as drilling construction, and in the drilling process, the mud that flows out from the hole often wraps up the drilling mud, some of these drilling mud are stone drilling mud, and because of the requirement of environmental protection and cost saving, the mud after using often can use professional equipment to use again after handling such as filtration, and traditional mud processing apparatus often can cause the jam of processing apparatus because of the existence of stone drilling mud in the in-process of handling mud, even the damage of equipment to can influence the processing work of mud, and traditional mud processing apparatus efficiency is not high, can only carry out single processing work, has highlighted its shortcoming.

Disclosure of Invention

The invention aims to provide a slurry treatment device for building engineering, which aims to solve the technical problem.

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

a mud treatment device for constructional engineering comprises a main body, a liquid storage tank, a recovery tank, a fixing frame, suction piston cylinders, drain pipes, water pumping pipes, suction pistons, transmission rollers, connecting rods, a double-shaft motor, a transmission cam, a discharging part and a crushing part, wherein the main body is internally provided with a vertical liquid storage tank and a recovery tank from top to bottom in sequence, the top end of the inner wall of the main body is fixedly provided with a vertical fixing frame, the circumference of the fixing frame is fixedly provided with a plurality of suction piston cylinders at equal angles, the front end of each suction piston cylinder is respectively fixedly provided with a horizontal drain pipe, the rear end of each suction piston cylinder is respectively fixedly provided with a horizontal water pumping pipe, the interior of each suction piston cylinder is respectively connected with a suction piston in a sliding manner, each suction piston is respectively and rotatably connected with a vertical transmission roller, and each suction piston is respectively and rotatably connected with two connecting rods through a bearing, the two connecting rods are respectively arranged on the front side and the rear side of the roller, a horizontal double-shaft motor is fixed to the upper portion of the rear end of the main body, a vertical transmission cam is fixed to the front end of a rotating shaft of the front portion of the double-shaft motor, a discharging portion is installed on the lower portion of the main body, and a crushing portion is installed on the right portion of the main body.

On the basis of the technical scheme, the blanking part comprises an upper mounting frame, a lower mounting frame, an upper overturning frame, a coarse screen, an upper swinging rod, a lower overturning frame, a fine screen, a lower swinging rod, a rolling bearing, an overturning arc-shaped groove, an upper crank and a lower crank, a horizontal upper mounting frame and a horizontal lower mounting frame are sequentially fixed in the main body from top to bottom, the upper mounting frame is provided with the horizontal upper overturning frame, the bottom of the upper overturning frame is fixedly provided with the horizontal coarse screen, the right part of the upper overturning frame is rotatably connected with the upper swinging rod, the lower mounting frame is provided with the horizontal lower overturning frame, the bottom of the lower overturning frame is fixedly provided with the horizontal fine screen, the right part of the upper overturning frame and the front part and the rear part of the lower overturning frame are rotatably connected with the plurality of vertical rolling bearings, and the right parts of the upper mounting frame and the lower mounting frame are respectively fixedly provided with the horizontal overturning arc-shaped groove, the main part is from last to rotating in proper order through the bearing down and being connected with a vertical last crank and lower crank, it is articulated with last swinging arms left part to go up the crank front portion, lower crank front portion is articulated with lower swinging arms left part.

On the basis of the technical scheme, the crushing part comprises a supporting seat, a supporting plate, a crankshaft, an upper fixed seat, an adjusting screw rod, an adjusting screw cylinder, a lower fixed seat, a crushing seat, a fastening bolt, a fastening nut, a sliding plate, a pawl, a balancing weight, a crushing plate and a ratchet wheel, wherein the middle part of the right end of the main body is fixedly provided with a horizontal supporting seat, two vertical supporting plates are jointly fixed between the supporting seat and the main body, the upper parts of the two supporting plates are jointly and rotatably connected with the crankshaft through a bearing, the front part of the crankshaft is rotatably connected with the upper fixed seat through the bearing, the bottom of the upper fixed seat is rotatably connected with the adjusting screw rod through the bearing, the bottom of the adjusting screw rod is in threaded connection with the adjusting screw cylinder, the bottom end of the adjusting screw cylinder is fixedly provided with the lower fixed seat, the bottom of the lower fixed seat is rotatably connected with the horizontal crushing seat through the bearing, and the crushing seat is in sliding connection with the two supporting plates, the right part of the rear end of the crushing seat is in threaded connection with two horizontal fastening bolts, the front parts of the two fastening bolts are respectively in threaded connection with two vertical fastening nuts, a vertical sliding plate is fastened between the two fastening bolts and the fastening nuts together, the bottom of the sliding plate is rotatably connected with a vertical pawl, a vertical balancing weight is fixed at the bottom end of the pawl, a horizontal crushing plate is rotatably connected to the right part of the supporting seat, and a vertical ratchet wheel is fixed at the rear end of the right part of the crushing plate.

