CN116531947A - Industrial waste water recycling treatment device - Google Patents

Abstract

The invention discloses an industrial wastewater recycling treatment device, which comprises a wastewater recycling processor, wherein the wastewater recycling processor comprises a carrying bottom plate, a carrying vertical plate is fixedly connected to the top surface of the carrying bottom plate, and a shielding transverse plate is fixedly arranged on the top surface of the carrying vertical plate; the pulling force to the right is applied to the target wastewater treatment assembly through the shifting assembly, so that the target wastewater treatment assembly shifts to the right, when the target wastewater treatment assembly shifts to the right, the water injection assembly can stop wastewater from entering the target wastewater treatment assembly, meanwhile, the target wastewater treatment assembly is communicated with the pressurizing assembly through the converting assembly, purified water can be drawn by the pressurizing assembly and reversely driven into the target wastewater treatment assembly, the backflushing effect is achieved, the target wastewater treatment assembly is poked and blocked, manual control is not needed, time and labor are saved, the pertinence is high, the normal working wastewater treatment assembly is not interfered, the wastewater recycling is not delayed, and the practicability of the industrial wastewater recycling treatment device is improved.

Description

Industrial waste water recycling treatment device

Technical Field

The invention relates to the field of wastewater treatment equipment, in particular to an industrial wastewater recycling treatment device.

Background

In recent years, with the increasing strictness of environmental protection supervision, environmental protection policies put forward restrictions on industrial wastewater discharge standards and total wastewater discharge, meanwhile, enterprises are encouraged to adopt various water-saving technologies, demands on industrial fresh water are reduced, and competitiveness is improved, so that wastewater discharged from factories is recycled, zero wastewater discharge is realized, the long-term development of enterprises is facilitated, reverse osmosis equipment is needed in an industrial wastewater recycling treatment system, the working principle of the reverse osmosis equipment is to apply a certain pressure to water, water molecules and ionic mineral elements pass through a reverse osmosis membrane, and most inorganic salts, organic matters, bacteria, viruses and the like dissolved in the water cannot permeate the reverse osmosis membrane, so that permeated pure water and permeated concentrated water are strictly separated.

The existing reverse osmosis equipment is composed of a support, a plurality of filter elements, a pipeline system, a booster pump and the like, when the reverse osmosis equipment is used, waste water passes through the filter elements through the pipeline system under the action of the booster pump, the purification effect is achieved, when the filter elements are blocked, each valve is manually controlled, purified water reversely flows and backflushes the filter elements, the effect of cleaning and blocking is achieved, however, too many manually controlled valves are needed, the operation difficulty is high, misoperation is easy, the blocked filter elements cannot be cleaned in a targeted mode, the waste water treatment process is required to be interrupted and all the filter elements are cleaned together in each cleaning, and the waste water recycling is delayed.

Disclosure of Invention

1. Technical problem to be solved

The invention aims at solving the problems that the prior reverse osmosis equipment in the prior art consists of a bracket, a plurality of filter elements, a pipeline system, a booster pump and the like, when the reverse osmosis equipment is used, waste water passes through the filter elements through the pipeline system under the action of the booster pump to achieve the purification effect, when the filter elements are blocked, each valve is manually controlled to enable purified water to reversely flow and back flow to the filter elements to achieve the effect of cleaning blocking, but the valves which are manually controlled are too many, the operation difficulty is high, the operation is easy to miss, the blocked filter elements cannot be cleaned in a targeted way, the waste water treatment process is required to be interrupted every time, all the filter elements are cleaned together, and the waste water recycling is delayed.

2. Technical proposal

In order to solve the problems, the invention adopts the following technical scheme.

