CN109499170B

CN109499170B - Industrial wastewater residue-liquid separation equipment

Info

Publication number: CN109499170B
Application number: CN201811514549.7A
Authority: CN
Inventors: 徐蔓
Original assignee: Huzhou Dali Intelligent Equipment Manufacturing Co Ltd
Current assignee: Daqing Tiandezhong Petroleum Science & Technology Co ltd
Priority date: 2018-12-12
Filing date: 2018-12-12
Publication date: 2020-12-08
Anticipated expiration: 2038-12-12
Also published as: CN109499170A

Abstract

The invention relates to separation equipment, in particular to industrial wastewater residue-liquid separation equipment. Therefore, the technical problem of the invention is as follows: provides the slag-liquid separating equipment for the industrial wastewater, which is more convenient and can improve the separation efficiency. The technical scheme is as follows: an industrial wastewater slag-liquid separation device comprises a support plate, a motor, a collecting hopper, a filter plate, a water outlet pipe, a drainage hopper, a connecting shaft, a mounting plate, a first rotating shaft, a chain wheel, a rocker, a spray pipe and the like; the inboard middle part bolt of two extension boards has the motor, all installs on the output shaft of two motors and collects the fill, all is connected with the filter that is used for filtering waste water in the collection fill of the left and right sides, and the filter is netted. According to the invention, the slag-liquid separation can be continuously carried out by rotating the rocker counterclockwise, so that the separation efficiency can be improved; the waste water slag can be collected through the collecting mechanism, so that the waste water slag is prevented from falling into a waste water ditch; can drive touching pole anticlockwise rotation through automatic mechanism, then need not the manual anticlockwise rotation rocker of people, it is more convenient.

Description

Industrial wastewater residue-liquid separation equipment

Technical Field

The invention relates to separation equipment, in particular to industrial wastewater residue-liquid separation equipment.

Background

Industrial waste water is the pollutant that produces in the production process, when industrial waste water discharges, generally slag and liquid are discharged together, in order to avoid causing a lot of pollution, need carry out the separation of slag and liquid, now generally use the otter board to carry out the separation of slag and liquid, it is long-time, can remain more waste water sediment on the otter board, so need turn off the waste pipe, then clear up the waste water sediment on the otter board, so relatively more troublesome, and the separation of slag and liquid can't be carried out in succession, lead to separation efficiency low, so people can be when carrying out the separation of slag and liquid, clear up the waste water sediment on the otter board with the ladle, so people are tired.

Disclosure of Invention

In order to overcome the defects that the separation of the slag and the liquid by using the screen plate is troublesome and the separation of the slag and the liquid cannot be continuously carried out, which causes low separation efficiency, the invention has the technical problems that: provides the slag-liquid separating equipment for the industrial wastewater, which is more convenient and can improve the separation efficiency.

The technical scheme is as follows: an industrial wastewater residue-liquid separation device comprises support plates, motors, collecting hoppers, filter plates, water outlet pipes, water discharging hoppers, connecting shafts, mounting plates, a first rotating shaft, a chain wheel, a rocker, a spray pipe, an upper travel switch, a lower travel switch, a water receiving pipe, a hose, a chain, shaft sleeves, a touch rod and a collecting mechanism, wherein the motors are bolted to the middle parts of the inner sides of the two support plates, the collecting hoppers are mounted on output shafts of the two motors, the filter plates for filtering wastewater are connected in the collecting hoppers on the left side and the right side, the filter plates are net-shaped, the bottom parts of the left collecting hopper and the top parts of the right collecting hopper are connected with the water outlet pipes, the bottom ends of the left water outlet pipes and the top ends of the right water outlet pipes are connected with the water discharging hoppers for enabling the wastewater to flow out, the connecting shafts, the upper parts of the front sides of the two support plates are fixedly connected with a mounting plate, the left part and the right part of the mounting plate are respectively provided with a first rotating shaft in a rotating mode, the middle parts of the two first rotating shafts are fixedly sleeved with chain wheels, chains are wound between the two chain wheels, the front end of the left first rotating shaft is fixedly connected with a rocker, a spray pipe for spraying wastewater is connected to the lower right part of the rear side of the chains, the bottom of the spray pipe is connected with a touch rod, the left side and the right side of the upper part of the rear side of the mounting plate are respectively bolted with an upper travel switch, the left side and the right side of the lower part of the rear side of the mounting plate are respectively bolted with a lower travel switch, the left lower travel switch and the left upper travel switch are respectively in circuit connection with a right motor, the right side lower travel switch and the right side of the upper travel switch are respectively in circuit connection, two extension board lower parts are equipped with the collection mechanism that is used for collecting the waste water sediment, when touching left lower travel switch when touching the pole anticlockwise rotation, the motor on right side rotates 180 degrees, it rotates 180 degrees to drive the collection fill on right side, when touching the pole anticlockwise rotation and touch the lower travel switch on right side, left motor rotates 180 degrees, drive left collection fill and rotate 180 degrees, when touching the pole anticlockwise rotation and touch the last travel switch on right side, left motor rotates 180 degrees, drive left collection fill and rotate 180 degrees, when touching the pole anticlockwise rotation and touch left last travel switch and close, the motor on right side rotates 180 degrees, it rotates 180 degrees to drive the collection fill on right side.

