CN215250023U

CN215250023U - Stone material waste water's cyclic utilization system

Info

Publication number: CN215250023U
Application number: CN202120748808.3U
Authority: CN
Inventors: 翁兴日
Original assignee: Macheng Fuxing Stone Products Co ltd
Current assignee: Macheng Fuxing Stone Products Co ltd
Priority date: 2021-04-13
Filing date: 2021-04-13
Publication date: 2021-12-21
Anticipated expiration: 2031-04-13

Abstract

The utility model discloses a cyclic utilization system of stone material waste water belongs to stone material processing equipment technical field. Including cutting waste water collection ditch greatly, not cutting waste water collection ditch greatly, PAC adds device, PAM adds device, sedimentation tank, cutting waste water filter equipment greatly, not cutting waste water filter equipment greatly, mud suction device, cutting waste water fine sand separator greatly and cutting waste water fine sand separator greatly, the sedimentation tank includes the return water ditch at cell body and cell body middle part, and mud suction device includes N walking suction unit on rack and the rack. The applicant finds that after sedimentation treatment, the large-scale cutting wastewater can be used with clear water after other stone wastewater is treated, and most of lubricants in the large-scale cutting wastewater are settled along with sludge; can realize the processing of two kinds of waste water in a sedimentation tank in this patent, the extraction of two kinds of mud can be realized to a mud suction structure, and two filtration can realize the filtration of a large amount of sedimentation tanks, simple structure, and the design is compact, has reduceed the production input.

Description

Stone material waste water's cyclic utilization system

Technical Field

The utility model belongs to the technical field of the stone material processing equipment, in particular to cyclic utilization system of stone material waste water.

Background

With the increasing awareness of environmental protection and the requirements of environmental laws and regulations, the environmental protection is becoming a consensus, and the wastewater generated by stone processing must be treated before being discharged. In the prior art, the large-size cutting wastewater and other stone wastewater (such as surface treatment wastewater, profiling wastewater and the like) except the large-size cutting wastewater are generally required to be respectively treated (the large-size cutting wastewater contains more lubricants), two settling systems are required to respectively treat the two types of wastewater, the equipment is complex, and a large amount of manpower and material resources are required to be input.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the embodiment of the utility model provides a recycling system for stone wastewater, and the applicant finds that after sedimentation treatment, the large-size cutting wastewater can be used with clear water after other stone wastewater treatment, and most of the lubricant in the large-size cutting wastewater is settled along with sludge; the treatment of two kinds of waste water can be realized to a sedimentation tank in this patent, and the extraction of two kinds of mud can be realized to a mud suction structure, and two filtration can realize the filtration of a large amount of sedimentation tanks. The technical scheme is as follows:

the embodiment of the utility model provides a cyclic utilization system of stone material waste water, including greatly cut waste water collection ditch 16, not greatly cut waste water collection ditch 17, PAC add device 18, PAM add device 19, sedimentation tank, greatly cut waste water filter 71, not greatly cut waste water filter 72, mud suction device, the fine husky separator 31 of greatly cut waste water and the fine husky separator 32 of non-greatly cut waste water, all be equipped with the grid in greatly cut waste water collection ditch 16 and the not greatly cut waste water collection ditch 17 and all be connected with PAC through the pipeline and add device 18; the sedimentation tank comprises a tank body arranged in the front-back direction and a water return ditch 1 in the middle of the tank body, the water return ditch 1 is arranged in the front-back direction and divides the tank body into two treatment tanks which are arranged side by side left and right, and the two treatment tanks are a large-size cutting wastewater treatment tank 21 and a non-large-size cutting wastewater treatment tank 22 respectively; n partition walls 3 are arranged in parallel in the front and the back of the treatment tank to divide the treatment tank into N +1 sub-tank bodies; in each treatment tank, N +1 sub-tank bodies are sequentially communicated from front to back, the first sub-tank body is a wastewater collection tank 4, the rest N sub-tank bodies are sedimentation tanks 5, the last sedimentation tank 5 is communicated with the rear end of the backwater ditch 1, a gate valve 6 is arranged at the communication position of the sedimentation tank 5 and the backwater ditch, and the first sedimentation tank 5 is connected with a PAM adding device 19 through a pipeline; the partition walls 3 of the two treatment pools are in the same position, two sedimentation pools 5 corresponding to two sides of the backwater ditch 1 form a sedimentation pool pair, and N is an integer more than or equal to 3; the large-size cutting wastewater collecting channel 16 is communicated with the wastewater collecting tank 4 of the large-size cutting wastewater treatment tank 21, and the non-large-size cutting wastewater collecting channel 17 is communicated with the wastewater collecting tank 4 of the non-large-size cutting wastewater treatment tank 22; the sludge suction device comprises a shed frame 8 and N walking suction units on the shed frame 8, wherein one walking suction unit is correspondingly arranged right above each settling pond pair, the walking suction units can move forward and backward and are provided with two electric hoists 9 capable of moving left and right, and the two electric hoists 9 are respectively positioned right above the two settling ponds 5 of the same settling pond pair; the feed inlet of the large-cutting wastewater filtering device 71 is provided with N large-cutting wastewater feed pipes which can be gated, and the end parts of the N large-cutting wastewater feed pipes are respectively connected with the lower ends of the ropes of N electric hoists 9 above the large-cutting wastewater treatment tank 21 and can be placed into corresponding sedimentation tanks 5; the feed inlet of the non-heavy-cutting wastewater filtering device 72 is provided with N non-heavy-cutting wastewater feed pipes which can be gated, and the end parts of the N non-heavy-cutting wastewater feed pipes are respectively connected with the lower ends of the ropes of N electric hoists 9 above the non-heavy-cutting wastewater treatment tank 22 and can be placed into the corresponding sedimentation tanks 5; clear water outlets of the large-scale cutting wastewater filtering device 71 and the non-large-scale cutting wastewater filtering device 72 are communicated with the backwater ditch 1 through pipelines; a feed inlet of the large-cut wastewater fine sand separation device 31 is communicated with the bottom of the wastewater collection tank 4 of the large-cut wastewater treatment tank 21 through a pipeline, and a sewage outlet of the large-cut wastewater fine sand separation device is communicated with the wastewater collection tank 4 of the large-cut wastewater treatment tank 21; the feed inlet of the non-large-scale-cut wastewater fine sand separation device 32 is communicated with the bottom of the wastewater collection tank 4 of the non-large-scale-cut wastewater treatment tank 22 through a pipeline, and the sewage outlet of the non-large-scale-cut wastewater fine sand separation device is communicated with the wastewater collection tank 4 of the non-large-scale-cut wastewater treatment tank 22.

Specifically, the embodiment of the utility model provides a cell body is the rectangle, cut waste water filter equipment 71 greatly and cut waste water filter equipment 72 greatly and all be located the right side of cell body and set up side by side around and, cut waste water fine sand separator 31 greatly and cut waste water fine sand separator 32 greatly and all be located the left side of cell body and set up side by side around and greatly not.

Wherein, the waste water filtering device 71 and the non-large-cutting waste water filtering device 72 in the embodiment of the utility model are filter presses.

The large-cutting wastewater and fine sand separation device 31 and the non-large-cutting wastewater and fine sand separation device 32 in the embodiment of the utility model both comprise a vibrating screen 41 and a cyclone separator 42, and the bottom of the wastewater collection tank 4 is connected with the feed inlet of the corresponding cyclone separator 42 through a pipeline; the cyclone separator 42 is positioned right above the vibrating screen 41, a discharge hole at the bottom of the cyclone separator is output to the vibrating screen 41, and a water outlet at the upper part of the cyclone separator is used as a sewage outlet and is connected with the corresponding wastewater collection tank 4 through a pipeline; a water receiving tank is arranged under the vibrating screen 41 and serves as another sewage outlet to be connected with the corresponding wastewater collecting tank 4 through a pipeline.