On the basis of the technical scheme, check valves are respectively installed in the water discharge pipes and the water pumping pipes, the water discharge pipes are respectively connected above the upper overturning frame through pipelines, the water pumping pipes are respectively connected in the recovery groove through pipelines, the transmission rollers are respectively contacted with the outer wall of the transmission cam, the suction pistons are hinged through the connecting rods, the rolling bearings are respectively contacted with the upper mounting frame or the lower mounting frame and can be buckled with the overturning arc-shaped grooves, the crushing seat can adjust the position of the crushing seat below the crankshaft through a manual rotation adjusting screw rod, the pawl can be meshed with the ratchet wheel, a rotating shaft at the rear part of the double-shaft motor is connected with the upper crank, the lower crank and the crankshaft through a V-shaped belt and a belt pulley for transmission, and the transmission ratio is one to one.

Compared with the prior art, the invention has the following advantages: the invention can ensure that each pumping piston intermittently slides along each pumping piston cylinder by utilizing the rotation of a double-shaft motor, thereby reducing the probability of equipment blockage and damage, efficiently transporting slurry, and well screening and discharging while realizing secondary screening by using the upper roll-over stand and the lower roll-over stand which can move left and right and swing, thereby avoiding the blockage of coarse and coarse nets and fine leakage nets by the stone drilling slag, and controlling the crushing effect of the stone drilling slag according to requirements while crushing large stone drilling slag by using the adjustable crushing seat.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic sectional structure view of the main body of the present invention.

Fig. 3 is a schematic view of the installation of the suction piston of the present invention.

Fig. 4 is a schematic view of the installation of the upper and lower roll-over stands of the present invention.

Fig. 5 is a schematic view of the installation of the sliding panel of the present invention.

In the figure: 1. a main body, 2, a liquid storage tank, 3, a recycling tank, 4, a fixing frame, 5, a pumping piston cylinder, 6, a drain pipe, 7, a water pumping pipe, 8, a pumping piston, 9, a transmission roller, 10, a connecting rod, 11, a double-shaft motor, 12, a transmission cam, 13, a blanking part, 14, a crushing part, 15, an upper mounting frame, 16, a lower mounting frame, 17, an upper overturning frame, 18, a coarse screen, 19, an upper swinging rod, 20, a lower overturning frame, 21, a fine screen, 22, a lower swinging rod, 23, a rolling bearing, 24, an overturning arc-shaped groove, 25, an upper crank, 26, a lower crank, 27, a supporting seat, 28, a supporting plate, 29, a crankshaft, 30, an upper fixing seat, 31, an adjusting screw rod, 32, an adjusting screw cylinder, 33, a lower fixing seat, 34, a crushing seat, 35, a fastening bolt, 36, a fastening nut, 37, a sliding plate, 38, a pawl, 39, a balancing weight, 40 and a crushing plate, 41. and (4) ratchet wheels.

Detailed Description

The invention is explained in further detail below with reference to the figures and the specific embodiments.

