JP6783977B1 - Sewage treatment equipment for the spinning industry - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a sewage treatment apparatus for a large-scale spinning industry. SOLUTION: A reaction tower and a first settling box are fixedly installed on the top surface of the main body including a main body, and the first settling box is located on the left side of the reaction tower and is inside the reaction tower. A reaction space opened upward is installed in the reaction space, and sewage can be poured into the reaction space, and a stirring mechanism capable of evenly stirring the sewage and the reactant is installed in the reaction space. A case is fixedly installed on the right side surface of the case, a liquid storage space opened upward is installed in the case, and a reactant can be stored in the liquid storage space. The sewage discharged from the large spinning industry can be used, the purified water after treatment can be recycled, the utilization rate of resources is increased, the cost of products is reduced, and the method of treating sewage is simple, convenient, and easy to operate. , The degree of automation of the device is high. [Selection diagram] Fig. 1

Description

The present invention relates to the field of sewage treatment technology, and is specifically a sewage treatment apparatus for the spinning industry.

Today, the large spinning industry remains one of the major sewage discharge industries. Sewage treatment is an essential part of environmental friendliness and resource conservation, but general factories have a single method of treating sewage, usually using a second settling basin and inside the settling basin. The Japanese reactants were added and the sewage was allowed to stand to form a precipitate, the efficiency of such a method was low, the reactants could not react sufficiently and there was still a large amount of sewage after treatment. And it cannot be recycled. A commercially available filter press can filter sewage, but it is generally complicated because it needs to be operated manually.

Chinese Patent Application Publication No. 105060525

It is an object of the present invention to provide a sewage treatment apparatus for the spinning industry and to eliminate the above-mentioned drawbacks in the existing technology.

The sewage treatment apparatus for the spinning industry in the embodiment of the present invention includes a main body, a reaction tower and a first settling box are fixedly installed on the top surface of the main body, and the first settling box is the reaction tower. A reaction space opened upward is installed in the reaction tower, and sewage can be poured into the reaction space, and the sewage and the reactant are evenly distributed in the reaction space. A stirring mechanism capable of stirring is installed, a case is fixedly installed on the right side surface of the reaction tower, a liquid storage space opened upward is installed in the case, and a reaction is performed in the liquid storage space. The agent can be stored, and the connecting space is installed so as to communicate between the liquid storage space and the reaction space, and the reactant in the liquid storage space is intermittently placed in the connecting space. A piston mechanism that can discharge into the space is installed, a motor space is installed in the main body, a first motor is fixedly installed on the bottom wall of the motor space, and the first motor is said to be transmitted through transmission. The stirring mechanism and the piston mechanism can be controlled, and a first settling pond opened upward is installed in the first settling box, and a settling mechanism is installed in the first settling pond. Can filter sewage after allowing sludge that has been evenly stirred in the reaction space to generate sediment, and a sewage space is installed under the motor space, and the sewage space is the stirring mechanism. Sewage and sludge, which are difficult to filter purified water, can be stored by the piston mechanism, and two symmetrical support columns are fixedly installed on the top surface of the main body, and the support columns are located on the right side of the reaction tower. A pressure filtration mechanism capable of pressurizing sludge and sludge stored in the sewage space is installed between the two support columns, and a control space opened upward is installed in the main body. Is installed, and a control mechanism capable of controlling and opening the pressure filtration mechanism is installed in the control space.

In a further technical plan, a support plate is fixedly installed on the left side surface of the reaction tower, a jacket is fixedly installed on the top surface of the support plate, and a sewage pipe is sandwiched in the jacket. The portion extending to the right of the sewage pipe extends into the reaction space, and the extending portion on the left side of the sewage pipe communicates with the sewage source.

In a further technical plan, the stirring mechanism includes a motor shaft, the bottom surface of the motor shaft is connected so as to be transmitted to the top surface of the first motor, and a portion extending above the motor shaft is the reaction space. A stirring rod is fixedly installed on the outer periphery of the portion extending inside and extending above the motor shaft, and a seal sleeve is fixedly installed on the bottom surface of the reaction space.

