CN110550756A

CN110550756A - a deposit water installation for marble cutting sewage

Info

Publication number: CN110550756A
Application number: CN201910932631.XA
Authority: CN
Inventors: 管锡磊; 孙树官; 孙铭; 朴钟鹤; 朴初海; 朴城出; 孙丽萍
Original assignee: Dongchen Environmental Protection Equipment Manufacturing Co Ltd
Current assignee: Dongchen Environmental Protection Equipment Manufacturing Co Ltd
Priority date: 2019-09-29
Filing date: 2019-09-29
Publication date: 2019-12-10
Anticipated expiration: 2039-09-29
Also published as: CN110550756B

Abstract

The invention discloses a settling water outlet device for marble cutting sewage, which can solve the problems that a filter screen for filtering is easily blocked, the settling speed is low, the efficiency is low, and a small amount of non-completely-settled fragments or residues are carried in discharged water after settling. Including the support, fix the feeding frame on the support and be located the recovery frame of feeding frame bottom, feeding frame one end is provided with the feeding section, just the feeding frame other end is provided with the side seat, install the tip hydraulic pump on the side seat, the tip hydraulic pump connects the flexible push pedal of a hydraulic pressure that is located the inside of runner through its hydraulic telescoping rod, the feeding frame bottom is provided with the row's mouth, the row's mouth is just facing and is retrieved the frame, just the inside runner that is the slope structure that is provided with of feeding frame.

Description

a deposit water installation for marble cutting sewage

Technical Field

the invention relates to the field of sewage precipitation, in particular to a precipitation water outlet device for marble cutting sewage.

Background

Need continuous bath during marble cutting to come the rubble, the piece washes away, consequently, can produce a large amount of sewage, for the water economy resource, need deposit marble cutting sewage and handle, consequently, need use the sediment water installation, but, certain defect still exists when using in current this kind of device, traditional this kind of sediment water installation only adopts the sediment of settling and filterable mode to carry out sewage that stews, this kind of mode not only leads to the filter screen of filtering usefulness extremely easily to be blockked up, and the slow inefficiency of sedimentation speed, it also can carry a small amount of not depositing complete piece or residue to stew in the discharged water after the sediment simultaneously.

the publication number is: CN 206381694U's patent discloses a stone material cutting sewage grit deposits water installation, compares with this application article, can't solve this application and propose: traditional this kind of deposit water installation only adopts the mode of settling and filtering of stewing to carry out the sediment of sewage, and this kind of mode not only leads to the filter screen of filtering usefulness very easily to be blockked up, and the slow inefficiency of settling velocity moreover, also can carry a small amount of not settling complete piece or the problem of residue in the discharged water after the sediment of stewing simultaneously.

Disclosure of Invention

the invention aims to provide a settling water outlet device for marble cutting sewage, which can solve the problems that a filter screen for filtering is easily blocked, the settling speed is low and the efficiency is low, and a small amount of incompletely settled chips or residues are carried in discharged water after standing and settling by adopting a standing settling and filtering mode to settle the sewage in the traditional settling water outlet device.

The purpose of the invention can be realized by the following technical scheme:

a sediment water outlet device for marble cutting sewage comprises a support, a feeding frame fixed on the support and a recovery frame positioned at the bottom of the feeding frame, wherein a feeding section is arranged at one end of the feeding frame, a side seat is arranged at the other end of the feeding frame, an end hydraulic pump is installed on the side seat, the end hydraulic pump is connected with a hydraulic telescopic push plate positioned in a circulation groove through a hydraulic telescopic rod of the end hydraulic pump, a row port is arranged at the bottom of the feeding frame and faces the recovery frame, the circulation groove with an inclined structure is arranged in the feeding frame, a plurality of filter frames which are uniformly distributed and fixed on the feeding frame are spanned on the circulation groove, the inner wall of one side of the feeding frame is provided with through grooves corresponding to the filter frames in number, one end of each filter frame penetrates through the through groove and extends to the outside of the feeding frame, one end of each filter frame extending to the outside of the feeding frame is provided with a side air pump fixed on the outer, the side wall of the side air pump is connected with a pneumatic telescopic rod, one end of the pneumatic telescopic rod is connected with a shifting sheet, the filter frame is provided with a screen with the same shape as the conveyor belt, a side motor is fixedly arranged on the side wall of the filter frame, and a transmission shaft of the side motor is connected to one end of the screen;