Further, the collecting mechanism comprises transverse rods, stop rods and a collecting frame, the transverse rods are connected to the front side and the rear side of the lower portions of the two support plates, the stop rods are connected between the two transverse rods, the collecting frame used for collecting waste water slag is placed on the stop rods, and the collecting frame is net-shaped.

The automatic mechanism comprises a semicircular frame, a second rotating shaft, a blade, a small belt pulley, a large belt pulley and a flat belt, the semicircular frame is fixedly connected to the middle of the right side of the water receiving pipe, the second rotating shaft is rotatably mounted in the semicircular frame, the blade and the small belt pulley are mounted on the second rotating shaft, the blade is located in the semicircular frame, the small belt pulley is located on the front side of the semicircular frame, the large belt pulley is mounted on the front portion of the first rotating shaft on the right side, and the flat belt is wound between the large belt pulley and the small belt pulley.

Further, the sewage treatment device also comprises a drain pipe and a water collecting hopper, wherein the lower parts of the inner sides of the two support plates are connected with the drain pipe for discharging the waste water, and the water collecting hopper is connected between the two drain pipes.

Further, the collecting device comprises guide sleeves, clamping rods, springs and clamping sleeves, wherein the guide sleeves which play a guiding role are connected to the left side and the right side of the top of the collecting frame, the clamping rods which are L-shaped are arranged in the two guide sleeves, the springs are connected between the clamping rods and the guide sleeves, the clamping sleeves which are used for clamping the clamping rods are connected to the upper parts of the inner sides of the two drain pipes, and the clamping rods are located in the clamping sleeves.

People place the water filter on the bank of a waste water ditch, then connect a waste water pipe to the water receiving pipe, so that waste water flows out of the spray pipe through the water receiving pipe and the hose and falls into the left collecting hopper, the left filter plate can filter slag in the waste water, the waste water with the filtered slag is discharged into the left drainage hopper through the left water outlet pipe and then falls into the waste water ditch, people can rotate the rocker counterclockwise to drive the left first rotating shaft to rotate counterclockwise, so as to drive the left chain wheel to rotate counterclockwise, the spray pipe is driven to rotate counterclockwise through the chain, and the touch rod rotates counterclockwise along with the rocker. When the touch rod rotates anticlockwise to touch the lower travel switch on the left side, the motor on the right side rotates 180 degrees to drive the collection hopper on the right side to rotate 180 degrees, so that the wastewater flowing out of the spray pipe can fall into the collection hopper on the right side, the filter plate on the right side can filter the slag in the wastewater, the wastewater with the slag filtered is discharged into the drainage hopper on the right side through the water outlet pipe on the right side, then the wastewater falls from the drainage hopper on the right side and falls into the wastewater ditch, when the touch rod rotates anticlockwise to touch the lower travel switch on the right side, the motor on the left side rotates 180 degrees to drive the collection hopper on the left side to rotate 180 degrees, the wastewater slag in the collection hopper on the left side falls into the collection mechanism to be collected, the wastewater slag is prevented from falling into the wastewater ditch, when the touch rod rotates anticlockwise to touch the upper travel switch on the right side, the motor on the left side rotates, make waste water fall in the left collection fill, when touching the pole anticlockwise rotation and touch left last travel switch, the motor on right side rotates 180 degrees, it rotates 180 degrees to drive the collection fill on right side, make the right side collect the waste water sediment in fighting and fall, fall in collecting the mechanism, collect waste water sediment, avoid waste water sediment to fall in the waste water ditch, when touching left travel switch down once more when touching the pole anticlockwise rotation, the motor on right side rotates 180 degrees, it rotates 180 degrees to drive the collection fill on right side, make waste water fall in the collection fill on right side, so relapse, can be continuous carry out the separation of sediment liquid, thereby can improve separation efficiency. When the waste water slag is to be filled in the collecting mechanism, people stop rotating the rocker, then the waste water pipe and the water receiving pipe are separated, and then the waste water slag in the collecting mechanism is cleaned.

