CN119263558A

CN119263558A - A sewage recycling device for construction sites

Info

Publication number: CN119263558A
Application number: CN202411701909.XA
Authority: CN
Inventors: 梁绿荫
Original assignee: Shenzhen Hehua International Engineering And Design Co ltd
Current assignee: Shenzhen Hehua International Engineering And Design Co ltd
Priority date: 2024-11-26
Filing date: 2024-11-26
Publication date: 2025-01-07

Abstract

The invention relates to the technical field of sewage multistage treatment, in particular to sewage recycling equipment for construction sites. Including half string car body, controller, first processing pond, second processing pond, third processing pond, rotate and strain a section of thick bamboo etc. controller, first processing pond, second processing pond and third processing pond are connected in half string car body top side by side, and bottom is the cambered surface in first processing pond, second processing pond and the third processing pond, and three rotate and strain a section of thick bamboo and place respectively in first processing pond, second processing pond and third processing pond inside, and rotate and strain a section of thick bamboo outer wall circumferential symmetry and open there is the tooth hole. According to the invention, through the cooperation of the rotary filter cylinder and the fixed inclined plate, sludge in the filter cylinder can be automatically removed without stopping the machine, and the design ensures that the sewage recycling equipment can continuously run under the condition of no stopping the machine, thereby avoiding delay of construction period and increase of cost caused by stopping the machine due to removing the sludge in the traditional equipment and improving the working efficiency of sewage treatment.

Description

Sewage recycling equipment for construction sites

Technical Field

The invention relates to the technical field of sewage multistage treatment, in particular to sewage recycling equipment for construction sites.

Background

In the modern building construction process, along with the improvement of environmental awareness and the increasing strictness of laws and regulations, sewage generated in a construction site can be discharged after being effectively treated so as to reduce the influence on the environment, and the importance of sewage treatment equipment for a building site is self-evident as one of key facilities for realizing the aim.

The existing sewage treatment equipment for construction sites mainly removes part of suspended matters by introducing sewage into one or more sedimentation tanks, settling larger particles to the bottom of the tanks by utilizing the action of gravity to form a silt layer, and although the method can remove impurities to a certain extent, long-term operation can cause the bottom of the sedimentation tanks to accumulate a large amount of silt, occupy valuable storage space and possibly interfere with subsequent treatment processes. More seriously, when it is necessary to remove such sludge, the entire sewage treatment system must be stopped, which negatively affects the progress of construction, increasing the time and cost of the project. In addition, the geographical position and the operation condition of the construction site are frequently changed, and the inconvenience is particularly obvious in that most of the existing sewage treatment devices for the construction site are difficult to quickly move from one place to another due to the complicated structure and the huge volume, especially in the sites with limited space or complicated topography.

Disclosure of Invention

In view of the above, the present invention provides a sewage recycling apparatus for construction sites, which can overcome the disadvantages that the whole sewage treatment system must stop working when the existing sewage treatment apparatus cleans deposited sludge, which can negatively affect the construction progress, increase the time and cost of projects, and inconvenient transfer.

The technical scheme includes that the sewage recycling equipment for the construction site comprises a semi-trailer body, a controller, a first treatment tank, a second treatment tank, a third treatment tank, a rotary filter drum, a fixed inclined plate, a mounting block, a rotary rod, a driving gear, a driving motor, a treatment assembly and a cleaning assembly, wherein the controller, the first treatment tank, the second treatment tank and the third treatment tank are connected to the top of the semi-trailer body side by side, the bottoms of the first treatment tank, the second treatment tank and the third treatment tank are cambered surfaces, the three rotary filter drums are respectively arranged in the first treatment tank, the second treatment tank and the third treatment tank, tooth holes are symmetrically formed in the periphery of the outer wall of the rotary filter drum, the fixed inclined plate is circumferentially connected to the inner wall of the rotary filter drum, the mounting block is respectively connected to the first treatment tank, the second treatment tank and the top of the third treatment tank, the rotary rod is rotationally connected to the mounting block, the driving gear is symmetrically connected to the rotary rod, the driving gear is meshed with the tooth holes, the driving motor is connected to the side of the mounting block, the end of the rotary rod is connected with an output shaft of the driving motor, and the treatment assembly is used for carrying out fixed sludge cleaning on the first treatment tank, the second treatment tank and the third treatment assembly.