the water inlet connected with the discharge port is arranged at the top of the recovery frame, the bottom of the water inlet is connected with a settling tank positioned in the recovery frame, a power supply fixed on the recovery frame is installed at one side of the settling tank, a plurality of rolling drums are installed in the settling tank, one end of each rolling drum is connected with a driving motor, two adjacent rolling drums are distributed on the inner walls of the two sides of the settling tank in a broken line mode, the distance between the two adjacent rolling drums is one centimeter, a guide disc which is obliquely arranged is installed at the bottom of each rolling drum, a water filtering disc is installed at the bottom of each guide disc, a layer of small filter screen is installed between each water filtering disc and each guide disc, a discharge pipe is connected to the bottom of each water filtering disc, a butt joint drain pipe is connected to each guide disc, the screen tray is located settling tank one side, a side hydraulic pump fixed on the recovery frame is all installed to screen tray both sides, a hydraulic stretching traction lever that is connected with the screen tray is connected to the side hydraulic pump.

preferably, the shifting piece is movably connected with the filtering frame through a pneumatic telescopic rod, and the shifting piece is attached to the screen.

preferably, when the filter frame is installed, one side of the side motor is arranged upwards, the screen is vertically arranged on the circulation groove, and the screen is rotatably connected with the filter frame through a transmission shaft of the side motor.

Preferably, the hydraulic telescopic push plate is movably connected with the circulation groove through the end hydraulic pump, and the movable range of the hydraulic telescopic push plate is from the filter rack closest to the end hydraulic pump to the row port.

preferably, all the guide discs form an S-shaped structure.

Preferably, the sieve tray is movably connected with the bottom of the recovery frame through a hydraulic telescopic traction rod, and a filter screen is arranged inside the sieve tray.

Preferably, the sizes of the screen holes of the screen discs on the filter frame from the feeding section to the side seat are reduced in sequence.

Preferably, the working method of the precipitation water outlet device comprises the following specific steps:

The method comprises the following steps: the method comprises the steps that sewage generated when marble is cut is guided onto a feeding frame from a feeding section, all side motors and side air pumps are started while the sewage circulates on a flowing groove, the side motors are used for driving a screen to rotate on a filtering frame in the same operation mode as a conveying belt, so that the screen keeps rotating while the sewage is filtered by the screen, the side air pumps are used for driving pneumatic telescopic rods to stretch and retract, a poking piece keeps continuously pushing and pulling back under the driving of the pneumatic telescopic rods to clean the screen, and when the sewage circulates on the flowing groove, an end hydraulic pump drives a hydraulic telescopic push plate to continuously push the sewage on the flowing groove, so that the sewage continuously impacts the screen from the back of the screen;

Step two: sewage after primary treatment by the feeding frame flows to the recovery frame along the discharge port, and flows into the interior of the settling tank along the discharge port, the sewage does not stand and settle after entering the interior of the settling tank, but is rolled by the rolling rollers through gaps among the rolling rollers, crushed particulate matter powder is screened by a small filter screen and is left on a water filtering disc, and water without particulate matters flows into the water filtering disc along the guide disc, then flows to a butt joint drain pipe along the discharge pipe, and finally flows into the water filtering disc;

step three: when the inside sewage of sieve dish does not have the residue, can the drainage after standing for half an hour with the sieve dish, when the inside sewage of sieve dish has the residue, carry out the screening of residue to water through side hydraulic pump drive hydraulic stretching traction pole, the water of standing for half an hour after the screening can be discharged the inside water of sieve dish.

The invention has the beneficial effects that: the filter frames are transversely spanned on the circulation slots in the feeding frame, are uniformly distributed and are fixed on the feeding frame, one end of each filter frame penetrates through the through slot and extends to the outside of the feeding frame, one end of each filter frame, which extends to the outside of the feeding frame, is provided with a side air pump fixed on the outer wall of the feeding frame, the side wall of the side air pump is connected with a pneumatic telescopic rod, one end of the pneumatic telescopic rod is connected with a shifting sheet, and the shifting sheet is attached to the screen cloth, so that when sewage generated during cutting marble is guided into the feeding frame from a feeding section, all side motors are started while the sewage circulates on the circulation slots, the screen cloth is driven by the side motors to rotate on the filter frames in the same operation mode as the conveying belt, the screen cloth keeps rotating while being filtered by the screen cloth, not only is better in preliminary screening effect on the sewage, but also the shifting sheet can be driven by the expansion of the pneumatic telescopic rods driven by the side edges of, so that the sieve holes on the sieve can not be blocked due to long-time use;