An industrial wastewater recycling treatment device comprises a wastewater recycling treatment device, the wastewater recycling treatment device comprises a carrying bottom plate, a carrying vertical plate is fixedly connected to the top surface of the carrying bottom plate, a shielding transverse plate is fixedly arranged on the top surface of the carrying vertical plate, a wastewater injection flat pipe, a reuse water concentration pipe and a pollutant discharge pipe are fixedly connected between the carrying bottom plate and the shielding transverse plate, a rake-shaped wastewater pipe is communicated with the wastewater injection flat pipe, a rake-shaped recycling pipe is communicated with the reuse water concentration pipe, a rake-shaped pollutant collection pipe is communicated with the pollutant discharge pipe, a rear water quality probe is arranged on a main pipeline of the rake-shaped pollutant collection pipe, an intelligent controller is arranged on the top surface of the carrying bottom plate, a shifting assembly is arranged on the carrying vertical plate and comprises a shifting collar which is fixedly inserted on the carrying vertical plate, a wastewater treatment assembly is arranged inside the shifting collar, the waste water treatment assembly comprises a waste water treatment column, the waste water treatment column is slidably inserted into the inner part of a shifting collar, the left end of the waste water treatment column is provided with a water injection assembly, the water injection assembly comprises a water injection pipe, the water injection pipe is fixedly connected between a waste water injection flat pipe and the waste water treatment column, the right end of the waste water treatment column is provided with a conversion assembly, the conversion assembly comprises a shifting cylinder, the shifting cylinder is connected between a reuse water collecting pipe and the waste water treatment column, the outer part of the shifting cylinder is fixedly sleeved with a sealing cylinder, the right end of the sealing cylinder is connected with a constant pressure flat pipe, the constant pressure flat pipe is fixedly connected between a carrying bottom plate and a shielding transverse plate, the outer part of the waste water treatment column is provided with two flushing assemblies, the flushing assembly comprises a flushing column, a flushing through hole is formed on the flushing column, the waste water treatment column is slidably inserted into the flushing through hole, the flushing column is connected with a flow conveying pipe, the utility model provides a wash delivery pipe that post corresponds and pollutant discharge tube connection, is equipped with buckle mechanism on the left end of waste water treatment post, buckle mechanism includes the cone, and the cone is fixed to be cup jointed in the outside of waste water treatment post, be equipped with the pressure boost subassembly on the constant voltage flat tube, the pressure boost subassembly includes rake type water distribution pipe, rake type water distribution pipe and rake type retrieval and utilization pipe intercommunication, the pressure boost subassembly still includes the butt joint return bend, and the butt joint return bend communicates with the delivery pipe that another washing post corresponds, the outside of waste water treatment post still is equipped with the restorer, the restorer includes the reset plate, and the outside at waste water treatment post is cup jointed in the reset plate slip.

Preferably, the shifting assembly further comprises a shifting spring, wherein the shifting spring is fixedly connected to the left side face of the shifting collar, a shifting plug pin is fixedly connected to the left end of the shifting spring, and the shifting plug pin is fixedly connected to the surface of the wastewater treatment column.

Preferably, the waste water treatment assembly further comprises a waste water treatment cavity, the waste water treatment cavity is arranged in the waste water treatment column, a filter element slot positioned in the middle of the waste water treatment cavity is arranged on the left side face of the inner cavity of the waste water treatment cavity, an integrated filter element is inserted in the filter element slot in a sliding mode, a centering sleeve is sleeved outside the integrated filter element in a sliding mode, the centering sleeve is fixedly inserted on the right side face of the waste water treatment column, and a built-in water permeable pipe is arranged on the right end face of the integrated filter element.

Preferably, the water injection assembly further comprises an electronic flowmeter and a cylindrical cavity, the electronic flowmeter is arranged on a pipeline of the water injection pipe, the cylindrical cavity is formed in the wastewater treatment column and located at the left end of the wastewater treatment column, a conical cavity is formed in the left side face of the inner cavity of the cylindrical cavity, a frustum-shaped cylinder is arranged in the conical cavity, the right end of the water injection pipe extends to the inner portion of the conical cavity and is fixedly communicated with the frustum-shaped cylinder, a sealing taper sleeve is fixedly sleeved on the outer surface of the frustum-shaped cylinder, a water permeable through hole is formed in the sealing taper sleeve and is communicated with the frustum-shaped cylinder, and a water delivery channel is formed in the right side face of the inner cavity of the cylindrical cavity and is communicated with the wastewater treatment cavity.