Wherein, two longitudinal slide rails 11 are arranged side by side on the left and right of the shed frame 8 in the embodiment of the utility model; the walking and pumping unit comprises a walking beam 12 arranged in the left-right direction, longitudinal walking vehicles 13 which are arranged at the left end and the right end of the walking beam 12 and are driven synchronously, transverse slide rails 14 arranged on the walking beam 12 in the left-right direction, two transverse walking vehicles 15 which are arranged on the transverse slide rails 14 and can move in the left-right direction, and electric hoists 9 arranged on the transverse walking vehicles 15, wherein the longitudinal walking vehicles 13 are arranged on the longitudinal slide rails 11 on the corresponding sides in a sliding manner; the longitudinal traveling vehicle 13 can move between the front side and the rear side of the sedimentation tank pair, and the two transverse traveling vehicles 15 are respectively positioned right above the two sedimentation tanks 5 of the same sedimentation tank pair and can move between the left side and the right side of the corresponding sedimentation tank 5.

Further, the utility model provides an in PAC add device 18 through the pipeline of taking the valve group respectively with cut waste water collection ditch 16 greatly and cut waste water collection ditch 17 greatly with non-, PAM adds device 19 and is connected with two waste water collection ponds 4 respectively through the pipeline of taking the valve group.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is: the embodiment of the utility model provides a recycling system of stone waste water, and the applicant finds that after settlement treatment, the large-scale cutting waste water can be used with clear water after other stone waste water treatment, and most of lubricants in the large-scale cutting waste water are settled along with sludge; can realize the processing of two kinds of waste water in a sedimentation tank in this patent, the extraction of two kinds of mud can be realized to a mud suction structure, and two filtration can realize the filtration of a large amount of sedimentation tanks, simple structure, and the design is compact, has reduceed the production input.

Drawings

Fig. 1 is a schematic block diagram of a stone waste water recycling system provided by an embodiment of the present invention;

FIG. 2 is a remote block diagram of a shaker, cyclone separator and wastewater collection basin combination;

fig. 3 is a schematic structural diagram of a pool body provided by the embodiment of the present invention;

fig. 4 is a schematic structural diagram of a sludge suction structure provided by an embodiment of the present invention.

In the figure: 1 return water ditch, 21 large-scale cutting wastewater treatment tank, 22 non-large-scale cutting wastewater treatment tank, 3 partition walls, 4 wastewater collection tank, 5 sedimentation tank, 6 gate valve, 71 large-scale cutting wastewater filtration device, 72 non-large-scale cutting wastewater filtration device, 8 canopy frame, 9 electric hoist, 10 communicating port, 11 longitudinal slide rail, 12 walking beam, 13 longitudinal walking vehicle, 14 transverse slide rail, 15 transverse walking vehicle, 16 large-scale cutting wastewater collection ditch, 17 non-large-scale cutting wastewater collection ditch, 18PAC adding device, 19PAM adding device, 31 large-scale cutting wastewater fine sand separation device, 32 non-large-scale cutting wastewater fine sand separation device, 41 vibrating screen and 42 cyclone separator.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-4, the embodiment of the present invention provides a recycling system for stone waste water, which comprises a large-scale cutting waste water collecting channel 16 (for collecting large-scale cutting waste water), a non-large-scale cutting waste water collecting channel 17 (for collecting other waste water except the large-scale cutting waste water), a PAC adding device 18 (for adding PAC), a PAM adding device 19 (for adding PAM), a sedimentation tank (for treating two kinds of waste water simultaneously), a large-scale cutting waste water filtering device 71 (for filtering sludge settled by the large-scale cutting waste water), a non-large-scale cutting waste water filtering device 72 (for filtering sludge settled by other waste water), a sludge suction device, a large-scale cutting waste water fine sand separating device 31 (for separating fine sand in the large-scale cutting waste water, the fine sand can be used as building material) and a non-large-scale cutting waste water fine sand separating device 32 (for separating fine sand in other waste water, fine sand may be used as a building material), etc. Wherein, the large-scale cutting waste water collecting ditch 16 and the non-large-scale cutting waste water collecting ditch 17 are both provided with grids (for preventing large stones from passing through) and are both connected with a PAC adding device 18 (for adding an appropriate amount of PAC) through pipelines.