As shown in fig. 1-5, a mud treatment device for construction engineering comprises a main body 1, a liquid storage tank 2, a recovery tank 3, a fixing frame 4, a suction piston cylinder 5, a water discharge pipe 6, a water suction pipe 7, a suction piston 8, a transmission roller 9, a connecting rod 10, a double-shaft motor 11, a transmission cam 12, a blanking part 13 and a crushing part 14, wherein the main body 1 is internally provided with a vertical liquid storage tank 2 and a recovery tank 3 from top to bottom in sequence, the top end of the inner wall of the main body 1 is fixedly provided with a vertical fixing frame 4, the circumference of the fixing frame 4 is fixedly provided with a plurality of suction piston cylinders 5 at equal angles, the front end of each suction piston cylinder 5 is respectively fixedly provided with a horizontal water discharge pipe 6, the rear end of each suction piston cylinder 5 is respectively fixedly provided with a horizontal water suction pipe 7, each water suction pipe 7 and water discharge pipe 6 are respectively communicated with each suction piston cylinder 5, the interior of each suction piston cylinder 5 is respectively connected with a suction piston 8 in a sliding manner, each suction piston 8 is rotatably connected with a vertical transmission roller 9, each suction piston 8 is rotatably connected with two connecting rods 10 through bearings, the two connecting rods 10 are arranged on the front side and the rear side of the roller respectively, each suction piston 8 is hinged through each connecting rod 10, a horizontal double-shaft motor 11 is fixed on the upper portion of the rear end of the main body 1, a vertical transmission cam 12 is fixed on the front end of a rotating shaft of the front portion of the double-shaft motor 11, the transmission cam 12 is of a symmetrical structure and is of a two-part symmetrical convex structure, the other two parts of the transmission cam are of a symmetrical concave structure, each transmission roller 9 is in contact with the outer wall of the transmission cam 12, a blanking part 13 is installed on the lower portion of the main body 1, and a crushing part 14 is installed on the right portion of the main body 1.

The blanking part 13 comprises an upper mounting frame 15, a lower mounting frame 16, an upper turning frame 17, a coarse leakage net 18, an upper swing rod 19, a lower turning frame 20, a fine leakage net 21, a lower swing rod 22, a rolling bearing 23, a turning arc-shaped groove 24, an upper crank 25 and a lower crank 26, wherein the main body 1 is internally and sequentially fixed with the upper horizontal mounting frame 15 and the lower mounting frame 16 from top to bottom, the upper horizontal turning frame 17 is placed on the upper mounting frame 15, the bottom of the upper turning frame 17 is fixed with the coarse leakage net 18, the right part of the upper turning frame 17 is connected with the upper swing rod 19 in a rotating way, the lower horizontal turning frame 20 is placed on the lower mounting frame 16, the bottom of the lower turning frame 20 is fixed with the fine horizontal leakage net 21, the right part of the upper turning frame 17 is connected with the lower swing rod 22 in a rotating way, the coarse leakage net 18 and the fine leakage net 21 are used for screening mud, the front and back parts of the upper turning frame 17 and the lower turning frame 20 are respectively connected with the vertical rolling bearings 23 in a rotating way, go up mounting bracket 15 and lower mounting bracket 16 right part and be fixed with a horizontally upset arc wall 24 respectively, upset arc wall 24 is used for restricting the range of motion of last mounting bracket 15 and lower mounting bracket 16, and is used for supporting the swing of last mounting bracket 15 and lower mounting bracket 16, main part 1 is from last to rotating in proper order through the bearing and being connected with a vertical last crank 25 and lower crank 26 down, it is articulated with last swinging arms 19 left part to go up crank 25 front portion, lower crank 26 front portion is articulated with lower swinging arms 22 left part.