When the collection fill rotates 180 degrees and makes the waste water sediment in the collection fill fall down, fall to in the collection frame, the collection frame can be collected waste water sediment, avoids waste water sediment to fall into in the waste water ditch. When the collection frame is filled with the waste water slag, people stop rotating the rocker, then the waste water pipe and the water receiving pipe are separated, the collection frame is taken down from the stop lever, and the waste water slag in the collection frame can be cleaned. After all the collection frames are cleaned, people can put the collection frames back on the stop lever.

When waste water flows out from the spray pipe through water receiving pipe and hose, waste water drives blade anticlockwise rotation to drive second pivot anticlockwise rotation, and then drive belt lace wheel anticlockwise rotation, drive big belt pulley anticlockwise rotation through the flat belt, thereby drive the first pivot anticlockwise rotation on right side, and then drive the sprocket anticlockwise rotation on right side, drive spray pipe anticlockwise rotation through the chain, touching pole anticlockwise rotation thereupon, then need not the manual anticlockwise rotation rocker of people, it is more convenient. When the waste pipe and the water receiving pipe are separated, the blade loses thrust to stop anticlockwise rotation, and then the touch rod anticlockwise rotates.

When the waste water that filters the sediment falls down from the drainage fill, fall in the drain pipe, then flow to the water catch bowl through the drain pipe in, fall in the waste water ditch at last to can avoid filtering the waste water that filters the sediment and fall subaerially.

The clamping rod is clamped in the clamping sleeve, so that the collection frame can be prevented from sliding off the stop rod, and the clamping rod is always clamped in the clamping sleeve under the action of the spring. When needs will collect the frame and take off from the pin, people stir the kelly inwards, make the kelly move out in the bayonet catch, the spring is stretched this moment, and people can take off from the pin collecting the frame, and after taking off, people loosen the kelly, under the effect of spring, the kelly outwards resets.

Has the advantages that: according to the invention, the slag-liquid separation can be continuously carried out by rotating the rocker counterclockwise, so that the separation efficiency can be improved; the waste water slag can be collected through the collecting mechanism, so that the waste water slag is prevented from falling into a waste water ditch; the touch rod can be driven to rotate anticlockwise through the automatic mechanism, so that people do not need to manually rotate a rocker anticlockwise, and the operation is more convenient; the waste water with the filtered slag can be prevented from falling to the ground under the action of the drain pipe; the collection frame can be prevented from sliding off the stop lever through the clamping rod and the clamping sleeve.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is an enlarged schematic view of part a of the present invention.

Fig. 3 is an enlarged view of part B of the present invention.