In a further technical plan, the piston mechanism includes a piston and is installed below the connected space so that a downwardly open slide space communicates with the piston so that the piston can slide on the inner wall of the slide space. The connected space is connected by a hinge to the lower side of the piston, a bent rod space opened upward is installed on the right side of the motor space, and the bent rod can rotate on the left wall of the bent rod space. The first umbrella gear is fixedly attached to the left side surface of the portion extending to the left of the bending rod extending into the motor space and extending to the left of the bending rod. A second umbrella gear is fixedly installed on the outer periphery of the motor shaft in the motor space, and the second umbrella gear meshes with the first umbrella gear and extends below the connected space. A portion extends into the bent rod space and is connected to the bent rod by a hinge.

In a further technical plan, a closure lid is installed on the top surface of the case so that it can rotate.

In a further technical plan, the settling mechanism includes a second settling basin fixedly installed on the bottom wall of the first settling basin, and the second settling basin contains a second settling basin that opens upward. The first valve is fixedly installed in the inner wall of the reaction tower so that the right side of the first valve communicates with the reaction space and the left side of the first valve communicates with a horizontal pipe. The left side of the horizontal pipe communicates with the second settling basin, and two symmetrical second valves are installed in the inner wall between the second settling basin and the first settling basin. , The second valve can communicate the second settling basin and the first settling basin.

In a further technical plan, a third valve is fixedly installed in the bottom wall of the reaction space, the upper side of the third valve communicates with the reaction space, and directly below the third valve. The pipes are connected so as to communicate with each other, the straight pipe communicates with the sewage space, a fourth valve is fixedly installed in the bottom wall of the second sedimentation pond, and the upper side of the fourth valve is the said. It communicates with the second settling pond, and a connecting pipe is connected to the lower side of the fourth valve so as to communicate with the sewage space.

In a further technical plan, the pressure filtration mechanism includes a slide column fixedly installed between the two support columns, and seven filter plates are installed on the outer periphery of the slide column so that they can slide. A filter is fixedly installed in the filter plate, catching grooves are formed on both the upper and lower sides of the filter plate, and two vertically symmetrical surfaces are formed on the right side surface of the filter plate located on the rightmost side. A portion that is installed so that the push-moving pillars come into contact with each other, and a portion extending to the right of the pushing-moving pillar penetrates the inner wall of the supporting pillar located on the right side and extends to the right of the pushing-moving pillar. A push-moving plate is fixedly installed on the right side surface of the pump, a hydraulic cylinder is fixedly installed on the right side surface of the support column located on the right side, and a hydraulic shaft is fixedly installed on the right side surface of the hydraulic cylinder. It is connected so that it can be transmitted, the right side surface of the hydraulic shaft is fixedly connected to the push-moving plate, a sewage pump is fixedly installed on the top surface of the main body, and the upper and lower sides of the sewage pump are fixedly connected. In each case, the water pump pipe is mounted so as to communicate with each other, and the portion extending to the right of the water pump pipe located on the upper side penetrates the inner wall of the support column located on the left side and the filter is located on the left side. The water pump pipe located on the lower side communicates with the plate and communicates with the sewage space, a storage space opened in the vertical direction is installed on the right side of the sewage space, and a closed door is installed on the lower side of the storage space. Is installed so that it can slide.

In a further technical plan, a storage space open to the left is installed on the left side of the sewage space, a water pump is fixedly installed on the bottom wall of the storage space, and both left and right sides of the water pump are fixedly installed. In each case, the drain pipes are installed so as to communicate with each other, the water pipes are attached to the lower side of the first settling box so as to communicate with each other, and the water absorption pipes are attached to the left wall of the storage space so as to communicate with each other. A portion extending below the water pipe extends into the storage space, a portion extending to the left of the water absorption pipe extends into the storage space, and is located on the right side of the water absorption pipe and the water pipe. A three-way pipe is fixedly attached to the drain pipe.