Wherein, the sedimentation tank includes along the cell body of forward and backward setting and the return water ditch 1 (be used for exporting clear water in order to retrieve and recycle, front end output clear water) etc. at cell body middle part, return water ditch 1 along the forward and backward setting divide into about the cell body two treatment ponds that set up side by side, two treatment ponds are respectively for cutting waste water treatment tank 21 greatly and not cutting waste water treatment tank 22 greatly and are used for handling greatly and cut waste water and other waste water. The front and the back of the treatment tank are provided with N partition walls 3 (arranged along the left and the right directions, and provided with 2N gaps) in parallel to divide the treatment tank into N +1 sub-tank bodies (specifically rectangular tanks). In every treatment tank, N +1 sub-cell bodies communicate (waste water is carried backward) by preceding to back in proper order, first sub-cell body is waste water collecting tank 4 (totally two), the N sub-cell body of surplus (except waste water collecting tank 4) is sedimentation tank 5 (totally 2N), last (by preceding to back number, back with) sedimentation tank 5 and return water ditch 1's rear end intercommunication and its intercommunication department are equipped with push-pull valve 6 (be used for controlling settling velocity, still can reduce the clear water backward flow), first sedimentation tank 5 is connected with PAM interpolation device 19 through the pipeline and is used for adding appropriate amount PAW. The partition walls 3 of the two treatment tanks are in the same position, i.e. the corresponding partition walls 3 are located on the same horizontal line in the left-right direction. Two sedimentation tanks 5 corresponding to two sides of the backwater ditch 1 form a sedimentation tank pair (a walking suction unit is correspondingly arranged), and N is an integer more than or equal to 3. The large-size cutting wastewater collection ditch 16 is communicated with the wastewater collection tank 4 of the large-size cutting wastewater treatment tank 21, and the non-large-size cutting wastewater collection ditch 17 is communicated with the wastewater collection tank 4 of the non-large-size cutting wastewater treatment tank 22. Wherein, the partition wall 3 and the backwater ditch 1 in the embodiment can both be brick structures. Wherein, the size of the large-size wastewater treatment tank 21 and the non-large-size wastewater treatment tank 22 in this embodiment is designed according to actual needs, the settling time and the dosage of the flocculating agent (PAC and PAM) are also designed according to actual needs, and the treatment modes of the two treatment tanks are differentially carried out to ensure that the treated wastewater can be reused. Specifically, the large-size wastewater treatment tank 21 (large-size wastewater treatment) is larger than the non-large-size wastewater treatment tank 22, that is, the backwater channel 1 is arranged near the right side of the tank body.

The sludge suction structure comprises a shed frame 8 (frame structure), N walking suction units on the shed frame 8 and the like, wherein a walking suction unit is correspondingly arranged right above each settling pond pair, the walking suction units can move forward and backward and are provided with two electric hoists 9 (provided with inhaul cables and N treatment ponds) capable of moving left and right, and the two electric hoists 9 are respectively positioned right above the two settling ponds 5 of the same settling pond pair and are responsible for sucking sludge in the settling ponds 5 right below the two electric hoists; of course, in abnormal situations, one hoist 9 can also be responsible for the suction of sludge in both settling ponds 5 of the same pair.

Wherein, be equipped with N on the feed inlet of cutting wastewater filter equipment 71 greatly and cut the waste water inlet pipe greatly that can gate (through valve group), the tip of N cuts waste water inlet pipe greatly is connected with the lower extreme of the rope of N electric hoist 9 above cutting waste water treatment pond 21 greatly respectively and it can put into corresponding sedimentation tank 5 (regularly or as required, unsettled most of the time) and carry out the soil pick-up. The feed inlet of the non-heavy-duty wastewater filtering device 72 is provided with N non-heavy-duty wastewater feed pipes which can be gated (through a valve group), the end parts of the N non-heavy-duty wastewater feed pipes are respectively connected with the lower ends of the ropes of N electric hoists 9 above the non-heavy-duty wastewater treatment tank 22 and can be placed into the corresponding sedimentation tanks 5 (suspended at regular time or in the air for most of time as required) for sewage suction. The clear water outlets of the large-scale cutting wastewater filtering device 71 and the non-large-scale cutting wastewater filtering device 72 are communicated with the water return ditch 1 (front part) through pipelines for recycling.