The meaning of the reference symbols in the figures: 1 … support plate, 2 … motor, 3 … collection bucket, 4 … filter plate, 5 … outlet pipe, 6 … drain bucket, 7 … connecting shaft, 8 … mounting plate, 9 … first rotating shaft, 10 … chain wheel, 11 … rocker, 12 … spray pipe, 13 … upper travel switch, 14 … lower travel switch, 15 … water receiving pipe, 16 … hose, 17 … chain, 18 … shaft sleeve, 19 … touch rod, 20 … collection mechanism, 201 … cross bar, 202 … stop lever, 203 … collection frame, 21 … automatic mechanism, 211 … semicircular frame, 212 … second rotating shaft, 213 … blade, 214 … small belt pulley 215, … large belt pulley, 216 … flat belt, 22 … drain pipe, 23 … water collection bucket, 24 … guide sleeve, 25 … clamping rod, 26 … spring, 27 … clamping sleeve.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

An industrial wastewater slag-liquid separation device is shown in figures 1-3 and comprises support plates 1, motors 2, collecting hoppers 3, filter plates 4, water outlet pipes 5, water discharging hoppers 6, connecting shafts 7, mounting plates 8, first rotating shafts 9, chain wheels 10, rocking bars 11, spray pipes 12, upper travel switches 13, lower travel switches 14, water receiving pipes 15, hoses 16, chains 17, shaft sleeves 18, touch rods 19 and collecting mechanisms 20, wherein the motors 2 are bolted in the middle parts of the inner sides of the two support plates 1, the collecting hoppers 3 are mounted on output shafts of the two motors 2, the filter plates 4 for filtering wastewater are connected in the collecting hoppers 3 on the left side and the right side, the filter plates 4 are net-shaped, the water outlet pipes 5 are connected at the bottom of the left collecting hopper 3 and the top of the right collecting hopper 3, the water discharging hoppers 6 for discharging wastewater are connected at the bottom ends of the left water outlet pipes 5 and the top ends of the right, the inner sides of the collecting buckets 3 on the left side and the right side are connected with connecting shafts 7, the connecting shafts 7 and the output shaft of the motor 2 are positioned on the same horizontal line, the two connecting shafts 7 are connected through shaft sleeves 18, the upper parts of the front sides of the two support plates 1 are fixedly connected with mounting plates 8, the left parts and the right parts of the mounting plates 8 are respectively and rotatably provided with a first rotating shaft 9, the middle parts of the two first rotating shafts 9 are respectively and fixedly sleeved with chain wheels 10, chains 17 are wound between the two chain wheels 10, the front ends of the left first rotating shafts 9 are respectively and fixedly connected with rocking bars 11 for enabling waste water spraying spray pipes 12 to be connected with the right lower parts of the rear sides of the chains 17, the bottoms of the spray pipes 12 are connected with contact rods 19, the left sides and the right sides of the upper parts of the rear sides of the mounting plates 8 are respectively bolted with upper travel switches 13, the lower travel switch 14 on the right and the upper travel switch 13 on the right are both in circuit connection with the left motor 2, a water receiving pipe 15 for receiving wastewater is arranged above the mounting plate 8, a hose 16 for making wastewater flow is connected to the bottom end of the water receiving pipe 15, the bottom end of the hose 16 is connected to the top of the spray pipe 12, a collecting mechanism 20 for collecting wastewater and slag is arranged below the two support plates 1, when the touch rod 19 rotates anticlockwise to touch the lower travel switch 14 on the left, the motor 2 on the right rotates 180 degrees to drive the collecting hopper 3 on the right to rotate 180 degrees, when the touch rod 19 rotates anticlockwise to touch the lower travel switch 14 on the right, the motor 2 on the left rotates 180 degrees to drive the collecting hopper 3 on the left to rotate 180 degrees, when the touch rod 19 rotates anticlockwise to touch the upper travel switch 13 on the right, the motor 2 on the left rotates 180 degrees to drive the collecting hopper 3 on the, when the touch rod 19 rotates counterclockwise to touch the upper travel switch 13 on the left side, the motor 2 on the right side rotates 180 degrees, and the collecting bucket 3 on the right side is driven to rotate 180 degrees.

Example 2

Collect mechanism 20 including horizontal pole 201, pin 202 and collection frame 203, both sides all are connected with horizontal pole 201 around two extension board 1 lower parts, are connected with a plurality of pins 202 between two horizontal poles 201, place the collection frame 203 that is used for collecting the waste water sediment on the pin 202, and collection frame 203 is netted.