As a preferred technical scheme of the invention, the treatment assembly comprises a mounting frame, a filter plate, a fixed filter drum, a fixed frame, an ultraviolet lamp, a water inlet pipe, a first connecting pipe, a second connecting pipe and a water outlet pipe, wherein the mounting frame is connected to the inner wall of the second treatment tank, the mounting frame is positioned in the middle of the rotary filter drum, round holes are formed at the bottom of the mounting frame at intervals, the filter plate is connected to the inner wall of the mounting frame at intervals, the fixed filter drum is connected to the inner wall of the third treatment tank, the fixed frame is connected to the side surface of the third treatment tank, the ultraviolet lamp is arranged on the inner wall of the fixed frame, the water inlet pipe is connected to the first treatment tank, the first connecting pipe is connected with the first treatment tank and the second treatment tank, square grooves are formed at the tops of the second treatment tank and the third treatment tank, the two square grooves are communicated, the second connecting pipe is connected with the third treatment tank and the fixed frame, and the water outlet pipe is connected to the bottom of the fixed frame.

As a preferable technical scheme of the invention, the cleaning component comprises a collecting frame, a drain pipe and a spiral feeder, wherein the collecting frame is connected between the tops of the first treatment tank, the second treatment tank and the third treatment tank, the collecting frame penetrates through the inside of the three rotary filter cylinders, the drain pipe is connected to the side surface of the collecting frame, the spiral feeder is arranged on the drain pipe, and a spiral rod of the spiral feeder is positioned in the collecting frame.

As a preferred technical scheme of the invention, the device also comprises a mounting rod, a hollow pipe, an air outlet frame, a blower and an air supply pipe, wherein the mounting rod is respectively connected to the tops of the first treatment tank, the second treatment tank and the third treatment tank, the hollow pipe is connected to the mounting rod, strip-shaped holes are formed in the hollow pipe at intervals, the air outlet frame is connected to the outer wall of the hollow pipe at intervals, the strip-shaped holes correspond to the air outlet frame, the blower is connected to the top of the third treatment tank, and the air supply pipe is connected with the hollow pipe and the air outlet of the blower.

As a preferred technical scheme of the invention, the sludge treatment device further comprises a connecting frame, a water collecting frame, a filter bag, a first electric push rod, a first connecting plate, a second electric push rod, a second connecting plate, a hydraulic cylinder, a pressing plate, a backflow component and a sludge discharge component, wherein the connecting frame is connected to the side face of the first treatment tank, the water collecting frame is connected to the bottom of the connecting frame, the filter bag is connected to the inner wall of the connecting frame, the first electric push rod is symmetrically connected to the connecting frame, the first connecting plate is connected to a telescopic rod of the first electric push rod, the first connecting plate is connected with the side face of the filter bag, the second electric push rod is symmetrically connected to the connecting frame, the second connecting plate is connected to a telescopic rod of the second electric push rod, the second connecting plate is connected with the side face of the filter bag, the hydraulic cylinder is symmetrically connected to the connecting frame, the pressing plate is connected to the telescopic rod of the hydraulic cylinder, the pressing plate is in contact with the side face of the filter bag, the backflow component is used for conveying the water extruded after being pressed into the first treatment tank, and the sludge discharge component is used for discharging the pressed sludge.

As a preferable technical scheme of the invention, the reflux assembly comprises a water suction pump, a water suction pipe and a drain pipe, wherein the water suction pump is arranged on the side surface of the water collecting frame, the water suction pipe is connected with the water collecting frame and the water inlet of the water suction pump, and the drain pipe is connected with the water inlet pipe and the water outlet of the water suction pump.

As a preferable technical scheme of the invention, the sludge discharge assembly comprises a guide plate, a rotary inclined plate, a servo motor and a limiting plate, wherein the guide plate is connected to the inner wall of the water collecting frame, the rotary inclined plate is rotationally connected to the inside of the water collecting frame, the servo motor is connected to the side surface of the water collecting frame, an output shaft of the servo motor is connected with the end part of a rotary shaft of the rotary inclined plate, and the limiting plate is symmetrically connected to the rotary inclined plate.

As a preferred technical scheme of the invention, the novel sewage treatment device further comprises a dustproof frame, a dustproof cover and a filtering net cover, wherein the dustproof frame is connected between the first treatment tank, the second treatment tank, the third treatment tank and the top of the connecting frame, the dustproof cover is connected to the top of the dustproof frame, the filtering net cover is connected to the dustproof frame, and the filtering net cover is positioned at the air inlet of the blower.

The sewage recycling device has the beneficial effects that 1, through the cooperation of the rotary filter cylinder and the fixed inclined plate, sludge in the filter cylinder can be automatically removed without stopping the machine, and the design ensures that the sewage recycling device can continuously run under the condition of no stopping the machine, thereby avoiding the delay of construction period and the increase of cost caused by stopping the machine due to removing the sludge of the traditional device and improving the working efficiency of sewage treatment.