In the cleaning process, the screen is always kept rotating, and the poking piece is driven by the pneumatic telescopic rod to continuously push and pull back for cleaning, so that the whole cleaning process does not need manual adjustment of the direction and the position of the filter frame, the screen can be comprehensively cleaned, the screen holes on the screen are prevented from being blocked, and meanwhile marble slag in sewage can be directly discharged;

the end hydraulic pump connected with the hydraulic telescopic push plate is installed at one end of the feeding frame, so that when sewage circulates on the flow groove, the end hydraulic pump drives the hydraulic telescopic push plate to continuously push the flow groove back and forth, and the movable range of the hydraulic telescopic push plate is between the filtering frame closest to the end hydraulic pump and the discharge port, so that the sewage can be pushed, the screen mesh can be continuously impacted from the back of the screen mesh, on one hand, the screen mesh on the screen mesh can be cleaned in an auxiliary mode, the blockage is avoided, and on the other hand, the sewage can be pushed back again to be filtered again to improve the filtering effect;

Because a plurality of rolling cylinders are arranged in the settling tank, two adjacent rolling cylinders are distributed on the inner walls of two sides of the settling tank in a broken line manner, a guide disc which is obliquely arranged is arranged at the bottom of each rolling cylinder, and an S-shaped structure is formed between all the guide discs, sewage does not stand and precipitate after entering the settling tank, but is rolled by the rolling cylinders through gaps among the rolling cylinders, particles which are not screened out are crushed and are treated in a flowing manner, and the treatment effect is effectively ensured;

Because install the small-size filter screen of one deck between drainage dish and the positioning disk, the particulate matter powder after pulverizing can be sieved by small-size filter screen, the water of no particulate matter flows into the drainage dish along the positioning disk, again along calandria flow direction butt joint drain pipe, finally flow into the sieve dish, because sieve dish both sides outer wall all is connected with a hydraulic stretching traction lever, thereby make the sieve dish can make a round trip to move about in recovery frame bottom, make the sieve dish not only can be used for the water that the sedimentation treatment was accomplished that stews, and can still carry out the screening that the residue was carried out to water through side hydraulic pump drive hydraulic stretching traction lever when the residue in sewage, finally, can with the inside water discharge of sieve dish.

drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a top view of the present invention;

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

FIG. 4 is a schematic view of the structure of the feeding frame of the present invention;

FIG. 5 is a schematic view of the recycling bin according to the present invention;

FIG. 6 is a front view of the retrieval stand of the present invention;

FIG. 7 is a schematic view of the structure of the guide plate of the present invention;

FIG. 8 is a schematic view of a filter frame according to the present invention;

In the figure: 1. a support; 2. a feeding frame; 3. a recycling rack; 4. a power source; 5. discharging; 6. a side seat; 7. an end hydraulic pump; 8. a hydraulic telescopic push plate; 9. a circulation tank; 10. a filter frame; 11. a feeding section; 12. a side air pump; 13. a pneumatic telescopic rod; 14. a shifting sheet; 15. penetrating a groove; 16. a water inlet; 17. a sieve tray; 18. a side hydraulic pump; 19. a hydraulic telescopic draw bar; 20. a drive motor; 21. rolling a roller; 22. a guide plate; 23. a water filtering disc; 24. butting a drain pipe; 25. a small-sized filter screen; 26. arranging pipes; 27. screening a screen; 28. a side motor; 29. a settling tank.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