Example 3

The automatic water pipe water collector further comprises an automatic mechanism 21, the automatic mechanism 21 comprises a semicircular frame 211, a second rotating shaft 212, a blade 213, a small belt pulley 214, a large belt pulley 215 and a flat belt 216, the semicircular frame 211 is fixedly connected to the middle of the right side of the water receiving pipe 15, the second rotating shaft 212 is rotatably installed in the semicircular frame 211, the blade 213 and the small belt pulley 214 are installed on the second rotating shaft 212, the blade 213 is located in the semicircular frame 211, the small belt pulley 214 is located on the front side of the semicircular frame 211, the large belt pulley 215 is installed in the front portion of the first rotating shaft 9 on the right side, and the flat belt 216 is wound between the large belt.

Example 4

The wastewater treatment device further comprises a drain pipe 22 and a water collecting hopper 23, wherein the lower part of the inner sides of the two support plates 1 is connected with the drain pipe 22 for discharging wastewater, and the water collecting hopper 23 is connected between the two drain pipes 22.

Example 5

The water draining device is characterized by further comprising guide sleeves 24, clamping rods 25, springs 26 and clamping sleeves 27, the left side and the right side of the top of the collecting frame 203 are connected with the guide sleeves 24 with guiding functions, the clamping rods 25 in L shapes are arranged in the two guide sleeves 24, the springs 26 are connected between the clamping rods 25 and the guide sleeves 24, the clamping sleeves 27 used for clamping the clamping rods 25 are connected to the upper portions of the inner sides of the two water draining pipes 22, and the clamping rods 25 are located in the clamping sleeves 27.

People place the water filter device on the bank of a waste water ditch, then connect the waste water pipe to the water receiving pipe 15, so that waste water flows out of the spray pipe 12 through the water receiving pipe 15 and the hose 16 and falls into the left collecting hopper 3, the left filter plate 4 can filter slag in the waste water, the waste water with the slag filtered is discharged into the left drainage hopper 6 through the left water outlet pipe 5, then falls into the waste water ditch from the left drainage hopper 6, people can rotate the rocker 11 anticlockwise to drive the left first rotating shaft 9 to rotate anticlockwise so as to drive the left chain wheel 10 to rotate anticlockwise, the spray pipe 12 is driven to rotate anticlockwise through the chain 17, and the touch rod 19 rotates anticlockwise accordingly. When the touch rod 19 rotates counterclockwise to touch the lower travel switch 14 on the left, the motor 2 on the right rotates 180 degrees to drive the collecting hopper 3 on the right to rotate 180 degrees, so that the wastewater flowing out of the spray pipe 12 can fall into the collecting hopper 3 on the right, the filter plate 4 on the right can filter the slag in the wastewater, the wastewater with the slag filtered is discharged into the drainage hopper 6 on the right through the water outlet pipe 5 on the right, then falls into the wastewater ditch from the drainage hopper 6 on the right, when the touch rod 19 rotates counterclockwise to touch the lower travel switch 14 on the right, the motor 2 on the left rotates 180 degrees to drive the collecting hopper 3 on the left to rotate 180 degrees, so that the wastewater slag in the collecting hopper 3 on the left falls into the collecting mechanism 20 to collect the wastewater slag, thereby preventing the wastewater slag from falling into the wastewater ditch, when the touch rod 19 rotates counterclockwise to touch the upper travel switch 13 on the right, left motor 2 rotates 180 degrees, it rotates 180 degrees to drive left collection fill 3, make waste water fall in left collection fill 3, when touching pole 19 anticlockwise rotation touch on left last travel switch 13, motor 2 on right side rotates 180 degrees, it rotates 180 degrees to drive collection fill 3 on right side, make the waste water sediment in the right side collection fill 3 fall, fall in collection mechanism 20, collect waste water sediment, avoid waste water sediment to fall in the waste water ditch, when touching pole 19 anticlockwise rotation touch on left lower travel switch 14 once more, motor 2 on right side rotates 180 degrees, it rotates 180 degrees to drive collection fill 3 on right side, make waste water fall in the collection fill 3 on right side, so relapse, can be continuous carry out the slag-liquid separation, thereby can improve separation efficiency. When the collecting mechanism 20 is to be filled with waste water slag, people stop rotating the rocker 11, then the waste water pipe is separated from the water receiving pipe 15, and then the waste water slag in the collecting mechanism 20 is cleaned.