Preferably, the transformation assembly further comprises an assembly column, an inner thread groove is formed in the left end face of the assembly column, the centering sleeve is movably inserted into the inner portion of the inner thread groove and is in threaded fit with the inner thread groove, an insertion through hole is formed in the right side face of the inner cavity of the inner thread groove, the built-in water permeable pipe is slidably inserted into the insertion through hole, a U-shaped channel is formed in the assembly column, the U-shaped channel is communicated with the insertion through hole, a transfer cavity is formed in the assembly column, the transfer cavity is communicated with the U-shaped channel, a cylindrical sealing groove is formed in the left side face of the inner cavity of the transfer cavity, the shifting cylinder is movably inserted into the assembly column and is movably inserted into the cylindrical sealing groove, a backwater through hole is formed in the shifting cylinder, the backwater through hole is communicated with the transfer cavity, a through hole is formed in the right side face of the inner cavity of the transfer cavity, the sealing cylinder is slidably inserted into the through hole, and a backflushing through hole is formed in the sealing cylinder.

Preferably, the flushing assembly further comprises a flushing ring groove which is formed in the inner wall of the flushing through hole and located at the right end of the flushing ring groove, and the flushing assembly further comprises an overflow through hole which is formed in the surface of the wastewater treatment column and is communicated with the wastewater treatment cavity.

Preferably, the buckle mechanism further comprises a buckle spring strip, the buckle spring strip is fixedly connected to the right side face of the wastewater injection flat tube, a buckle triangular block located at the right end of the buckle spring strip is fixedly connected to the top face of the buckle spring strip, and the buckle triangular block is in one-way engagement with the conical piece.

Preferably, the device further comprises an extension cross bar, wherein the extension cross bar is fixedly connected to the right side face of the wastewater injection flat tube, an electromagnetic bolt is fixedly connected to the bottom face of the extension cross bar, and the bottom end of the electromagnetic bolt is aligned with the buckle elastic bar.

Preferably, the pressurizing assembly further comprises a front water quality probe, the front water quality probe is fixedly arranged on a main pipeline on the rake-type water distribution pipe, the pressurizing assembly further comprises a pressurizing pump, the pressurizing pump is communicated with the end part of the rake-type water distribution pipe, the pressurizing pump is arranged on the top surface of the carrying bottom plate, a dip tube is communicated with the pressurizing pump, the dip tube is communicated with the main pipeline on the rake-type recycling pipe, the pressurizing assembly further comprises a butt joint elbow pipe, the butt joint elbow pipe is communicated with the sealing barrel, the other end of the butt joint elbow pipe is communicated with an assembling elbow pipe through a quick connector, the other end of the assembling elbow pipe is communicated with a delivery pipe corresponding to another flushing column, a reinforcing wallboard is fixedly connected to the outside of the assembling elbow pipe, and the reinforcing wallboard is fixedly connected between the carrying bottom plate and the shielding transverse plate.

Preferably, the restorer further comprises two electric telescopic rods and a restoring check ring, wherein the two electric telescopic rods are respectively arranged on the object carrying bottom plate and the shielding transverse plate, the end parts of the electric telescopic rods are fixedly connected to the left side face of the restoring plate, and the restoring check ring is fixedly sleeved on the outer part of the wastewater treatment column and is positioned on the left side of the restoring plate.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

1. through the waste water recycling treater, make waste water can flow in the inside of waste water treatment subassembly, and then make waste water treatment subassembly can carry out purification treatment to waste water, can carry out real-time monitoring to waste water treatment subassembly's jam condition through the water injection subassembly, when waste water treatment subassembly blocks up seriously, buckle mechanism can release the waste water treatment subassembly that blocks up, apply the pulling force to the right for target waste water treatment subassembly through the drunkenness subassembly, make target waste water treatment subassembly drunkenness right, target waste water treatment subassembly drunkenness right when the drunkenness finishes, the water injection subassembly can terminate waste water and get into target waste water treatment subassembly, simultaneously transform the subassembly and communicate target waste water treatment subassembly and booster assembly, can draw the purified water through the booster assembly and with its reverse drive target waste water treatment subassembly in, play the effect of recoil, be used for stabbing the target waste water treatment subassembly and block up, need not delay manual control, labour saving and time saving, the pertinence is strong, can not interfere normal work's waste water treatment subassembly, can not mistake waste water recycling, the practicality of this industry waste water recycling treatment device has been improved.