In a further technical plan, the control mechanism includes a second motor fixedly installed on the bottom wall of the control space, the bottom wall of the control space is installed so that a moving plate can slide, said second. A screw is connected to the right side surface of the motor so that it can be transmitted, and a portion extending to the right of the screw is connected so as to penetrate the inner wall of the moving plate and rotate with the right wall of the control space. The moving plate is fitted by the screw and the screw thread, two vertically symmetrical moving rods are fixedly installed on the left side surface of the moving plate, and the portion extending to the left of the moving rod is on the right side. A hinge pin is hinged to the rear side surface of the moving rod, penetrating the inner wall of the supporting column located, and a first spring is fixedly mounted between the right side surface of the hinge pin and the moving rod. A bottom plate is fixedly installed on the bottom surface of the hinge pin, a second spring is fixedly mounted between the bottom plate and the moving rod, and the hinge pin can be inserted into the catching groove.

The beneficial effects of the present invention are: The present invention can utilize the sewage discharged from the large-scale spinning industry to the maximum, can recycle the purified water after treatment, increase the utilization rate of resources, reduce the cost of products, and sewage. The method of processing is simple and convenient, it is easy to operate, and the degree of automation of the device is high. By operating the stirring mechanism and the piston mechanism in conjunction with each other, the sewage is sufficiently neutralized with the reactant in the process of stirring, the sewage is divided into layers at the first stage, and the clean liquid in the upper layer is separated by the sedimentation mechanism. Staged static sedimentation is possible, some purified water can be filtered, and the sewage remaining in the reaction space and the second sedimentation basin can be filtered by the pressurized filtration action of the pressurized filtration equipment, and the control mechanism is The filter plate can be opened automatically via the motor, saving power.

In order to explain the present invention in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic view of the entire internal configuration of the present invention. FIG. 2 is an enlarged schematic view of A in FIG. 1 of the present invention. FIG. 3 is an enlarged schematic view of B in FIG. 1 of the present invention. FIG. 4 is a schematic view of an operating state in which the control mechanism of the present invention controls the pressurized filtration mechanism.

With reference to FIGS. 1 to 4, the sewage treatment apparatus for the spinning industry in the embodiment of the present invention includes the main body 22, and the reaction tower 34 and the first settling box 14 are fixedly mounted on the top surface of the main body 22. The first settling box 14 is located on the left side of the reaction tower 34, and a reaction space 35 opened upward is installed in the reaction tower 34, and sewage is poured into the reaction space 35. A stirring mechanism 101 capable of evenly stirring sewage and the reactant is installed in the reaction space 35, and a case 39 is fixedly installed on the right side surface of the reaction tower 34, and the inside of the case 39. A liquid storage space 40 opened upward is installed in the liquid storage space 40, a reactant can be stored in the liquid storage space 40, and a connecting space 62 communicates between the liquid storage space 40 and the reaction space 35. A piston mechanism 102 capable of intermittently discharging the reactant in the liquid storage space 40 into the reaction space 35 is installed in the connecting space 62, and is installed in the main body 22. A motor space 45 is installed, a first motor 42 is fixedly installed on the bottom wall of the motor space 45, and the first motor 42 can control the stirring mechanism 101 and the piston mechanism 102 through transmission. A first settling pond 13 opened upward is installed in the first settling box 14, a settling mechanism 103 is installed in the first settling pond 13, and the settling mechanism 103 is in the reaction space 35. The sewage that has been evenly agitated in the above can be allowed to stand to generate sediment, and then the sewage can be filtered. A sewage space 27 is installed under the motor space 45, and the sewage space 27 is the agitation mechanism 101 and the above. The piston mechanism 102 can store sewage and sludge that are difficult to filter purified water, and two symmetrical support columns 50 are fixedly installed on the top surface of the main body 22, and the support columns 50 are used in the reaction tower 34. A pressure filtration mechanism 104, which is located on the right side and can perform pressure filtration on sludge and sludge stored in the sewage space 27, is installed between the two support columns 50, and is inside the main body 22. A control space 60 opened upward is installed, and a control mechanism 105 capable of controlling and opening the pressure filtration mechanism 104 is installed in the control space 60.