When collecting 3 and rotating 180 degrees and making the waste water sediment that collects in fighting 3 fall, fall and collect the frame 203 in, collect the frame 203 and can collect waste water sediment, avoid waste water sediment to fall in the waste water ditch. When the collection frame 203 is to be filled with waste water slag, people stop rotating the rocker 11, then separate the waste water pipe from the water receiving pipe 15, and then take the collection frame 203 off the stop lever 202, so that the waste water slag in the collection frame 203 can be cleaned. After all the material is cleaned, the collection frame 203 is put back on the stop lever 202.

When waste water flows out from spray pipe 12 through water receiving pipe 15 and hose 16, waste water drives blade 213 anticlockwise rotation, thereby drive second pivot 212 anticlockwise rotation, and then drive belt lace wheel 214 anticlockwise rotation, drive big belt pulley 215 anticlockwise rotation through flat belt 216, thereby drive the first pivot 9 anticlockwise rotation on right side, and then drive the sprocket 10 anticlockwise rotation on right side, drive spray pipe 12 anticlockwise rotation through chain 17, touch pole 19 anticlockwise rotation thereupon, then need not the manual anticlockwise rotation rocker 11 of people, it is more convenient. When the waste pipe and the water receiving pipe 15 are separated, the blade 213 loses the pushing force to stop the counterclockwise rotation, and the touch rod 19 rotates counterclockwise.

When the waste water with the filtered slag falls from the drainage hopper 6, the waste water falls into the drainage pipe 22, then flows into the water collecting hopper 23 through the drainage pipe 22, and finally falls into the waste water ditch, so that the waste water with the filtered slag can be prevented from falling onto the ground.

The clamping rod 25 is clamped in the clamping sleeve 27 to prevent the collecting frame 203 from sliding off the stop rod 202, and the clamping rod 25 is always clamped in the clamping sleeve 27 under the action of the spring 26. When the collecting frame 203 needs to be taken down from the stop lever 202, people can inwards stir the clamping rod 25 to enable the clamping rod 25 to move out of the clamping sleeve 27, the spring 26 is stretched at the moment, people can take the collecting frame 203 down from the stop lever 202, after the collecting frame is taken down, people loosen the clamping rod 25, and under the action of the spring 26, the clamping rod 25 outwards resets.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. An industrial wastewater residue-liquid separation device comprises support plates (1), motors (2), collecting hoppers (3), filter plates (4), water outlet pipes (5), water discharging hoppers (6) and connecting shafts (7), wherein the motors (2) are bolted in the middle of the inner sides of the two support plates (1), the collecting hoppers (3) are mounted on output shafts of the two motors (2), the filter plates (4) used for filtering wastewater are connected in the collecting hoppers (3) on the left side and the right side, the filter plates (4) are net-shaped, the water outlet pipes (5) are connected at the bottom of the left collecting hopper (3) and the top of the right collecting hopper (3), the water discharging hoppers (6) used for discharging wastewater are connected at the bottom end of the left water outlet pipe (5) and the top end of the right water outlet pipe (5), the connecting shafts (7) are connected on the inner sides of the collecting hoppers (3) on the left side and the right side, the waste water spraying device is characterized by further comprising a mounting plate (8), first rotating shafts (9), chain wheels (10), rockers (11), spraying pipes (12), an upper travel switch (13), a lower travel switch (14), water receiving pipes (15), hoses (16), chains (17), shaft sleeves (18), contact rods (19) and a collecting mechanism (20), wherein the two connecting shafts (7) are connected through the shaft sleeves (18), the mounting plate (8) is fixedly connected to the upper portions of the front sides of the two support plates (1), the first rotating shafts (9) are rotatably mounted on the left portion and the right portion of the mounting plate (8), the chain wheels (10) are fixedly sleeved in the middle portions of the two first rotating shafts (9), the chains (17) are wound between the two chain wheels (10), the rockers (11) are fixedly connected to the front ends of the left first rotating shafts (9), the spraying pipes (12) used for spraying waste water are connected to the lower portions of the rear sides of the chains (17), the bottom portions, the left side and the right side of the upper part of the rear side of the mounting plate (8) are respectively bolted with an upper travel switch (13), the left side and the right side of the lower part of the rear side of the mounting plate (8) are respectively bolted with a lower travel switch (14), the left lower travel switch (14) and the left upper travel switch (13) are both in circuit connection with the right motor (2), the right lower travel switch (14) and the right upper travel switch (13) are both in circuit connection with the left motor (2), a water receiving pipe (15) for receiving waste water is arranged above the mounting plate (8), the bottom end of the water receiving pipe (15) is connected with a hose (16) for making the waste water flow, the bottom end of the hose (16) is connected with the top of the spray pipe (12), the lower parts of the two support plates (1) are provided with a collecting mechanism (20) for collecting waste water slag, when the touch rod (19) rotates anticlockwise to touch the left lower travel switch (14), the, drive collection fill (3) on right side and rotate 180 degrees, when touching lower travel switch (14) on right side is touched in touching pole (19) anticlockwise rotation, left motor (2) rotate 180 degrees, drive left collection fill (3) and rotate 180 degrees, when touching pole (19) anticlockwise rotation touch last travel switch (13) on right side, left motor (2) rotate 180 degrees, drive left collection fill (3) and rotate 180 degrees, when touching pole (19) anticlockwise rotation touch left last travel switch and close (13), motor (2) on right side rotate 180 degrees, it rotates 180 degrees to drive collection fill (3) on right side.