referring to fig. 1-8, a settling water outlet device for marble cutting sewage comprises a bracket 1, a feeding frame 2 fixed on the bracket 1, and a recycling frame 3 located at the bottom of the feeding frame 2, wherein one end of the feeding frame 2 is provided with a feeding section 11, the other end of the feeding frame 2 is provided with a side seat 6, the side seat 6 is provided with an end hydraulic pump 7, the end hydraulic pump 7 is connected with a hydraulic telescopic push plate 8 located inside a circulation groove 9 through a hydraulic telescopic rod of the end hydraulic pump, the bottom of the feeding frame 2 is provided with a row opening 5, the row opening 5 faces the recycling frame 3, the inside of the feeding frame 2 is provided with the circulation groove 9 in an inclined structure, the circulation groove 9 is spanned with a plurality of filter frames 10 which are uniformly distributed and fixed on the feeding frame 2, the inner wall of one side of the feeding frame 2 is provided with through grooves 15 corresponding to the filter frames 10, one end of each filter frame 10 penetrates through the through groove, one end of each filter frame 10 extending out of the feeding frame 2 is provided with a side air pump 12 fixed on the outer wall of the feeding frame 2, the side wall of the side air pump 12 is connected with a pneumatic telescopic rod 13, one end of the pneumatic telescopic rod 13 is connected with a shifting sheet 14, the filter frame 10 is provided with a screen 27 with the same shape as the conveyor belt, the side wall of the filter frame 10 is fixedly provided with a side motor 28, and a transmission shaft of the side motor 28 is connected to one end of the screen 27;

The top of the recovery frame 3 is provided with a water inlet 16 connected with the discharge port 5, the bottom of the water inlet 16 is connected with a settling tank 29 positioned inside the recovery frame 3, one side of the settling tank 29 is provided with a power supply 4 fixed on the recovery frame 3, a plurality of rolling cylinders 21 are arranged inside the settling tank 29, one end of each rolling cylinder 21 is connected with a driving motor 20, two adjacent rolling cylinders 21 are distributed on the inner walls of two sides of the settling tank 29 in a broken line manner, the distance between every two adjacent rolling cylinders 21 is one centimeter, the bottom of each rolling cylinder 21 is provided with an obliquely arranged guide disc 22, the bottom of each guide disc 22 is provided with a water filtering disc 23, a layer of small-sized filter screen 25 is arranged between the water filtering disc 23 and the guide disc 22, the bottom end of the water filtering disc 23 is connected with a discharge pipe 26, the bottom end of the guide disc 22, the butt joint drain pipe 24 is connected with the sieve tray 17, the sieve tray 17 is positioned on one side of the settling tank 29, the two sides of the sieve tray 17 are both provided with a side hydraulic pump 18 fixed on the recovery frame 3, and the side hydraulic pump 18 is connected with a hydraulic telescopic traction rod 19 connected with the sieve tray 17.

The shifting piece 14 is movably connected with the filter frame 10 through the pneumatic telescopic rod 13, and the shifting piece 14 is attached to the screen mesh 27. The filter frame 10 is installed when the side motor 28 is installed, one side is upward, the screen cloth 27 is vertically placed on the flow through groove 9, the screen cloth 27 is rotatably connected with the filter frame 10 through a transmission shaft of the side motor 28, in the cleaning process, the screen cloth 27 always keeps rotating, the poking piece 14 keeps continuously pushing and pulling back under the driving of the pneumatic telescopic rod 13 for cleaning, therefore, the whole cleaning process is free from manual operation for adjusting the direction and the position of the filter frame 10, the comprehensive cleaning of the screen cloth 27 can be realized, the blocking of a screen hole on the screen cloth 27 is avoided, and meanwhile, the marble debris in sewage can be directly discharged.

The flexible push pedal 8 of hydraulic pressure passes through swing joint between tip hydraulic pump 7 and the circulation groove 9, and the home range of the flexible push pedal 8 of hydraulic pressure is between the filtration frame 10 to the row's mouth 5 that is closest to tip hydraulic pump 7, when making sewage circulate on circulation groove 9, tip hydraulic pump 7 drives the continuous promotion of making a round trip on circulation groove 9 of the flexible push pedal 8 of hydraulic pressure, and the home range of the flexible push pedal 8 of hydraulic pressure is between the filtration frame 10 to the row's mouth 5 that is closest to tip hydraulic pump 7, thereby can promote sewage, make continuous from the screen cloth 27 back impact screen cloth 27, can play the sieve mesh on the supplementary clean screen cloth 27 on the one hand, avoid blockking up, on the other hand can realize pushing sewage back again and filter once more and promote the.