Wherein, the feed inlet of cutting waste water fine sand separator 31 greatly passes through the pipeline and cuts the bottom (fine sand subsides in the bottom) intercommunication of waste water collecting tank 4 of waste water treatment pond 21 greatly, and its sewage outlet (this embodiment is two, and one is the delivery port of cyclone 42, and another is the delivery port on the water receiving tank, and the back is with) and cut waste water collecting tank 4 (upper portion) intercommunication of waste water treatment pond 21 greatly. The feed inlet of the fine sand separating device 32 for non-heavy-cut wastewater is communicated with the bottom of the wastewater collecting tank 4 of the non-heavy-cut wastewater treatment tank 22 through a pipeline, and the sewage outlets (two in the embodiment) of the fine sand separating device are communicated with the wastewater collecting tank 4 (upper part) of the non-heavy-cut wastewater treatment tank 22.

Specifically, referring to fig. 3, the cell body in the embodiment of the present invention is rectangular, the large-size wastewater filtering device 71 and the non-large-size wastewater filtering device 72 are both located on the right side of the cell body (front portion) and are arranged side by side from front to back so as to centrally treat the filter residue, and the large-size wastewater fine sand separating device 31 and the non-large-size wastewater fine sand separating device 32 are both located on the left side of the cell body (front portion) and are arranged side by side from front to back so as to centrally treat the fine sand. The positions of the PAC adding apparatus 18 and the PAM adding apparatus 19 are set according to actual needs.

Wherein, the embodiment of the utility model provides an in greatly cut waste water filter equipment 71 and not greatly cut waste water filter equipment 72 and be the pressure filter, the filter residue also can regard as building material.

Referring to fig. 1-3, the large-scale wastewater and fine sand separation device 31 and the non-large-scale wastewater and fine sand separation device 32 in the embodiment of the present invention each include a vibrating screen 41 and a cyclone 42 (for increasing the processing speed), and the bottom of the wastewater collection tank 4 is connected to the feed inlet of the corresponding cyclone 42 through a pipeline (with a pump); the cyclone separator 42 is located right above the vibrating screen 41, and the discharge port at the bottom of the cyclone separator is output to the vibrating screen 41, and the water outlet at the upper part of the cyclone separator is used as a sewage outlet and is connected with the corresponding waste water collecting tank 4 through a pipeline. A water receiving tank (which can be specifically bricked) is arranged under the vibrating screen 41 and used for receiving screened objects such as water separated by the vibrating screen 41, and the water receiving tank (a water outlet on the water receiving tank) is used as another sewage outlet and is connected with the corresponding wastewater collecting tank 4 through a pipeline (or a ditch). Specifically, the shale shaker 41 is arranged on the support in the left-right direction and is arranged obliquely upwards from right to left, the water receiving tank is arranged under the support, the fine sand tank is arranged below the left side of the support and at the left end of the shale shaker 41 and used for collecting and storing fine sand, and the cyclone 42 is fixed on the support in the vertical direction and at the right end of the shale shaker 41.