2. The industrial wastewater residue-liquid separation device according to claim 1, wherein the collection mechanism (20) comprises cross bars (201), stop bars (202) and a collection frame (203), the cross bars (201) are connected to the front and back sides of the lower parts of the two support plates (1), a plurality of stop bars (202) are connected between the two cross bars (201), the collection frame (203) for collecting wastewater residues is placed on the stop bars (202), and the collection frame (203) is net-shaped.

3. The industrial wastewater residue-liquid separation device according to claim 2, further comprising an automatic mechanism (21), wherein the automatic mechanism (21) comprises a semicircular frame (211), a second rotating shaft (212), a blade (213), a small belt pulley (214), a large belt pulley (215) and a flat belt (216), the semicircular frame (211) is fixedly connected to the middle of the right side of the water receiving pipe (15), the second rotating shaft (212) is rotatably mounted in the semicircular frame (211), the blade (213) and the small belt pulley (214) are mounted on the second rotating shaft (212), the blade (213) is located in the semicircular frame (211), the small belt pulley (214) is located on the front side of the semicircular frame (211), the large belt pulley (215) is mounted on the front portion of the first rotating shaft (9) on the right side, and the flat belt (216) is wound between the large belt pulley (215) and the small belt pulley (214).

4. An industrial wastewater residue-liquid separation device according to claim 3, characterized in that it further comprises a drain pipe (22) and a water collecting hopper (23), the lower part of the inner side of the two support plates (1) is connected with the drain pipe (22) for discharging wastewater, and the water collecting hopper (23) is connected between the two drain pipes (22).

5. The industrial wastewater residue-liquid separation device according to claim 4, further comprising guide sleeves (24), clamping rods (25), springs (26) and clamping sleeves (27), wherein the guide sleeves (24) with guiding function are connected to the left and right sides of the top of the collection frame (203), the clamping rods (25) in L shapes are arranged in the two guide sleeves (24), the springs (26) are connected between the clamping rods (25) and the guide sleeves (24), the clamping sleeves (27) for clamping the clamping rods (25) are connected to the upper parts of the inner sides of the two drainage pipes (22), and the clamping rods (25) are located in the clamping sleeves (27).