All the guide discs 22 form an S-shaped structure to guide the sewage.

sieve tray 17 is through swing joint between hydraulic stretching traction lever 19 and the recovery frame 3 bottom, and sieve tray 17 internally mounted has the filter screen, thereby make sieve tray 17 can make a round trip to move about in recovery frame 3 bottom, make sieve tray 17 not only can be used for the water that sedimentation treatment was accomplished that stews, and can still carry out the screening of residue to water through side hydraulic pump 18 drive hydraulic stretching traction lever 19 when remaining in sewage, finally, with sieve tray 17 inside water discharge can.

The sizes of the screen holes of the screen discs 17 on the filter frame 10 from the feeding section 11 to the side seat 6 are reduced in sequence, and the sewage is filtered layer by layer.

The working method of the precipitation water outlet device comprises the following specific steps:

The method comprises the following steps: sewage generated during marble cutting is guided into the feeding frame 2 from the feeding section 11, all the side motors 28 and the side air pumps 12 are started while the sewage circulates on the flowing groove 9, the side motors 28 are used for driving the screen cloth 27 to rotate on the filtering frame 10 in the same operation mode as a conveyor belt, so that the screen cloth 27 keeps rotating while the sewage is filtered by the screen cloth 27, the side air pumps 12 are used for driving the pneumatic telescopic rods 13 to stretch, the poking pieces 14 are driven by the pneumatic telescopic rods 13 to continuously push and pull back to clean the screen cloth 27, when the sewage circulates on the flowing groove 9, the hydraulic telescopic push plate 8 driven by the end hydraulic pump 7 continuously pushes the sewage on the flowing groove 9, and the sewage continuously impacts the screen cloth 27 from the back of the screen cloth 27;

step two: sewage subjected to primary treatment by the feeding frame 2 flows to the recovery frame 3 along the discharge port 5, and flows into the sedimentation box 29 along the discharge port 5, the sewage does not stand and precipitate after entering the sedimentation box 29, but is rolled by the rolling rollers 21 through gaps among the rolling rollers 21, the crushed particulate matter powder is screened by the small-sized filter screen 25 and is retained on the water filtering disc 23, and water without particulate matters flows into the water filtering disc 23 along the guide disc 22, then flows to the butt joint drain pipe 24 along the discharge pipe 26, and finally flows into the sieve disc 17;

Step three: when the sewage in the sieve tray 17 has no residue, the sieve tray 17 can be drained after standing for half an hour, when the sewage in the sieve tray 17 has the residue, the side hydraulic pump 18 drives the hydraulic telescopic draw bar 19 to screen the residue of the water, and the water in the sieve tray 17 can be drained after standing for half an hour after screening.

The invention has the beneficial effects that: by crossing a plurality of filter frames 10 which are uniformly distributed and fixed on a feeding frame 2 on a circulating groove 9 in the feeding frame 2, one end of each filter frame 10 penetrates through a through groove 15 and extends to the outside of the feeding frame 2, one end of each filter frame 10 extending to the outside of the feeding frame 2 is provided with a side air pump 12 fixed on the outer wall of the feeding frame 2, the side wall of each side air pump 12 is connected with a pneumatic telescopic rod 13, one end of each pneumatic telescopic rod 13 is connected with a poking sheet 14, and the poking sheets 14 are attached to a screen 27, when sewage generated in marble cutting is guided into the feeding frame 2 from a feeding section 11, the sewage circulates on the circulating groove 9, all side motors 28 are started, the screen 27 is driven by the side motors 28 to rotate on the filter frames 10 in the same operation mode as a conveyor belt, so that the screen 27 keeps rotating while the sewage is filtered by the screen 27, not only the primary screening effect on the sewage is better, but also the side air pump 12 can be used for driving the pneumatic telescopic rod 13 to stretch and retract so as to drive the shifting piece 14 to clean the screen mesh 27, so that the screen holes on the screen mesh 27 cannot be blocked due to long-term use;

In the cleaning process, the screen mesh 27 keeps rotating all the time, and the poking piece 14 keeps continuously pushing and pulling back for cleaning under the driving of the pneumatic telescopic rod 13, so that the whole cleaning process does not need manual adjustment of the direction and the position of the filter frame 10, the comprehensive cleaning of the screen mesh 27 can be realized, the blocking of the screen holes on the screen mesh 27 is avoided, and meanwhile, the marble slag in the sewage can be directly discharged;