2. According to the invention, the first treatment tank, the second treatment tank and the third treatment tank are arranged to respectively perform precipitation, filtration and activated carbon adsorption treatment, and the ultraviolet lamp is used for sterilization and disinfection, so that the sewage can be subjected to multistage treatment, suspended matters, tiny impurities and organic matters in the sewage can be effectively removed by the multistage treatment mode, the water quality is improved, the standard of recycling is finally achieved, the waste of water resources is reduced, and the environmental protection requirement is met.

3. The invention adopts the semi-trailer body as the carrier, and can be quickly moved from one place to another place according to the change of the geographic position and the change of the operation condition of the construction site, so that the equipment has high portability and flexibility, is particularly suitable for construction sites with limited space or complex topography, can be quickly deployed and used, and meets the sewage treatment requirements under different working conditions.

Drawings

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

Fig. 2 is a schematic view of the installation of the rotary filter cartridge, rotary lever, drive gear and drive motor of the present invention.

Fig. 3 is a schematic view showing a specific structure of the rotary filter cartridge and the fixed swash plate according to the present invention.

FIG. 4 is a schematic diagram of a specific structure of a processing assembly according to the present invention.

FIG. 5 is a schematic view of the installation of the cleaning assembly of the present invention.

FIG. 6 is a schematic view showing a specific structure of the cleaning assembly of the present invention.

Fig. 7 is a schematic diagram of a separation structure of a hollow pipe and an air outlet frame of the present invention.

Fig. 8 is a cross-sectional view of the connection frame and the water collecting frame of the present invention.

Fig. 9 is a schematic view showing the installation of the guide plate, the rotary sloping plate and the limiting plate according to the present invention.

Fig. 10 is a schematic diagram showing a specific structure of the dust-proof frame and the filter screen of the present invention.

The drawing shows that the device comprises a 1-semi-trailer body, a 2-controller, a 3-first treatment tank, a 4-second treatment tank, a 5-third treatment tank, a 6-rotary filter cartridge, 601-tooth holes, 7-fixed inclined plates, 8-mounting blocks, 9-rotary rods, 10-driving gears, 11-driving motors, 12-mounting frames, 1201-round holes, 13-filter plates, 14-fixed filter cartridges, 15-fixed frames, 16-ultraviolet lamps, 17-water inlet pipes, 18-first connecting pipes, 19-square grooves, 20-second connecting pipes, 21-water outlet pipes, 22-collecting frames, 23-blow-down pipes, 24-spiral feeders, 25-mounting rods, 26-hollow pipes, 2601-strip-shaped holes, 27-air outlet frames, 28-blowers, 29-air supply pipes, 30-connecting frames, 31-water collecting frames, 32-filter bags, 33-first electric push rods, 34-first connecting plates, 35-second electric push rods, 36-second connecting plates, 37-hydraulic cylinders, 38-pressing plates, 39-water suction pumps, 40-water suction pipes, 41-drainage pipes, 42-guide plates, 43-48-guide plates, 48-servo plates, 48-filter covers, and dustproof covers.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: 1-6, including a semi-trailer body 1, a controller 2, a first treatment tank 3, a second treatment tank 4, a third treatment tank 5, a rotary filter drum 6, a fixed inclined plate 7, a mounting block 8, a rotary rod 9, a driving gear 10, a driving motor 11, a treatment component and a cleaning component, wherein the semi-trailer body 1 is used for connecting with a semi-trailer head (the prior art, without redundant description), the semi-trailer head can drive the semi-trailer body 1 to move, so that the sewage recycling device can be quickly moved from one place to another place according to the geographic position change and the operation condition change of the construction site, the controller 2 is arranged on the right side of the top of the semi-trailer body 1, the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5 are sequentially connected from left to right on the top of the semi-trailer body 1, the left and right sides of the second treatment tank 4 are respectively connected with the side surfaces of the first treatment tank 3 and the third treatment tank 5, the controller 2 is positioned at the right side of the third treatment tank 5, the bottoms of the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5 are cambered surfaces, a rotary filter cylinder 6 is arranged in the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5, the left and right sides of the rotary filter cylinder 6 are designed to be open, the inner diameter length and the inner diameter length of the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5 are respectively matched with the width and the diameter of the rotary filter cylinder 6, so that the rotary filter cylinder 6 can freely rotate in the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5 and cannot be displaced in four directions, tooth holes 601 are formed in the left and right sides of the outer walls of the three rotary filter cylinders 6 in the circumferential direction, the inner wall of each rotary filter cylinder 6 is circumferentially connected with a fixed inclined plate 7, the tops of the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5 are connected with four installation blocks 8 in a total mode, rotary rods 9 are rotationally connected between the four installation blocks 8, three groups of driving gears 10 are symmetrically connected to the rotary rods 9, the three groups of driving gears 10 are in one-to-one correspondence with the three rotary filter cylinders 6, the number of each group of driving gears 10 is two, the driving gears 10 are meshed with corresponding tooth holes 601, the right sides of the installation blocks 8 on the right side are connected with driving motors 11, the right ends of the rotary rods 9 are connected with output shafts of the driving motors 11, a treatment assembly is used for treating sewage in the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5, and a cleaning assembly is used for cleaning sludge on the fixed inclined plates 7.