2. Can apply thrust to the inside concentrated water of waste water treatment subassembly through the pressure boost subassembly, promote concentrated water to discharge fast, reduce the clearance and disclose stifled time, help increasing waste water treatment efficiency, can be automatic with concentrated water discharge through flushing the subassembly, do not need manual operation, labour saving and time saving can apply thrust left to the waste water treatment subassembly that the clearance is good through the restorer, make waste water treatment subassembly automatic input waste water treatment work, improved this industrial waste water recycling processing apparatus's practicality.

Drawings

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

FIG. 2 is a schematic view showing the internal structure of the wastewater treatment assembly of FIG. 1 according to the present invention;

FIG. 3 is a schematic view illustrating an internal structure of the water injection assembly of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the internal structure of the conversion assembly of FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the latch mechanism of FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the internal structure of the isopipe of FIG. 1 according to the present invention;

FIG. 7 is a schematic view of the flush assembly of FIG. 1 according to the present invention;

fig. 8 is a schematic view of the internal structure of fig. 7 according to the present invention.

The reference numerals in the figures illustrate:

1. a wastewater reuse processor; 11. a loading bottom plate; 12. a load bearing riser; 13. a shielding cross plate; 14. waste water is injected into the flat pipe; 15. rake type waste pipe; 16. a reuse water concentration pipe; 17. a rake type recycling pipe; 18. a pollutant discharge tube; 19. a rake type dirt collection tube; 110. a post-positioned water quality probe; 111. an intelligent controller; 2. a play assembly; 21. a play collar; 22. a play spring; 23. the bolt is moved; 3. a wastewater treatment assembly; 31. a wastewater treatment column; 32. a waste water treatment chamber; 33. a filter element slot; 34. integrating a filter element; 35. centering the sleeve; 36. a water permeable pipe is arranged in the water tank; 4. a water injection assembly; 41. a water injection pipe; 42. an electronic flowmeter; 43. a cylindrical cavity; 44. a conical cavity; 45. a frustum-shaped cylinder; 46. sealing the taper sleeve; 47. a water permeable through hole; 48. a water delivery channel; 5. a transformation component; 51. assembling a column; 52. an internal thread groove; 53. inserting through holes; 54. a U-shaped channel; 55. a transfer chamber; 56. a cylindrical seal groove; 57. a play cylinder; 58. a backwater through hole; 59. a through hole; 510. a sealing cylinder; 511. backflushing the through hole; 512. a constant pressure tube; 6. a flushing assembly; 61. flushing the column; 62. flushing the through hole; 63. flushing the ring groove; 64. an overflow through hole; 65. a flow delivery tube; 7. a buckle mechanism; 71. a buckle spring strip; 72. a buckle triangular block; 73. a cone; 74. extending the cross bar; 75. an electromagnetic latch; 8. a pressurizing assembly; 81. a dip tube; 82. a booster pump; 83. a rake type water distribution pipe; 84. a front water quality probe; 85. butt joint elbow; 86. a quick connector; 87. assembling an elbow; 88. reinforcing the wall plate; 9. a reset device; 91. an electric telescopic rod; 92. a reset plate; 93. resetting the check ring.

Detailed Description

The drawings in the embodiments of the present invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only a few embodiments of the present invention; but not all embodiments. Based on the embodiments in the present invention; all other embodiments obtained by those skilled in the art without undue burden; all falling within the scope of the present invention.