The end hydraulic pump 7 of the hydraulic telescopic push plate 8 is installed and connected to one end of the feeding frame 2, so that when sewage flows on the flow groove 9, the end hydraulic pump 7 drives the hydraulic telescopic push plate 8 to continuously push on the flow groove 9, and the movable range of the hydraulic telescopic push plate 8 is between the filter frame 10 closest to the end hydraulic pump 7 and the discharge port 5, so that the sewage can be pushed, the screen mesh 27 can be continuously impacted from the back of the screen mesh 27, on one hand, the screen mesh on the screen mesh 27 can be cleaned in an auxiliary mode, blockage is avoided, and on the other hand, the sewage can be pushed back again to be filtered again to improve the filtering effect;

Because a plurality of rolling cylinders 21 are arranged in the settling tank 29, two adjacent rolling cylinders 21 are distributed on the inner walls of two sides of the settling tank 29 in a broken line manner, the bottom of each rolling cylinder 21 is provided with one guide disc 22 which is obliquely arranged, and an S-shaped structure is formed between all the guide discs 22, sewage is not settled and precipitated after entering the settling tank 29, but is rolled by the rolling cylinders 21 through gaps among the rolling cylinders 21, particles which are not screened out are crushed and treated in a flowing manner, and the treatment effect is effectively ensured;

Because install one deck small-size filter screen 25 between drainage dish 23 and the deflector plate 22, the particulate matter powder after crushing can be sieved by small-size filter screen 25, the water that does not have the particulate matter flows into drainage dish 23 along deflector plate 22, and then flows to butt joint drain pipe 24 along calandria 26, finally flow into sieve tray 17, because sieve tray 17 both sides outer wall all is connected with a hydraulic pressure telescopic drawbar 19, thereby make sieve tray 17 can make a round trip to move about in recovery frame 3 bottom, make sieve tray 17 not only can be used for the water that the sedimentation treatment was accomplished that stews, and can still carry out the screening of residue to water through side hydraulic pump 18 drive hydraulic pressure telescopic drawbar 19 when remaining in the sewage, finally, the water of sieve tray 17 inside is discharged.