Further, in one embodiment, the support plate 31 is fixedly installed on the left side surface of the reaction tower 34, and the jacket 32 is fixedly installed on the top surface of the support plate 31, and the inside of the jacket 32. A sewage pipe 33 is sandwiched between the sewage pipes 33, and a portion extending to the right of the sewage pipe 33 extends into the reaction space 35, and a portion extending to the left side of the sewage pipe 33 communicates with a sewage source. The sewage can be poured into the reaction space 35 through the sewage pipe 33.

Further, in one embodiment, the stirring mechanism 101 includes a motor shaft 37, is connected so that the bottom surface of the motor shaft 37 can be transmitted to the top surface of the first motor 42, and extends above the motor shaft 37. A stirring rod 38 is fixedly installed on the outer periphery of the portion extending into the reaction space 35 and extending above the motor shaft 37, and a seal sleeve 36 is provided on the bottom surface of the reaction space 35. Is fixedly installed,
By the operation of the first motor 42, the motor shaft 37 rotates and interlocks the stirring rod 38, whereby the stirring rod 38 has a stirring function and the seal sleeve 36 can perform a sealing action.

Further, in one embodiment, the piston mechanism 102 includes a piston 64, is installed below the connected space 62 so as to communicate with a slide space 63 opened downward, and the piston 64 communicates with the slide space 63. The connecting space 62 is connected by a hinge under the piston 64, and a bending rod space 47 opened upward is installed on the right side of the motor space 45, so that the bending can be performed. A bent rod 77 is installed on the left wall of the rod space 47 so that the bent rod 77 can rotate, and a portion extending to the left of the bent rod 77 extends into the motor space 45 and to the left of the bent rod 77. The first umbrella gear 44 is fixedly installed on the left side surface of the extending portion, and the second umbrella gear 43 is fixedly installed on the outer periphery of the motor shaft 37 in the motor space 45. The two umbrella gear 43 meshes with the first umbrella gear 44, and a portion extending below the connecting space 62 extends into the bending rod space 47 and is connected to the bending rod 77 by a hinge.
By the operation of the first motor 42, the motor shaft 37 is rotationally interlocked with the bending rod 77, whereby the connecting space 62 can intermittently move and interlock the piston 64 up and down, and the liquid storage. The reactant in the space 40 can be intermittently discharged into the reaction space 35.

Further, in one embodiment, the closing lid 41 is installed on the top surface of the case 39 so as to be rotatable.
The liquid storage space 40 can be sealed through the closing lid 41.

Further, in one embodiment, the settling mechanism 103 includes a second settling box 23 fixedly installed on the bottom wall of the first settling basin 13, and the second settling box 23 is opened upward. The second settling basin 24 was installed, the first valve 30 was fixedly installed in the inner wall of the reaction tower 34, the right side of the first valve 30 communicated with the reaction space 35, and the first valve 30 was installed. A horizontal pipe 25 is connected to the left side of the valve 30 so as to communicate with each other, and the left side of the horizontal pipe 25 communicates with the second settling basin 24, between the second settling basin 24 and the first settling basin 13. Two symmetrical second valves 12 are installed in the inner wall of the above, and the second valve 12 can communicate the second settling basin 24 and the first settling basin 13.
By opening the first valve 30, the liquid on the upper side in the reaction space 35 can be discharged into the second settling basin 24, and after the liquid is allowed to settle in the second settling basin 24. , The second valve 12 can be opened, whereby the pure liquid on the upper side in the second settling basin 24 can be discharged into the first settling basin 13.