Referring to fig. 4, two longitudinal sliding rails 11 (arranged in the front-back direction) are arranged side by side on the left and right sides of the canopy frame 8 (the upper part of the beam) in the embodiment of the present invention. The walking and pumping unit comprises a walking beam 12 (rectangular beam) arranged in the left-right direction, longitudinal walking vehicles 13 (conventional structure) synchronously driven at the left end and the right end of the walking beam 12, transverse sliding rails 14 arranged on the walking beam 12 (front side or rear side) in the left-right direction, two transverse walking vehicles 15 (conventional structure) capable of moving in the left-right direction on the transverse sliding rails 14, electric hoists 9 (left-right direction arranged) on the transverse walking vehicles 15 and the like, wherein the longitudinal walking vehicles 13 are arranged on the longitudinal sliding rails 11 on the corresponding sides in a sliding manner. The longitudinal traveling vehicle 13 can move between the front side and the rear side of the sedimentation tank pair, and the two transverse traveling vehicles 15 are respectively positioned right above the two sedimentation tanks 5 of the same sedimentation tank pair and can move between the left side and the right side of the corresponding sedimentation tank 5.

Further, the utility model provides an in PAC add device 18 through the pipeline of taking the valve group (the addition of control PAC, can be electric control valve) respectively with cut waste water collection ditch 16 greatly and cut waste water collection ditch 17 greatly with not be connected, PAM add device 19 through the pipeline of taking the valve group (the addition of control PAM, can be electric control valve) be connected with two waste water collecting ponds 4 respectively.

Wherein, a pump, a valve and the like are arranged on the pipeline between the structures according to the requirement.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims

1. The stone wastewater recycling system comprises a large-cutting wastewater collecting ditch (16), a non-large-cutting wastewater collecting ditch (17), a PAC adding device (18) and a PAM adding device (19), wherein grids are arranged in the large-cutting wastewater collecting ditch (16) and the non-large-cutting wastewater collecting ditch (17) and are connected with the PAC adding device (18) through pipelines; the recycling system is characterized by further comprising a sedimentation tank, a large-cut wastewater filtering device (71), a non-large-cut wastewater filtering device (72), a sludge suction device, a large-cut wastewater fine sand separating device (31) and a non-large-cut wastewater fine sand separating device (32);

the sedimentation tank comprises a tank body arranged in the front-back direction and a water return channel (1) in the middle of the tank body, the water return channel (1) is arranged in the front-back direction and divides the tank body into two treatment tanks arranged side by side on the left and right, and the two treatment tanks are a large-size cutting wastewater treatment tank (21) and a non-large-size cutting wastewater treatment tank (22) respectively; n partition walls (3) are arranged in parallel in the front and the back of the treatment tank to divide the treatment tank into N +1 sub-tank bodies; in each treatment tank, N +1 sub-tank bodies are sequentially communicated from front to back, the first sub-tank body is a wastewater collection tank (4), the rest N sub-tank bodies are sedimentation tanks (5), the last sedimentation tank (5) is communicated with the rear end of the backwater ditch (1), a gate valve (6) is arranged at the communication position of the last sedimentation tank (5) and the backwater ditch, and the first sedimentation tank (5) is connected with a PAM adding device (19) through a pipeline; the partition walls (3) of the two treatment pools are in the same position, two corresponding sedimentation pools (5) on the two sides of the backwater ditch (1) form a sedimentation pool pair, and N is an integer more than or equal to 3; the large-cutting wastewater collecting channel (16) is communicated with a wastewater collecting tank (4) of a large-cutting wastewater treatment tank (21), and the non-large-cutting wastewater collecting channel (17) is communicated with a wastewater collecting tank (4) of a non-large-cutting wastewater treatment tank (22);

the sludge suction device comprises a shed frame (8) and N walking suction units on the shed frame (8), wherein one walking suction unit is correspondingly arranged right above each settling pond pair, the walking suction units can move forward and backward and are provided with two electric hoists (9) capable of moving left and right, and the two electric hoists (9) are respectively positioned right above the two settling ponds (5) of the same settling pond pair;

n large-cutting wastewater feeding pipes which can be gated are arranged at a feeding hole of the large-cutting wastewater filtering device (71), and the end parts of the N large-cutting wastewater feeding pipes are respectively connected with the lower ends of ropes of N electric hoists (9) above the large-cutting wastewater treatment tank (21) and can be placed into corresponding sedimentation tanks (5); n non-macro-scale-cutting wastewater feeding pipes which can be gated are arranged at a feeding hole of the non-macro-scale-cutting wastewater filtering device (72), and the end parts of the N non-macro-scale-cutting wastewater feeding pipes are respectively connected with the lower ends of ropes of N electric hoists (9) above the non-macro-scale-cutting wastewater treatment tank (22) and can be placed into corresponding sedimentation tanks (5); clear water outlets of the large-cutting wastewater filtering device (71) and the non-large-cutting wastewater filtering device (72) are communicated with the water return ditch (1) through pipelines;