When the device is used, firstly, the whole device is assembled, a feeding frame 2 is fixed at the top of a bracket 1, a recovery frame 3 is fixed below the feeding frame 2, a row opening 5 of the feeding frame 2 is connected with a water inlet 16 of the recovery frame 3, a plurality of filter frames 10 which are uniformly distributed and fixed on the feeding frame 2 are transversely crossed on a circulating groove 9 in the feeding frame 2, one end of each filter frame 10 penetrates through a through groove 15 and extends to the outside of the feeding frame 2, one end of each filter frame 10 extending to the outside of the feeding frame 2 is provided with a side air pump 12 fixed on the outer wall of the feeding frame 2, the side wall of each side air pump 12 is connected with a pneumatic telescopic rod 13, one end of each pneumatic telescopic rod 13 is connected with a shifting piece 14, the shifting piece 14 is attached to a screen mesh 27, then, the bottom of a settling tank 29 is connected with a screen tray 17 through a butt-joint drain pipe 24, and the outer walls of two sides of, and putting into use after finishing. The sewage generated when cutting marble is guided into the feeding frame 2 from the feeding section 11, the sewage starts all the side motors 28 while flowing on the flowing groove 9, the side motors 28 are used for driving the screen cloth 27 to rotate on the filtering frame 10 in the same operation mode as a conveyor belt, so that the screen cloth 27 keeps rotating while the sewage is filtered by the screen cloth 27, the preliminary screening effect on the sewage is better, the side air pump 12 can be used for driving the stretching of the pneumatic telescopic rod 13 to drive the poking piece 14 to clean the screen cloth 27, the sieve pores on the screen cloth 27 cannot be blocked due to long-time use, meanwhile, in the cleaning process, the screen cloth 27 keeps rotating all the time, the poking piece 14 keeps continuously pushing and pulling back for cleaning under the driving of the pneumatic telescopic rod 13, and the whole cleaning process does not need manual direction and position adjustment of the filtering frame 10, can also realize the comprehensive cleaning of the screen cloth 27, avoid the blockage of the screen holes on the screen cloth 27, and simultaneously can realize the direct discharge of marble debris in the sewage, when the sewage circulates on the circulation groove 9, the end hydraulic pump 7 drives the hydraulic telescopic push plate 8 to continuously push on the circulation groove 9, and the movable range of the hydraulic telescopic push plate 8 is between the filtering frame 10 closest to the end hydraulic pump 7 and the discharge port 5, thereby being capable of pushing the sewage, continuously impacting the screen cloth 27 from the back of the screen cloth 27, on one hand, the screen holes on the screen cloth 27 can be cleaned in an auxiliary way, the blockage can be avoided, on the other hand, the sewage can be pushed back again to filter again to improve the filtering effect, the sewage after the primary treatment of the feeding frame 2 flows to the recovery frame 3 along the discharge port 5, and flows into the interior of the settling tank 29 along the discharge port 5, because the interior of the settling tank 29 is provided with, two adjacent rolling drums 21 are distributed on the inner walls of two sides of the settling tank 29 in a broken line manner, a guide disc 22 which is obliquely arranged is arranged at the bottom of each rolling drum 21, an S-shaped structure is formed between all the guide discs 22, so that sewage does not stay and settle after entering the settling tank 29, but is rolled by the rolling drums 21 through gaps between the rolling drums 21, particles which are not screened out are ground and are treated in a flowing manner, the treatment effect is effectively ensured, in addition, as a layer of small-sized filter screen 25 is arranged between the water filtering disc 23 and the guide disc 22, the ground particle powder can be screened out by the small-sized filter screen 25, water without particles flows into the water filtering disc 23 along the guide disc 22, then flows into the butt joint drain pipe 24 along the drain pipe 26 and finally flows into the sieve disc 17, as the outer walls of two sides of the sieve disc 17 are both connected with a hydraulic telescopic draw, thereby make sieve tray 17 can make a round trip the activity in recovery frame 3 bottom for sieve tray 17 not only can be used for the water that sedimentation treatment was accomplished of stewing, when the inside sewage of sieve tray 17 does not have the residue, can the drainage after the half hour of stewing sieve tray 17, when the inside sewage of sieve tray 17 has the residue, carry out the screening of residue through side hydraulic pump 18 drive hydraulic pressure telescopic drawbar 19 to water, the water of the inside water discharge of sieve tray 17 can be with the half hour of stewing after the screening.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A sediment water outlet device for marble cutting sewage comprises a support (1), a feeding frame (2) fixed on the support (1) and a recovery frame (3) positioned at the bottom of the feeding frame (2), and is characterized in that one end of the feeding frame (2) is provided with a feeding section (11), the other end of the feeding frame (2) is provided with a side seat (6), an end hydraulic pump (7) is installed on the side seat (6), the end hydraulic pump (7) is connected with a hydraulic telescopic push plate (8) positioned in a circulation groove (9) through a hydraulic telescopic rod of the hydraulic telescopic push plate, the bottom of the feeding frame (2) is provided with a row opening (5), the row opening (5) is right opposite to the recovery frame (3), the inside of the feeding frame (2) is provided with a circulation groove (9) in an inclined structure, the circulation groove (9) is transversely crossed with a plurality of filter frames (10) which are uniformly distributed and fixed on the feeding frame (2), the feeding device is characterized in that through grooves (15) corresponding to the filtering frames (10) in number are formed in the inner wall of one side of the feeding frame (2), one end of each filtering frame (10) penetrates through the through grooves (15) and extends to the outside of the feeding frame (2), one end, extending to the outside of the feeding frame (2), of each filtering frame (10) is provided with a side air pump (12) fixed on the outer wall of the feeding frame (2), the side wall of each side air pump (12) is connected with a pneumatic telescopic rod (13), one end of each pneumatic telescopic rod (13) is connected with a shifting piece (14), the filtering frame (10) is provided with a screen (27) identical to the shape of a conveying belt, a side motor (28) is fixedly installed on the side wall of the filtering frame (10), and a transmission shaft of the side motor (28) is connected to one end of the screen (27;