The crushing part 14 comprises a supporting seat 27, a supporting plate 28, a crankshaft 29, an upper fixed seat 30, an adjusting screw 31, an adjusting screw cylinder 32, a lower fixed seat 33, a crushing seat 34, a fastening bolt 35, a fastening nut 36, a sliding plate 37, a pawl 38, a balancing weight 39, a crushing plate 40 and a ratchet wheel 41, wherein the horizontal supporting seat 27 is fixed at the middle part of the right end of the main body 1, two vertical supporting plates 28 are fixed between the supporting seat 27 and the main body 1 together, the upper parts of the two supporting plates 28 are connected with the crankshaft 29 together through a bearing in a rotating way, the front part of the crankshaft 29 is connected with the upper fixed seat 30 through the bearing in a rotating way, the crankshaft 29 is used for driving the upper fixed seat 30 to swing in the circumferential direction, the bottom of the upper fixed seat 30 is connected with the adjusting screw 31 through the bearing in a rotating way, the bottom of the adjusting screw 31 is connected with the adjusting screw cylinder 32 through a thread, and the bottom end of the adjusting screw cylinder 32 is fixed with the lower fixed seat 33, the bottom of the lower fixed seat 33 is rotatably connected with a horizontal crushing seat 34 through a bearing, the crushing seat 34 is used for crushing stone drill slag, the position of the crushing seat 34 below the crankshaft 29 can be adjusted through manually rotating an adjusting screw 31, the crushing seat 34 is slidably connected with two supporting plates 28, the right part of the rear end of the crushing seat 34 is in threaded connection with two horizontal fastening bolts 35, the front parts of the two fastening bolts 35 are respectively in threaded connection with two vertical fastening nuts 36, a vertical sliding plate 37 is jointly fastened between the two fastening bolts 35 and the fastening nuts 36, the position of the sliding plate 37 on the fastening bolts 35 can be adjusted through manually rotating each fastening bolt 35, the bottom of the sliding plate 37 is rotatably connected with a vertical pawl 38, the bottom end of the pawl 38 is fixedly provided with a vertical balancing weight 39, and the balancing weight 39 is used for ensuring the gravity to stabilize the center of the pawl 38 as much as possible, the supporting seat 27 is connected with a horizontal crushing plate 40 in a rotating mode at the right part, the crushing plate 40 is used for assisting the crushing seat 34 in crushing stone drilling slag, and a vertical ratchet wheel 41 is fixed at the rear end of the right part of the crushing plate 40.

The water discharge pipe 6 and the water suction pipe 7 are respectively provided with a one-way valve, each water discharge pipe 6 is respectively connected above the upper overturning frame 17 through a pipeline, each water suction pipe 7 is respectively connected in the recovery tank 3 through a pipeline, each rolling bearing 23 is respectively contacted with the upper mounting frame 15 or the lower mounting frame 16 and can be buckled with each overturning arc-shaped groove 24, in order to ensure that the crushing plate 40 can well carry out circumferential swinging and discharging, the pawl 38 can be meshed with the ratchet 41 at the middle position of the up-and-down reciprocating movement under the action of the balancing weight 39 in the process of up-and-down reciprocating movement along with the crushing seat 34, the pawl 38 can drive the ratchet 41 to carry out clockwise swinging when being meshed with the ratchet 41, and the rotating shaft at the rear part of the double-shaft motor 11 is connected with the upper crank 25, the lower crank 26 and the crank 29 through a V-shaped belt and a belt pulley for transmission, and the transmission ratios are one to one.