As shown in fig. 4, the treatment assembly comprises a mounting frame 12, a filter plate 13, a fixed filter cartridge 14, a fixed frame 15, an ultraviolet lamp 16, a water inlet pipe 17, a first connecting pipe 18, a second connecting pipe 20 and a water outlet pipe 21, wherein the left side of the inner wall of the second treatment tank 4 is connected with the mounting frame 12, a gap is reserved between the outer wall of the mounting frame 12 and the inner wall of the second treatment tank 4, a round hole 1201 is arranged at the bottom of the mounting frame 12 at intervals, a notch is further arranged on the right side of the top of the mounting frame 12, three filter plates 13 are connected in the mounting frame 12 from top to bottom at intervals, the fixed filter cartridge 14 is connected on the left side of the inner wall of the third treatment tank 5, the fixed filter cartridge 14 is arranged in a double-layer filter cartridge, the right side of the fixed filter cartridge 14 is in an open type design, the upper right side of the third treatment tank 5 is connected with the fixed frame 15, the ultraviolet lamp 16 is installed on the inboard upper portion of fixed frame 15, first treatment pond 3 upper portion left side is connected with inlet tube 17, the inlet tube 17 rear end is located inside the first treatment pond 3, be connected with first connecting pipe 18 between first treatment pond 3 front side upper portion and the second treatment pond 4 left side upper portion, square groove 19 has all been opened on second treatment pond 4 top right side and third treatment pond 5 top left side, two square grooves 19 intercommunication each other, and the breach on installing frame 12 top right side is equal high and the intercommunication with square groove 19 on second treatment pond 4 top right side, be connected with second connecting pipe 20 between third treatment pond 5 right side upper portion and fixed frame 15 bottom rear side, fixed frame 15 bottom front side is connected with outlet pipe 21.

As shown in fig. 5 and 6, the cleaning assembly comprises a collecting frame 22, a drain pipe 23 and a screw feeder 24, wherein the collecting frame 22 is connected between the rear sides of the tops of the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5, the collecting frame 22 is obliquely arranged to adapt to the radian of the inner wall of the rotary filter cylinder 6, the collecting frame 22 passes through the inner upper parts of the three rotary filter cylinders 6, the left side of the collecting frame 22 is connected with the drain pipe 23 and communicated, the drain pipe 23 is in a T-shaped shape, the screw feeder 24 is arranged on the drain pipe 23, and a screw rod of the screw feeder 24 passes through the inside of the drain pipe 23 and the inside of the collecting frame 22.