The recycling rack (3) is provided with a water inlet (16) connected with a discharge port (5) at the top, the bottom of the water inlet (16) is connected with a settling tank (29) positioned inside the recycling rack (3), a power supply (4) fixed on the recycling rack (3) is installed on one side of the settling tank (29), a plurality of rolling cylinders (21) are installed inside the settling tank (29), one end of each rolling cylinder (21) is connected with a driving motor (20), two adjacent rolling cylinders (21) are distributed on the inner walls of two sides of the settling tank (29) in a broken line manner, the distance between two adjacent rolling cylinders (21) is one centimeter, a guide disc (22) obliquely arranged at the bottom of each rolling cylinder (21), a water filtering disc (23) is installed at the bottom of each guide disc (22), and a small-sized filter screen (25) is installed between each water filtering disc (23) and each guide disc (22), just drainage dish (23) bottom is connected with a calandria (26), and guiding disc (22) bottom that is located the bottommost is connected with a butt joint drain pipe (24), butt joint drain pipe (24) are connected with sieve dish (17), sieve dish (17) are located setting tank (29) one side, sieve dish (17) both sides are all installed one and are fixed side hydraulic pump (18) on retrieving frame (3), a hydraulic telescoping drawbar (19) that is connected with sieve dish (17) is connected in side hydraulic pump (18).

2. the settling water device for marble-cutting sewage as claimed in claim 1, wherein the plectrum (14) is movably connected with the filtering rack (10) through a pneumatic telescopic rod (13), and the plectrum (14) is attached to the screen (27).

3. a sedimentation outlet device for marble-cutting effluent according to claim 1, characterized in that the side of the filter stand (10) on which the side motor (28) is mounted is facing upwards when mounted, the screen (27) is placed vertically on the flow channel (9), and the screen (27) is rotatably connected to the filter stand (10) by the drive shaft of the side motor (28).

4. A sediment outflow apparatus for marble-cutting sewage according to claim 1, wherein the hydraulic telescopic push plate (8) is movably connected with the circulation tank (9) through the end hydraulic pump (7), and the movable range of the hydraulic telescopic push plate (8) is from the filter frame (10) closest to the end hydraulic pump (7) to the discharge port (5).

5. A sediment outflow device for marble-cutting sewage according to claim 1, wherein all the guide discs (22) form an S-shaped structure therebetween.

6. a sediment outflow device for marble-cutting sewage according to claim 1, wherein the sieve tray (17) is movably connected with the bottom of the recovery frame (3) through a hydraulic telescopic draw bar (19), and a filter screen is installed inside the sieve tray (17).

7. A sediment outflow for marble-cutting sewage according to claim 1, wherein the size of the mesh diameter of the screen discs (17) on the filter frame (10) decreases in the direction from the feed section (11) to the side seat (6).

8. the device for precipitating the effluent of marble cutting sewage as claimed in claim 1, wherein the working method of the device for precipitating the effluent comprises the following specific steps:

the method comprises the following steps: sewage generated during marble cutting is guided into the feeding frame (2) from the feeding section (11), all the side motors (28) and the side air pumps (12) are started while the sewage circulates on the circulating groove (9), the side motors (28) are utilized to drive the screen (27) to rotate on the filter frame (10) in the same operation mode as the conveyor belt, when sewage is filtered by the screen (27), the screen (27) keeps rotating, the pneumatic telescopic rod (13) is driven to stretch by the side air pump (12), the shifting sheet (14) keeps continuously pushing and pulling back under the driving of the pneumatic telescopic rod (13) to clean the screen (27), when the sewage flows on the flow groove (9), the end hydraulic pump (7) drives the hydraulic telescopic push plate (8) to continuously push the sewage on the flow groove (9), so that the sewage continuously impacts the screen (27) from the back of the screen (27);

step two: sewage after primary treatment by the feeding frame (2) flows to the recovery frame (3) along the discharge port (5), and flows into the interior of the settling tank (29) along the discharge port (5), the sewage does not stand and settle after entering the interior of the settling tank (29), but is rolled by the rolling roller (21) through a gap between the rolling rollers (21), crushed particulate matter powder is screened by the small-sized filter screen (25) and is left on the water filtering disc (23), water without particulate matter flows into the water filtering disc (23) along the guide disc (22), then flows to the butt joint drain pipe (24) along the discharge pipe (26), and finally flows into the sieve disc (17);

Step three: when the sewage in the sieve tray (17) has no residues, the sieve tray (17) can be used for draining after standing for half an hour, when the sewage in the sieve tray (17) has residues, the side hydraulic pump (18) drives the hydraulic telescopic draw bar (19) to screen the residues of the water, and the water in the sieve tray (17) can be discharged after standing for half an hour after screening.