Referring to FIG. 1, an industrial wastewater recycling treatment device comprises a wastewater recycling treatment device 1, wherein the wastewater recycling treatment device 1 comprises a carrier bottom plate 11, a bearing vertical plate 12 is fixedly connected to the top surface of the carrier bottom plate 11, a shielding transverse plate 13 is fixedly installed on the top surface of the bearing vertical plate 12, a wastewater injection flat pipe 14, a reuse water collecting pipe 16 and a pollutant discharge pipe 18 are fixedly connected between the carrier bottom plate 11 and the shielding transverse plate 13, a rake-shaped wastewater pipe 15 is communicated with the wastewater injection flat pipe 14, a rake-shaped reuse pipe 17 is communicated with the reuse water collecting pipe 16, a rake-shaped pollutant collecting pipe 19 is communicated with the pollutant discharge pipe 18, a rear water quality probe 110 is installed on a main pipeline of the rake-shaped pollutant collecting pipe 19, an intelligent controller 111 is installed on the top surface of the carrier bottom plate 11, a channeling assembly 2 is installed on the bearing vertical plate 12, the channeling assembly 2 comprises a channeling collar 21, the shifting collar 21 is fixedly inserted on the bearing vertical plate 12, the waste water treatment assembly 3 is arranged in the shifting collar 21, the waste water treatment assembly 3 comprises a waste water treatment column 31, the waste water treatment column 31 is slidably inserted in the shifting collar 21, the left end of the waste water treatment column 31 is provided with a water injection assembly 4, the water injection assembly 4 comprises a water injection pipe 41, the water injection pipe 41 is fixedly connected between the waste water injection flat pipe 14 and the waste water treatment column 31 and is in a communicating state, the right end of the waste water treatment column 31 is provided with a conversion assembly 5, the conversion assembly 5 comprises a shifting cylinder 57, the shifting cylinder 57 is connected between the reuse water collecting pipe 16 and the waste water treatment column 31 and is in a communicating state, the outside of the shifting cylinder 57 is fixedly sleeved with a sealing cylinder 510, the right end of the sealing cylinder 510 is communicated with a constant-pressure flat pipe 512, referring to FIG. 6, the shifting cylinder 57 penetrates the constant-pressure flat pipe 512 is fixedly connected between the carrier bottom plate 11 and the shielding plate 13, the outside of waste water treatment post 31 is equipped with two flushing assembly 6, flushing assembly 6 includes flushing post 61, flushing post 61 is last to have seted up flushing through-hole 62, waste water treatment post 31 slip grafting is in flushing through-hole 62's inside, be connected with defeated flow tube 65 on flushing post 61, defeated flow tube 65 and pollutant discharge tube 18 that one flushing post 61 corresponds are connected, be equipped with buckle mechanism 7 on the left end of waste water treatment post 31, buckle mechanism 7 includes cone 73, cone 73 is fixed cup joint in waste water treatment post 31's outside, be equipped with booster assembly 8 on the constant voltage flat tube 512, booster assembly 8 includes rake type water distribution pipe 83, rake type water distribution pipe 83 and rake type retrieval and utilization pipe 17 intercommunication, booster assembly 8 still includes butt joint return bend 85, butt joint return bend 85 and the defeated flow tube 65 intercommunication that another flushing post 61 corresponds, waste water treatment post 31's outside still is equipped with restorer 9, restorer 9 includes reset plate 92, reset plate 92 slip cup joints in waste water treatment post 31's outside, constant voltage flat tube 512 bolted connection is on carrying bottom plate 11 and diaphragm 13, reuse water concentration pipe 16 and constant voltage flat tube 512 fixed connection, intelligent control can make things convenient for the electromagnetic flowmeter that intelligent control can be compared 75 to the intelligent control of the electronic flowmeter that the intelligent control can be compared with the electronic flowmeter 75 only, the intelligent control can be compared with the intelligent control 75.

Referring to fig. 1, the play assembly 2 further includes a play spring 22, the play spring 22 is fixedly connected to the left side surface of the play collar 21, the left end of the play spring 22 is fixedly connected to a play plug 23, and the play plug 23 is fixedly connected to the surface of the waste water treatment column 31, so as to apply a rightward pretension to the waste water treatment column 31, so that the waste water treatment column 31 can play rightward under the pretension.