At first, a proper amount of filler is placed between every two adjacent filter plates 13, a proper amount of activated carbon is filled in the inner wall of a fixed filter cylinder 14, firstly, a semi-trailer body 1 is pulled by a semi-trailer head to move to a designated position, then a water inlet pipe 17 and a sewage discharge pipe are connected, so that the sewage mixed with flocculant can be discharged into the water inlet pipe 17 by the sewage discharge pipe, the sewage in the water inlet pipe 17 continuously enters into a first treatment tank 3, so that the sewage can be deposited in the first treatment tank 3, thereby completing the first re-treatment of the sewage, the liquid level in the first treatment tank 3 gradually rises along with the increasing of the sewage in the first treatment tank 3, at the moment, impurities in the first treatment tank 3 can be deposited in a left rotary filter cylinder 6, clear water in the first treatment tank 3 can enter into a second treatment tank 4 through a first connecting pipe 18, the clear water in the second treatment tank 4 gradually rises along with the increasing of the clear water in the second treatment tank 4, and at the moment, the liquid level in the second treatment tank 4 gradually passes through round holes 1201, The filter plate 13 and the filler, while the fine impurities in the second treatment tank 4 cannot pass through the round hole 1201, so that the fine impurities in the second treatment tank 4 can be deposited in the middle rotary filter cylinder 6, the microorganisms in the clean water can be gradually adhered to the surfaces of the filler and grow and propagate to form a layer of biological film, the microorganisms in the biological film can capture and decompose organic matters and other biodegradable matters in the clean water, thereby completing the second sewage treatment work, then the secondarily treated clean water can flow into the third treatment tank 5 through the square groove 19, the liquid level in the third treatment tank 5 can be gradually increased along with the increasing clean water of the third treatment tank 5, at the moment, the clean water of the third treatment tank 5 can pass through the fixed filter cylinder 14 and the activated carbon in the third treatment tank 5, and the fine impurities in the third treatment tank 5 cannot pass through the filter holes of the fixed filter cylinder 14, so that the fine impurities in the third treatment tank 5 can be deposited in the right rotary filter cylinder 6, and the activated carbon can remove the organic matters in the water, Color, taste, the odor and some inorganic matters can finish the third treatment of the sewage, then the third treated clean water enters the fixed frame 15 through the second connecting pipe 20, the controller 2 can control the ultraviolet lamp 16 to start working, the ultraviolet lamp 16 can sterilize the clean water flowing through the inside of the fixed frame 15, the fourth treatment of the sewage can be finished, the fourth treated clean water can be discharged through the water outlet pipe 21 for the subsequent use in other places, the purpose of water recycling is achieved, the sewage recycling device can control the driving motor 11 to drive the rotating rod 9 to rotate through the controller 2 in the sewage treatment process, the rotating rod 9 can drive the rotating filter cylinder 6 to rotate through the meshing effect of the driving gear 10 and the tooth holes 601, the rotating filter cylinder 6 can drive the fixed inclined plate 7 to rotate, the fixed inclined plate 7 can drive the impurities deposited in the inside of the rotating filter cylinder 6 to rotate from bottom to top, and the impurities on the fixed inclined plate 7 cannot fall back to the first treatment tank 3 due to the inclined state of the fixed inclined plate 7, the second treatment tank 4 and the third treatment tank 5 are inside, until the fixed inclined plate 7 rotates to the upper side of the collecting frame 22, the impurities on the fixed inclined plate 7 can fall down into the collecting frame 22 due to gravity, at the moment, the spiral feeder 24 can be controlled by the controller 2 to start working, the spiral feeder 24 can convey the impurities in the collecting frame 22 to the left to the position of the blow-down pipe 23, and the impurities are discharged downwards through the blow-down pipe 23, so that the unified treatment is convenient, and therefore, the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5 do not need to be manually treated regularly, and the sewage recycling equipment does not need to be stopped, so that the sewage recycling equipment can continuously treat sewage, and the working efficiency is improved.

As shown in fig. 5 and 7, the device further comprises mounting rods 25, hollow pipes 26, air outlet frames 27, blowers 28 and air supply pipes 29, wherein the rear sides of the tops of the first treatment tank 3, the second treatment tank 4 and the third treatment tank 5 are connected with four mounting rods 25 in a total mode, the hollow pipes 26 are connected between the four mounting rods 25, three groups of strip-shaped holes 2601 are formed in the front lower side of each hollow pipe 26 from left to right at intervals, the number of each group of strip-shaped holes 2601 is three, three air outlet frames 27 are connected to the front lower side of each hollow pipe 26 from left to right at intervals, the rear ends of the air outlet frames 27 are aligned with the strip-shaped holes 2601 and are communicated, the three air outlet frames 27 are in one-to-one correspondence with the three rotary filter cartridges 6, the front ends of the air outlet frames 27 are in contact with the outer walls of the rotary filter cartridges 6, the blowers 28 are connected to the right rear sides of the tops of the third treatment tank 5, and the two ends of the air supply pipes 29 are respectively connected with the right ends of the hollow pipes 26 and air outlets of the blowers 28.

This sewage cyclic utilization equipment is at the in-process to sewage treatment, accessible controller 2 control air-blower 28 begins the work, air-blower 28 can blow to hollow tube 26 inside through blast pipe 29, the wind in the hollow tube 26 can blow off to the below forward through bar hole 2601 and air-out frame 27 in proper order, when fixed swash plate 7 rotates to collecting frame 22 top, the wind energy that air-out frame 27 front end blown off passes the filtration pore on the rotation filter cartridge 6 and blows off the impurity on the fixed swash plate 7 in collecting frame 22, auxiliary impurity's discharge work, and can prevent to rotate the filtration pore on the filter cartridge 6 and pile up because of the impurity and take place the jam.