Further, in one embodiment, the third valve 29 is fixedly installed in the bottom wall of the reaction space 35, the upper side of the third valve 29 communicates with the reaction space 35, and the third valve A straight pipe 28 is connected to the lower side of the 29 so as to communicate with the straight pipe 28, the straight pipe 28 communicates with the sewage space 27, and a fourth valve 11 is fixed in the bottom wall of the second sedimentation pond 24. The upper side of the fourth valve 11 communicates with the second settling pond 24, the connecting pipe 26 communicates with the lower side of the fourth valve 11, and the connecting pipe 26 communicates with the sewage. It communicates with space 27 and
By opening the third valve 29, the sewage remaining in the reaction space 35 can be discharged into the sewage space 27, and by opening the fourth valve 11, the sewage remaining in the reaction space 35 can be discharged into the second sedimentation basin 24. The remaining sewage can be discharged into the sewage space 27.

Further, in one embodiment, the pressure filtration mechanism 104 includes a slide column 71 fixedly installed between the two support columns 50, and seven filter plates 67 are formed on the outer periphery of the slide column 71. The filter 66 is fixedly installed in the filter plate 67 so as to be slidable, and catching grooves 68 are formed on both the upper and lower sides of the filter plate 67, and the filter located on the far right side. Two vertically symmetrical push-moving columns 70 are installed on the right side surface of the plate 67 so as to abut, and a portion extending to the right of the pushing-moving column 70 penetrates the inner wall of the support column 50 located on the right side. A push-moving plate 55 is fixedly installed on the right side surface of the portion extending to the right of the push-moving pillar 70, and a hydraulic cylinder 53 is placed on the right side surface of the support pillar 50 located on the right side. It is fixedly installed, and the hydraulic shaft 56 is fixedly connected to the right side surface of the hydraulic cylinder 53 so that the hydraulic shaft 56 can be transmitted, and the right side surface of the hydraulic shaft 56 is fixedly connected to the push-moving plate 55. A sewage pump 48 is fixedly installed on the top surface of the main body 22, and water pump pipes 49 are mounted on both the upper and lower sides of the sewage pump 48 so as to communicate with each other, and the water pump pipe 49 located on the upper side. The portion extending to the right penetrates the inner wall of the support column 50 located on the left side and communicates with the filter plate 67 located on the left side, and the water pump pipe 49 located on the lower side penetrates the sewage space 27. A storage space 51 opened in the vertical direction is installed on the right side of the sewage space 27, and a closed door 52 is mounted on the lower side of the storage space 51 so as to slide.
By the operation of the sewage pump 48, the sewage in the sewage space 27 can be transported into the filter-plate 67, and by the operation of the hydraulic cylinder 53, the push-moving plate 55 interlocks with the push-moving pillar 70. The six filter plates 67 can be pushed, whereby the sewage in the filter plate 67 can be pressure-filtered to extrude purified water, and the purified water can be discharged into the storage space 51.

Further, in one embodiment, a storage space 21 opened to the left is installed on the left side of the sewage space 27, and a water pump 20 is fixedly installed on the bottom wall of the storage space 21. Drain pipes 19 are installed on both the left and right sides of the 20 so as to communicate with each other, and water pipes 18 are installed under the first settling box 14 so as to communicate with each other, and on the left wall of the storage space 51. The water absorption pipe 16 is mounted so as to communicate with each other, a portion extending below the water pipe 18 extends into the storage space 21, and a portion extending to the left of the water absorption pipe 16 is inside the storage space 21. A three-way pipe 17 is fixedly mounted between the water suction pipe 16 and the water pipe 18 and the drain pipe 19 located on the right side.
By the operation of the water pump 20, the purified water filtered from the first settling basin 13 and the storage space 51 is sucked out from the apparatus of the present invention and discharged through the drain pipe 19.