The working principle of the invention is as follows: the power supply of the double-shaft motor 11 is switched on, the transmission cam 12 starts to rotate continuously, the recovered mud is continuously introduced into the recovery tank 3 and is connected with the recovery tank 3 through a pump and other equipment, the transmission cam 12 starts to continuously perform rolling friction on the transmission roller 9 due to the continuous rotation of the transmission cam 12, the suction pistons 8 start to perform linear reciprocating motion alternately along the suction piston cylinders 5 under the combined action of the connecting rod 10, the transmission roller 9 and the transmission cam 12, so that the mud recovered in the recovery tank 3 can be sucked into the suction piston cylinders 5 under the action of the suction pipes 7 and the one-way valves and is discharged to the position above the coarse strainer 18 of the upper turnover frame 17 under the action of the drain pipes 6 and the one-way valves, the upper crank 25 and the lower crank 26 synchronously rotate while the transmission cam 12 rotates continuously, and the upper crank 25 and the lower crank 26 can drive the upper swing rod 19 and the lower swing rod in the continuous rotation process 22, the upper swing rod 19 and the lower swing rod 22 can drive the upper roll-over stand 17 and the lower roll-over stand 20 to slide left and right along the upper mounting rack 15 and the lower mounting rack 16 respectively in the process of swinging, the upper roll-over stand 17 and the lower roll-over stand 20 are limited by the turning arc-shaped groove 24 in the process of sliding right, so that the upper roll-over stand 17 and the lower roll-over stand 20 cannot slide right any more, the upper roll-over stand 17 and the lower roll-over stand 20 start to swing circumferentially under the limitation of the turning arc-shaped groove 24, the upper roll-over stand 17 and the lower roll-over stand 20 start to reset to slide left after swinging for a certain angle, the upper roll-over stand 17 and the lower roll-over stand 20 can perform secondary screening and discharge on slurry discharged from the drain pipe 6 through the coarse drain net 18 and the fine drain net 21 in the process of sliding left and right and can drive the crankshaft 29 to rotate continuously in the process of rotating continuously by the motor 11, the crankshaft 29 can drive the crushing seat 34 to slide up and down along the supporting plate 28 in the process of continuous rotation, the crushing seat 34 can be intermittently meshed with the ratchet wheel 41 through the pawl 38 in the process of sliding up and down, so that the crushing plate 40 can be driven to intermittently swing through the ratchet wheel 41, the large stone drill slag can be discharged by utilizing the swinging of the upper overturning frame 17 and the crushing plate 40 and the time difference between the crushing seats 34, then the crushing is carried out, then the discharging is carried out, namely when the upper overturning frame 17 swings clockwise, the stone drill slag falls onto the horizontal crushing plate 40 under the action of gravity, then the stone drill slag on the horizontal crushing plate 40 is crushed under the downward extrusion of the crushing seat 34, meanwhile, the upper overturning frame 17 starts to reset and slide left, and then the crushed drill slag is discharged under the clockwise swinging of the crushing plate 40, meanwhile, the crushing seat 34 starts to reset and slide upwards, and the position of the adjusting screw cylinder 32 on the adjusting screw 31 is manually rotated, so that the minimum horizontal distance between the crushing seat 34 and the crushing plate 40 can be adjusted, namely, the crushing degree of the stone drilling slag can be controlled.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that variations, modifications, substitutions and alterations can be made in the embodiment without departing from the principles and spirit of the invention.

Claims

1. The utility model provides a mud processing apparatus for building engineering, includes main part (1), reservoir (2), accumulator (3), mount (4), suction piston cylinder (5), drain pipe (6), drinking-water pipe (7), suction piston (8), drive roller (9), connecting rod (10), biax motor (11), drive cam (12), unloading part (13), crushing part (14), its characterized in that: the device is characterized in that a vertical liquid storage tank (2) and a recovery tank (3) are sequentially arranged in the main body (1) from top to bottom, a vertical fixing frame (4) is fixed at the top end of the inner wall of the main body (1), a plurality of suction piston cylinders (5) are fixed on the fixing frame (4) at equal angles on the circumference, a horizontal drain pipe (6) is fixed at the front end of each suction piston cylinder (5), a horizontal water pumping pipe (7) is fixed at the rear end of each suction piston cylinder (5), a suction piston (8) is respectively connected in the suction piston cylinders (5) in a sliding manner, a vertical transmission roller (9) is respectively connected on each suction piston (8) in a rotating manner, two connecting rods (10) are respectively connected on each suction piston (8) in a rotating manner through bearings, the two connecting rods (10) are respectively arranged on the front side and the rear side of the roller, a horizontal double-shaft motor (11) is fixed on the upper portion of the rear end of the main body (1), the front end of a rotating shaft at the front part of the double-shaft motor (11) is fixedly provided with a vertical transmission cam (12), the lower part of the main body (1) is provided with a blanking part (13), and the right part of the main body (1) is provided with a crushing part (14).