As shown in fig. 5, 8 and 9, the utility model further comprises a connecting frame 30, a water collecting frame 31, a filter bag 32, a first electric push rod 33, a first connecting plate 34, a second electric push rod 35, a second connecting plate 36, a hydraulic cylinder 37, a pressing plate 38, a reflux component and a mud discharging component, wherein the left side of the first treatment tank 3 is connected with the connecting frame 30, the top and the bottom of the connecting frame 30 are both open-type, the bottom of the connecting frame 30 is connected with the water collecting frame 31, the filter bag 32 is arranged in the connecting frame 30, the upper end and the lower end of the filter bag 32 are both open-type, the peripheral edge of the upper end of the filter bag 32 is fixedly connected with the upper part of the inner wall of the connecting frame 30, the right side of the filter bag 32 is fixedly connected with the right side of the inner wall of the connecting frame 30, the middle part of the left side of the connecting frame 30 is connected with the first electric push rod 33 in a front-back symmetrical manner, the first connecting plate 34 is connected between the telescopic rods of the two first electric push rods 33, the first connecting plate 34 is positioned in the connecting frame 30, the right side of the first connecting plate 34 is fixedly connected with the middle part of the left side of the filter bag 32, the front and back symmetrical connection of the left lower part of the connecting frame 30 is provided with a second electric push rod 35, a second connecting plate 36 is connected between the telescopic rods of the two second electric push rods 35, the second connecting plate 36 is positioned inside the connecting frame 30, the right side of the second connecting plate 36 is fixedly connected with the left side of the lower end edge of the filter bag 32, the front and back symmetrical connection of the left lower part of the connecting frame 30 is provided with a hydraulic cylinder 37, the hydraulic cylinder 37 is positioned between the first electric push rod 33 and the second electric push rod 35, a pressing plate 38 is connected between the telescopic rods of the two hydraulic cylinders 37, the pressing plate 38 is positioned inside the connecting frame 30, the height of the pressing plate 38 is consistent with the distance between the first connecting plate 34 and the second connecting plate 36, the right side of the top and the right side of the bottom of the pressing plate 38 are subjected to chamfering treatment, the right side of the pressing plate 38 is contacted with the left side of the filter bag 32, the sludge discharge assembly is used for discharging the pressed sludge, and comprises a water suction pump 39, a water suction pipe 40 and a water discharge pipe 41, wherein the water suction pump 39 is arranged at the front side of the water collecting frame 31, the water suction pipe 40 is connected with the water inlet of the water suction pump 39, the lower end of the water suction pipe 40 penetrates through the lower front side of the water collecting frame 31, two ends of the water discharge pipe 41 are respectively communicated with water outlets of the water inlet pipe 17 and the water suction pump 39, the sludge discharge assembly comprises a guide plate 42, a rotary inclined plate 43, a servo motor 44 and a limiting plate 45, the upper right part of the inner wall of the water collecting frame 31 is connected with the guide plate 42, the rotary inclined plate 43 is rotatably connected to the left side of the inside of the water collecting frame 31, the guide plate 42 and the rotary inclined plate 43 are obliquely arranged in a left-right-and-high-inclined mode, the left end of the guide plate 42 is in contact with the right end of the rotary inclined plate 43, the servo motor 44 is arranged at the left part of the front side of the water collecting frame 31, an output shaft of the servo motor 44 is connected with the front end of the rotary shaft of the rotary inclined plate 43, and the limiting plate 45 is symmetrically connected to the left-and-back side limiting plate 45 is arranged at the left side of the top of the rotary inclined plate 43.

At first, the right end of the rotating inclined plate 43 is contacted with the left end of the guide plate 42, when the impurities in the collecting frame 22 are conveyed to the drain pipe 23 leftwards, the controller 2 controls the servo motor 44 to drive the rotating inclined plate 43 to rotate, so that the right end of the rotating inclined plate 43 is separated from the left end of the guide plate 42, meanwhile, the controller 2 controls the electric push rod 35 to drive the second connecting plate 36 to move rightwards, the second connecting plate 36 can drive the left side of the edge of the lower end of the filter bag 32 to move rightwards so as to seal the lower end of the filter bag 32, then the impurities in the drain pipe 23 can drop downwards into the filter bag 32, after a certain amount of impurities are filled in the filter bag 32, the controller 2 controls the first electric push rod 33 to drive the first connecting plate 34 to move rightwards, the first connecting plate 34 can drive the middle part of the left side of the filter bag 32 to move rightwards, the middle of the filter bag 32 is closed, the filter bag 32 is divided into an upper part and a lower part, the lower part of the inside of the filter bag 32 is filled with impurities, the impurities falling downwards in the drain pipe 23 are temporarily stored in the upper part of the inside of the filter bag 32, then the hydraulic cylinder 37 can be controlled by the controller 2 to drive the pressing plate 38 to move rightwards, the pressing plate 38 can squeeze the impurities in the lower part of the filter bag 32, so that the moisture in the impurities can fall downwards through the filter bag 32 and fall into the water collecting frame 31 through a gap between the guide plate 42 and the rotating inclined plate 43, and meanwhile, the controller 2 can control the water pump 39 to pump the water in the water collecting frame 31 through the water pumping pipe 40 and convey the water into the water inlet pipe 17 through the water discharging pipe 41, so that the water squeezed in the impurities can be reprocessed and utilized, and water resources are saved; the controller 2 can control the hydraulic cylinder 37 to drive the pressing plate 38 to move leftwards to reset and separate from the filter bag 32, meanwhile, the servo motor 44 can be controlled by the controller 2 to drive the rotary inclined plate 43 to reversely reset, so that the right end of the rotary inclined plate 43 is contacted with the left end of the guide plate 42 again, the second electric push rod 35 can be controlled by the controller 2 to drive the second connecting plate 36 to move left to reset, the left side of the edge of the lower end of the filter bag 32 can be driven by the second connecting plate 36 to move left to reset, so that the lower end of the filter bag 32 is opened, impurities squeezed by water in the lower half of the filter bag 32 can fall down to the top of the guide plate 42 and the rotary inclined plate 43 and slide left along the top of the guide plate 42, manual uniform collection is facilitated, then the servo motor 44 can be controlled by the controller 2 to drive the rotary inclined plate 43 to rotate, so that the right end of the rotary inclined plate 43 is separated from the left end of the guide plate 42, meanwhile, the second electric push rod 35 can be controlled by the controller 2 to drive the second connecting plate 36 to move right, so that the lower end of the filter bag 32 is resealed, then the first electric push rod 33 can be controlled by the controller 2 to drive the first electric push rod 34 to move left to reset, so that the middle of the filter bag 32 can be opened, and impurities temporarily stored in the upper half of the filter bag 32 can fall down to the lower half of the filter bag 32 at the moment, and the impurity can be dehydrated again.