Further, in one embodiment, the control mechanism 105 includes a second motor 59 fixedly installed on the bottom wall of the control space 60 so that the moving plate 57 can slide on the bottom wall of the control space 60. The screw 61 is connected to the right side surface of the second motor 59 so that the screw 61 can be transmitted, and a portion extending to the right of the screw 61 penetrates the inner wall of the moving plate 57 and the control space. It is rotatably connected to the right wall of 60, the moving plate 57 is fitted with the screw 61 by a screw thread, and two vertically symmetrical moving rods 58 are fixedly installed on the left side surface of the moving plate 57. A portion extending to the left of the moving rod 58 penetrates the inner wall of the support column 50 located on the right side, and a hinge pin 73 is connected to the rear side surface of the moving rod 58 with a hinge to form the hinge pin 73. A first spring 72 is fixedly mounted between the right side surface and the moving rod 58, and a bottom plate 74 is fixedly installed on the bottom surface of the hinge pin 73, and between the bottom plate 74 and the moving rod 58. A second spring 75 is fixedly attached to the hinge pin 73, and the hinge pin 73 can be inserted into the catching groove 68.
When the moving plate 57 can be moved to the left by the operation of the second motor 59, whereby the hinge pin 73 is inserted into the catching groove 68, and the second motor 59 rotates in the opposite direction, the said. The moving rod 58 pulls the filter-plate 67 to open it to the right, whereby the sludge filtered under pressure is discharged into the storage space 51, and the sludge is opened by opening the closing door 52. It can be discharged from the device of the invention.

When using the apparatus of the present invention, sewage is poured into the reaction space through the sewage pipe 33, and the operation of the first motor 42 causes the motor shaft 37 to rotate and interlock the stirring rod 38, whereby the stirring rod 38 is rotated. The seal sleeve 36 has a function of stirring, and the operation of the first motor 42 causes the motor shaft 37 to rotate and interlock the bending rod 77, whereby the connecting space 62 intermittently connects the piston 64. The reactant in the liquid storage space 40 can be intermittently discharged into the reaction space 35, and by opening the first valve 30, it is located on the upper side in the reaction space 35. The liquid can be discharged into the second settling basin 24, and after the liquid has settled statically in the second settling basin 24, the second valve 12 is opened, thereby purifying the upper side in the second settling basin 24. Liquid can be discharged into the first settling basin 13, and by opening the third valve 29, the sewage remaining in the reaction space 35 can be discharged into the sewage space 27, and by opening the fourth valve 11. , The sewage remaining in the second settling basin 24 can be discharged into the sewage space 27, and the sewage in the sewage space 27 can be transported into the filter plate 67 by the operation of the sewage pump 48, and the hydraulic cylinder. By the operation of 53, the push-moving plate 55 pushes and moves the pillar 70 to push the six filter plates 67, thereby performing pressure filtration on the sewage in the filter plate 67 to push out purified water and store the purified water. The purified water that can be discharged into the space 51 and has been filtered from the first settling basin 13 and the storage space 51 by the operation of the water pump 20 is sucked out from the apparatus of the present invention and discharged through the drain pipe 19. By the operation of the second motor 59, the moving plate 57 can be moved to the left, whereby the hinge pin 73 is inserted into the catching groove 68, and when the second motor 59 rotates in the opposite direction, the moving rod 58 filters. By pulling the plate 67 to open it to the right, the pressure-filtered hedro is discharged into the storage space 51, and the closed door 52 is opened, the hedro can be discharged from the apparatus of the present invention.

The beneficial effects of the present invention are: The present invention can utilize the sewage discharged from the large-scale spinning industry to the maximum, can recycle the purified water after treatment, increase the utilization rate of resources, reduce the cost of products, and sewage. The method of processing is simple and convenient, it is easy to operate, and the degree of automation of the device is high. By operating the stirring mechanism and the piston mechanism in conjunction with each other, the sewage is sufficiently neutralized with the reactant in the process of stirring, the sewage is divided into layers at the first stage, and the clean liquid in the upper layer is separated by the sedimentation mechanism. Staged static sedimentation is possible, some purified water can be filtered, and the sewage remaining in the reaction space and the second sedimentation basin can be filtered by the pressurized filtration action of the pressurized filtration equipment, and the control mechanism is The filter plate can be opened automatically via the motor, saving power.