a feed inlet of the large-scale cutting wastewater fine sand separation device (31) is communicated with the bottom of a wastewater collection tank (4) of a large-scale cutting wastewater treatment tank (21) through a pipeline, and a sewage outlet of the large-scale cutting wastewater fine sand separation device is communicated with the wastewater collection tank (4) of the large-scale cutting wastewater treatment tank (21); the feed inlet of the non-large-scale-cut wastewater fine sand separation device (32) is communicated with the bottom of a wastewater collection tank (4) of the non-large-scale-cut wastewater treatment tank (22) through a pipeline, and the sewage outlet of the non-large-scale-cut wastewater fine sand separation device is communicated with the wastewater collection tank (4) of the non-large-scale-cut wastewater treatment tank (22).

2. The recycling system of stone wastewater as claimed in claim 1, wherein the tank body is rectangular, the large-scale wastewater filtering device (71) and the non-large-scale wastewater filtering device (72) are located at the right side of the tank body and are arranged side by side front and back, and the large-scale wastewater fine sand separating device (31) and the non-large-scale wastewater fine sand separating device (32) are located at the left side of the tank body and are arranged side by side front and back.

3. The recycling system of stone wastewater as claimed in claim 2, wherein the large-scale cutting wastewater filtering device (71) and the non-large-scale cutting wastewater filtering device (72) are both filter presses.

4. The recycling system of stone wastewater as claimed in claim 1, wherein the large-scale cutting wastewater fine sand separating device (31) and the non-large-scale cutting wastewater fine sand separating device (32) each comprise a vibrating screen (41) and a cyclone separator (42), and the bottom of the wastewater collecting tank (4) is connected with the feed inlet of the corresponding cyclone separator (42) through a pipeline; the cyclone separator (42) is positioned right above the vibrating screen (41), a discharge hole at the bottom of the cyclone separator is output to the vibrating screen (41), and a water outlet at the upper part of the cyclone separator is used as a sewage outlet and is connected with the corresponding wastewater collection tank (4) through a pipeline; a water receiving tank is arranged under the vibrating screen (41), and the water receiving tank is used as another sewage outlet and is connected with the corresponding waste water collecting tank (4) through a pipeline.

5. The recycling system of stone wastewater as claimed in claim 1, wherein the rack (8) is provided with two longitudinal slide rails (11) arranged side by side from left to right; the walking and pumping unit comprises a walking beam (12) arranged in the left-right direction, longitudinal walking vehicles (13) which are arranged at the left end and the right end of the walking beam (12) and are driven synchronously, transverse sliding rails (14) arranged on the walking beam (12) in the left-right direction, two transverse walking vehicles (15) which are arranged on the transverse sliding rails (14) and can move in the left-right direction, and electric hoists (9) arranged on the transverse walking vehicles (15), wherein the longitudinal walking vehicles (13) are arranged on the longitudinal sliding rails (11) on the corresponding sides in a sliding manner; the longitudinal travelling vehicle (13) can move between the front side and the rear side of the sedimentation tank pair, and the two transverse travelling vehicles (15) are respectively positioned right above the two sedimentation tanks (5) of the same sedimentation tank pair and can move between the left side and the right side of the corresponding sedimentation tank (5).

6. The recycling system of stone wastewater as claimed in claim 1, wherein the PAC adding device (18) is connected to the large-size cut wastewater collecting channel (16) and the non-large-size cut wastewater collecting channel (17) through pipelines with valve sets, respectively, and the PAM adding device (19) is connected to the two wastewater collecting tanks (4) through pipelines with valve sets, respectively.