2. The mud treatment device for construction engineering according to claim 1, wherein: the blanking part (13) comprises an upper mounting frame (15), a lower mounting frame (16), an upper turning frame (17), a coarse leakage net (18), an upper swing rod (19), a lower turning frame (20), a fine leakage net (21), a lower swing rod (22), a rolling bearing (23), a turning arc-shaped groove (24), an upper crank (25) and a lower crank (26), wherein the main body (1) is internally and sequentially fixed with a horizontal upper mounting frame (15) and a lower mounting frame (16) from top to bottom, the upper mounting frame (15) is provided with the horizontal upper turning frame (17), the bottom of the upper turning frame (17) is fixedly provided with the horizontal coarse leakage net (18), the right part of the upper turning frame is rotatably connected with the upper swing rod (19), the lower mounting frame (16) is provided with the horizontal lower turning frame (20), the bottom of the lower turning frame (20) is fixedly provided with the horizontal fine leakage net (21), and the right part rotates and is connected with swinging arms (22) once, go up flip frame (17) and flip frame (20) down around two respectively rotate and be connected with a plurality of vertical antifriction bearing (23), it is fixed with a horizontally upset arc wall (24) respectively with lower mounting bracket (16) right part to go up mounting bracket (15), main part (1) is from last to rotating in proper order through the bearing down and is connected with a vertical last crank (25) and lower crank (26), it is articulated with last swinging arms (19) left part to go up crank (25) front portion, lower crank (26) front portion is articulated with lower swinging arms (22) left part.

3. The mud treatment device for construction engineering according to claim 1, wherein: the crushing part (14) comprises a supporting seat (27), supporting plates (28), a crankshaft (29), an upper fixed seat (30), an adjusting screw rod (31), an adjusting screw cylinder (32), a lower fixed seat (33), a crushing seat (34), a fastening bolt (35), a fastening nut (36), a sliding plate (37), a pawl (38), a balancing weight (39), a crushing plate (40) and a ratchet wheel (41), wherein the horizontal supporting seat (27) is fixed in the middle of the right end of the main body (1), two vertical supporting plates (28) are jointly fixed between the supporting seat (27) and the main body (1), the upper parts of the two supporting plates (28) are jointly and rotatably connected with the crankshaft (29) through bearings, the front part of the crankshaft (29) is rotatably connected with the upper fixed seat (30) through bearings, and the bottom of the upper fixed seat (30) is rotatably connected with the adjusting screw rod (31) through bearings, an adjusting screw cylinder (32) is in threaded connection with the bottom of the adjusting screw rod (31), a lower fixing seat (33) is fixed at the bottom end of the adjusting screw cylinder (32), a horizontal crushing seat (34) is rotatably connected with the bottom of the lower fixing seat (33) through a bearing, the crushing seat (34) is in sliding connection with the two supporting plates (28), two horizontal fastening bolts (35) are in threaded connection with the right part of the rear end of the crushing seat (34), two vertical fastening nuts (36) are respectively in threaded connection with the front parts of the two fastening bolts (35), a vertical sliding plate (37) is jointly fastened between the two fastening bolts (35) and the fastening nuts (36), a vertical pawl (38) is rotatably connected with the bottom of the sliding plate (37), a vertical balancing weight (39) is fixed at the bottom end of the pawl (38), and a horizontal crushing plate (40) is rotatably connected with the right part of the supporting seat (27), a vertical ratchet wheel (41) is fixed at the rear end of the right part of the crushing plate (40).

4. The apparatus for treating sludge for construction engineering according to claim 1 or 2, wherein: check valves are respectively installed in the drain pipes (6) and the water pumping pipes (7), the drain pipes (6) are respectively connected above the upper roll-over stand (17) through pipelines, the water pumping pipes (7) are respectively connected in the recovery tank (3) through pipelines, the transmission rollers (9) are respectively contacted with the outer wall of the transmission cam (12), the suction pistons (8) are hinged through the connecting rods (10), the rolling bearings (23) are respectively contacted with the upper mounting stand (15) or the lower mounting stand (16) and can be buckled with the turnover arc-shaped grooves (24), the crushing seat (34) can adjust the position of the crushing seat below a crankshaft (29) through manually rotating the adjusting screw rod (31), the pawl (38) can be meshed with a ratchet wheel (41), and the rotating shaft at the rear part of the double-shaft motor (11) is connected with the upper crank (25), The lower crank (26) and the crankshaft (29) are connected and driven by a V-shaped belt and a belt pulley, and the transmission ratio is one to one.