Those skilled in the art can make various modifications to the above embodiments as long as they do not depart from the general spirit and concept of the present application. All of these variants should be covered within the scope of protection of this application. The protection plan of this application should be based on the claims of the patent attached to this application.

Claims (7)

A reaction tower and a first settling box are fixedly installed on the top surface of the main body including the main body, and the first settling box is located on the left side of the reaction tower and is located upward in the reaction tower. An open reaction space is installed, sewage can be poured into the reaction space, and a stirring mechanism capable of evenly stirring the sewage and the reactant is installed in the reaction space on the right side surface of the reaction tower. The case is fixedly installed, a liquid storage space opened upward is installed in the case, and a reactant can be stored in the liquid storage space, and the liquid storage space and the reaction space can be stored. A connecting space is installed so as to communicate with each other, and a piston mechanism capable of intermittently discharging the reactant in the liquid storage space into the reaction space is installed in the connected space, and the main body of the main body is installed. A motor space is installed inside, a first motor is fixedly installed on the bottom wall of the motor space, and the first motor can control the stirring mechanism and the piston mechanism through transmission.
A first settling pond opened upward is installed in the first settling box, a settling mechanism is installed in the first settling pond, and the settling mechanism is uniformly agitated in the reaction space. The sludge can be filtered after the sludge is allowed to stand to generate sediment, and a sewage space is installed under the motor space. The sewage space is difficult to filter purified water by the stirring mechanism and the piston mechanism. Sewage and sludge can be stored, two symmetrical support columns are fixedly installed on the top surface of the main body, the support column is located on the right side of the reaction tower, and between the two support columns. A pressure filtration mechanism capable of pressure filtration of sewage and sludge stored in the sewage space is installed, a control space opened upward is installed in the main body, and a control space opened upward is installed in the control space. A control mechanism that can control and open the pressure filtration mechanism is installed.
The pressure filtration mechanism includes a slide column fixedly installed between the two support columns, and seven filter plates are installed on the outer periphery of the slide column so as to be slidable in the filter plate. The filter is fixedly installed, catching grooves are formed on both the upper and lower sides of the filter plate, and two vertically symmetrical pushing columns are in contact with the right side surface of the filter plate located on the far right side. The portion extending to the right of the pushing-moving pillar penetrates the inner wall of the supporting pillar located on the right side, and is pushed to the right side of the portion extending to the right of the pushing-moving pillar. A moving plate is fixedly installed, a hydraulic cylinder is fixedly installed on the right side surface of the support column located on the right side, and a hydraulic pressure shaft is connected to the right side surface of the hydraulic cylinder so that the hydraulic shaft can be transmitted. , The right side surface of the hydraulic shaft is fixedly connected to the push-moving plate, a sewage pump is fixedly installed on the top surface of the main body, and water pump pipes are installed on both upper and lower sides of the sewage pump. It is mounted so as to communicate with each other, and the portion extending to the right of the water pump pipe located on the upper side penetrates the inner wall of the support column located on the left side and communicates with the filter plate located on the left side. The water pump pipe located on the side communicates with the sewage space, a storage space opened in the vertical direction is installed on the right side of the sewage space, and a closed door is attached to the lower side of the storage space so that it can slide. Being done
A storage space opened to the left is installed on the left side of the sewage space, a water pump is fixedly installed on the bottom wall of the storage space, and drain pipes are connected to both the left and right sides of the water pump. The water pipe is mounted on the lower side of the first settling box so as to communicate with the water pipe, and the water suction pipe is mounted on the left wall of the storage space so as to communicate with the water pipe. The portion extending into the storage space and the portion extending to the left of the water absorption pipe extend into the storage space, and between the water absorption pipe, the water pipe, and the drain pipe located on the right side. A three-way pipe is fixedly attached to the