As shown in fig. 1 and 10, the sewage treatment device further comprises a dustproof frame 46, a dustproof cover 47 and a filtering net cover 48, wherein the dustproof frame 46 is connected between the tops of the first treatment tank 3, the second treatment tank 4, the third treatment tank 5 and the connecting frame 30, the dustproof cover 47 is connected to the top of the dustproof frame 46, the filtering net cover 48 is connected to the right part of the rear side of the dustproof frame 46, and the filtering net cover 48 is positioned at the air inlet of the blower 28, and because the dust content of air in a construction site is large, the dustproof protection can be carried out on the interiors of the first treatment tank 3, the second treatment tank 4, the third treatment tank 5 and the connecting frame 30 through the cooperation of the dustproof frame 46 and the dustproof cover 47, and the filtering net cover 48 can filter the air entering the blower 28 so as to prevent dust from entering the interiors of the first treatment tank 3, the second treatment tank 4, the third treatment tank 5 and the connecting frame 30 through the blower 28, so as to ensure the sewage treatment effect.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention.

Claims

1. The utility model provides a sewage cyclic utilization equipment for building site, including half string car body (1), first processing pond (3), second processing pond (4) and third processing pond (5) are connected in half string car body (1) top side by side, a serial communication port, still including controller (2), rotary filter cartridge (6), fixed swash plate (7), installation piece (8), dwang (9), driving gear (10), driving motor (11), processing subassembly and clearance subassembly, first processing pond (3), second

The bottom is the cambered surface in processing pond (4) and third processing pond (5), controller (2) are installed at semi-mounted automobile body (1) top, three rotation strain section of thick bamboo (6) are placed respectively in first processing pond (3), second processing pond (4) and third processing pond (5) inside, and rotation strain section of thick bamboo (6) outer wall circumferential symmetry is opened there is tooth hole (601), fixed swash plate (7) circumferential connection is in rotating and is strained (6) inner wall, install piece (8) are connected respectively in first processing pond (3), second processing pond (4) and third processing pond (5) top, dwang (9) rotate and are connected on install piece (8), driving gear (10) symmetrical connection is on dwang (9), and driving gear (10) and tooth hole (601) meshing, driving motor (11) are connected in one of them installation piece (8) side, and the output shaft connection of dwang (9) tip and driving motor (11), processing assembly is used for carrying out fixed clearance subassembly (7) on first processing pond (3), second processing pond (4) and third processing pond (5).

2. The sewage recycling device for construction sites according to claim 1, wherein the treatment assembly comprises a mounting frame (12), a filter plate (13), a fixed filter cartridge (14), a fixed frame (15), an ultraviolet lamp (16), a water inlet pipe (17), a first connecting pipe (18), a second connecting pipe (20) and a water outlet pipe (21), the mounting frame (12) is connected to the inner wall of the second treatment tank (4), the mounting frame (12) is positioned in the middle of the rotating filter cartridge (6), round holes (1201) are spaced at the bottom of the mounting frame (12), the filter plate (13) is connected to the inner wall of the mounting frame (12) at intervals, the fixed filter cartridge (14) is connected to the inner wall of the third treatment tank (5), the fixed frame (15) is connected to the side surface of the third treatment tank (5), the ultraviolet lamp (16) is mounted on the inner wall of the fixed frame (15), the water inlet pipe (17) is connected to the first treatment tank (3), the first connecting pipe (18) is connected to the first treatment tank (3) and the second treatment tank (4), square grooves (19) are formed in the tops of the second treatment tank (4) and the third treatment tank (5), the two square grooves (19) are formed in the top of the third treatment tank (5), and the two square grooves (19) are communicated with the third treatment tank (15) respectively, the water outlet pipe (21) is connected to the bottom of the fixed frame (15).