The control mechanism includes a second motor fixedly installed on the bottom wall of the control space, is installed on the bottom wall of the control space so that a moving plate can slide, and is installed on the right side surface of the second motor. The screws are connected so that they can be transmitted, and the portion extending to the right of the screw penetrates the inner wall of the moving plate and is connected so as to be rotatable with the right wall of the control space, and the moving plate is connected to the screw. Two vertically symmetrical moving rods are fixedly installed on the left side surface of the moving plate, and the portion extending to the left of the moving rod is located on the right side of the support column. A hinge pin is hinged to the rear side surface of the moving rod, penetrating the inner wall, and a first spring is fixedly mounted between the right side surface of the hinge pin and the moving rod, and is attached to the bottom surface of the hinge pin. For the spinning industry, the bottom plate is fixedly installed, a second spring is fixedly mounted between the bottom plate and the moving rod, and the hinge pin can be inserted into the catching groove. Sewage treatment equipment. A support plate is fixedly installed on the left side surface of the reaction tower, a jacket is fixedly installed on the top surface of the support plate, and a sewage pipe is sandwiched and mounted in the jacket. The spinning industry according to claim 1, wherein a portion extending to the right of the pipe extends into the reaction space, and a portion extending to the left of the sewage pipe communicates with a sewage source. Sewage treatment equipment. The stirring mechanism includes a motor shaft, and the bottom surface of the motor shaft is connected so as to be transmitted to the top surface of the first motor, and a portion extending above the motor shaft extends into the reaction space and The second aspect of claim 2, wherein a stirring rod is fixedly installed on the outer periphery of a portion extending above the motor shaft, and a seal sleeve is fixedly installed on the bottom surface of the reaction space. Sewage treatment equipment for the spinning industry. The piston mechanism includes a piston, and is installed below the connected space so that a slide space opened downward communicates with the piston mechanism, and the piston is installed so as to slide on the inner wall of the slide space. The connected space is connected by a hinge on the side, a bent rod space opened upward is installed on the right side of the motor space, and the bent rod is installed on the left wall of the bent rod space so that the bent rod can rotate. The portion extending to the left of the bending rod extends into the motor space, and the first umbrella gear is fixedly installed on the left side surface of the portion extending to the left of the bending rod, and the motor space is provided. A second umbrella gear is fixedly installed on the outer periphery of the motor shaft in the inside, the second umbrella gear meshes with the first umbrella gear, and a portion extending below the connected space is the bending rod space. The sewage treatment apparatus for the spinning industry according to claim 3, wherein the sewage treatment apparatus extends into the space and is connected to the bending rod by a hinge. The sewage treatment apparatus for the spinning industry according to claim 4, wherein a closing lid is installed on the top surface of the case so as to be rotatable. The settling mechanism includes a second settling basin fixedly installed on the bottom wall of the first settling basin, and a second settling basin opened upward is installed in the second settling basin. The first valve is fixedly installed in the inner wall of the first valve, the right side of the first valve communicates with the reaction space, and the left side of the first valve is connected so as to communicate with a horizontal pipe. The left side of the pipe communicates with the second settling basin, and two symmetrical second valves are installed in the inner wall between the second settling basin and the first settling basin. The sewage treatment apparatus for the spinning industry according to claim 1, wherein the second settling basin and the first settling basin can be communicated with each other. A third valve is fixedly installed in the bottom wall of the reaction space so that the upper side of the third valve communicates with the reaction space and the straight pipe communicates with the lower side of the third valve. Connected, the straight pipe communicates with the sewage space, a fourth valve is fixedly installed in the bottom wall of the second sedimentation pond, and the upper side of the fourth valve communicates with the second sedimentation pond. The sewage treatment for the spinning industry according to claim 6, wherein a connecting pipe is connected to the lower side of the fourth valve so as to communicate with the connecting pipe, and the connecting pipe communicates with the sewage space. apparatus.

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