3. The sewage recycling device for construction sites according to claim 2, wherein the cleaning assembly comprises a collecting frame (22), a sewage discharge pipe (23) and a screw feeder (24), the collecting frame (22) is connected between the tops of the first treatment tank (3), the second treatment tank (4) and the third treatment tank (5), the collecting frame (22) penetrates through the inside of the three rotary filter cartridges (6), the sewage discharge pipe (23) is connected to the side face of the collecting frame (22), the screw feeder (24) is arranged on the sewage discharge pipe (23), and a screw rod of the screw feeder (24) is positioned inside the collecting frame (22).

4. The sewage recycling device for the construction site according to claim 3, further comprising a mounting rod (25), a hollow tube (26), an air outlet frame (27), an air blower (28) and an air supply tube (29), wherein the mounting rod (25) is respectively connected to the tops of the first treatment tank (3), the second treatment tank (4) and the third treatment tank (5), the hollow tube (26) is connected to the mounting rod (25), strip-shaped holes (2601) are formed in the hollow tube (26) at intervals, the air outlet frame (27) is connected to the outer wall of the hollow tube (26) at intervals, the strip-shaped holes (2601) correspond to the air outlet frame (27), the air blower (28) is connected to the top of the third treatment tank (5), and the air supply tube (29) is connected to the hollow tube (26) and the air outlet of the air blower (28).

5. The apparatus of claim 4, further comprising a connection frame (30), a water collection frame (31), a filter bag (32), a first electric push rod (33), a first connection plate (34), a second electric push rod (35), a second connection plate (36), a hydraulic cylinder (37), a pressing plate (38), a backflow component and a sludge discharge component, wherein the connection frame (30) is connected to the side surface of the first treatment tank (3), the water collection frame (31) is connected to the bottom of the connection frame (30), the filter bag (32) is connected to the inner wall of the connection frame (30), the first electric push rod (33) is symmetrically connected to the connection frame (30), the first connection plate (34) is connected to the telescopic rod of the first electric push rod (33), the first connection plate (34) is connected to the side surface of the filter bag (32), the second electric push rod (35) is symmetrically connected to the connection frame (30), the second connection plate (36) is connected to the telescopic rod of the second electric push rod (35), the second connection plate (36) is connected to the side surface of the filter bag (32), the first connection plate (33) is symmetrically connected to the hydraulic cylinder (37) and the side surface of the pressing plate (38), the backflow component is used for conveying the water extruded after the sludge is pressed into the first treatment tank (3), and the sludge discharge component is used for discharging the pressed sludge.

6. The sewage recycling device for construction sites according to claim 5, wherein the backflow assembly comprises a water suction pump (39), a water suction pipe (40) and a water discharge pipe (41), the water suction pump (39) is arranged on the side face of the water collecting frame (31), the water suction pipe (40) is connected with the water inlets of the water collecting frame (31) and the water suction pump (39), and the water discharge pipe (41) is connected with the water inlet pipe (17) and the water outlet of the water suction pump (39).

7. The apparatus according to claim 6, wherein the sludge discharging assembly comprises a guide plate (42), a rotary inclined plate (43), a servo motor (44) and a limiting plate (45), the guide plate (42) is connected to the inner wall of the water collecting frame (31), the rotary inclined plate (43) is rotatably connected to the inside of the water collecting frame (31), the servo motor (44) is connected to the side surface of the water collecting frame (31), an output shaft of the servo motor (44) is connected to the end part of a rotary shaft of the rotary inclined plate (43), and the limiting plate (45) is symmetrically connected to the rotary inclined plate (43).

8. The equipment for recycling sewage for construction sites according to claim 7, further comprising a dustproof frame (46), a dustproof cover (47) and a filtering net cover (48), wherein the dustproof frame (46) is connected between the tops of the first treatment tank (3), the second treatment tank (4), the third treatment tank (5) and the connecting frame (30), the dustproof cover (47) is connected to the top of the dustproof frame (46), the filtering net cover (48) is connected to the dustproof frame (46), and the filtering net cover (48) is positioned at the air inlet of the blower (28).