Referring to fig. 2, the wastewater treatment assembly 3 further includes a wastewater treatment cavity 32, the wastewater treatment cavity 32 is formed in the wastewater treatment column 31, a filter element slot 33 located in the middle of the wastewater treatment cavity 32 is formed in the left side surface of the inner cavity of the wastewater treatment cavity 32, an integrated filter element 34 is slidably inserted in the filter element slot 33, a centering sleeve 35 is slidably sleeved outside the integrated filter element 34, the centering sleeve 35 is fixedly inserted on the right side surface of the wastewater treatment column 31, a built-in water permeable pipe 36 is arranged on the right end surface of the integrated filter element 34 and is used for filtering wastewater, so that the wastewater can reach the reuse standard, and meanwhile, the integrated filter element 34 is convenient to replace.

Referring to fig. 3, the water injection assembly 4 further includes an electronic flowmeter 42 and a cylindrical cavity 43, the electronic flowmeter 42 is mounted on a pipeline of the water injection pipe 41, the cylindrical cavity 43 is opened inside the wastewater treatment column 31 and is located at the left end of the water injection pipe, a conical cavity 44 is opened on the left side surface of the inner cavity of the cylindrical cavity 43, a frustum-shaped cylinder 45 is arranged inside the conical cavity 44, the right end of the water injection pipe 41 extends to the inside of the conical cavity 44 and is fixedly communicated with the frustum-shaped cylinder 45, a sealing taper sleeve 46 is fixedly sleeved on the outer surface of the frustum-shaped cylinder 45, a water permeable through hole 47 is opened on the sealing taper sleeve 46, the water permeable through hole 47 is communicated with the frustum-shaped cylinder 45, a water delivery channel 48 is opened on the right side surface of the inner cavity of the cylindrical cavity 43, and the water delivery channel 48 is communicated with the wastewater treatment cavity 32, so that the functions of delivering and cutting off wastewater are created as necessary conditions for separately treating the target wastewater treatment assembly 3.

Referring to fig. 4, the transforming component 5 further includes an assembling post 51, an internal thread groove 52 is provided on the left end face of the assembling post 51, the centering sleeve 35 is movably inserted into the internal thread groove 52 and is in threaded fit with the internal thread groove 52, an insertion through hole 53 is provided on the right side face of the inner cavity of the internal thread groove 52, the built-in water permeable pipe 36 is slidingly inserted into the insertion through hole 53, a U-shaped channel 54 is provided in the assembling post 51, the U-shaped channel 54 is communicated with the insertion through hole 53, a transferring chamber 55 is provided in the assembling post 51, the transferring chamber 55 is communicated with the U-shaped channel 54, a cylindrical sealing groove 56 is provided on the left side face of the inner cavity of the transferring chamber 55, the float tube 57 is movably inserted in the assembly column 51 and movably inserted in the cylindrical sealing groove 56, the float tube 57 is provided with a backwater through hole 58, the backwater through hole 58 is communicated with the transfer cavity 55, the right side surface of the inner cavity of the transfer cavity 55 is provided with a through hole 59, the sealing tube 510 is slidably inserted in the through hole 59, the sealing tube 510 is provided with a backflushing through hole 511, the backflushing through hole 511 is positioned in the through hole 59 and used for controlling the flow direction of reuse water, the reuse water can be put into production through forward flowing, the reuse of the water is realized, the reuse water can be reversely flowed to backflush the wastewater treatment assembly 3, and plugs in holes on the wastewater treatment assembly 3 are flushed out, so that the blocking effect is realized.

Referring to fig. 7-8, the flushing assembly 6 further includes a flushing ring groove 63, the flushing ring groove 63 is formed on an inner wall of the flushing through hole 62 and is located at a right end of the flushing ring groove, the flushing assembly 6 further includes an overflow through hole 64, the overflow through hole 64 is formed on a surface of the wastewater treatment column 31 and is communicated with the wastewater treatment cavity 32, the overflow through hole 64 is located inside the flushing through hole 62, the inner wall of the flushing through hole 62 blocks the overflow through hole 64, so that external fluid can enter the wastewater treatment assembly 3, and meanwhile, fluid inside the wastewater treatment assembly 3 can flow out, an effect of flushing the interior of the wastewater treatment assembly 3 is achieved, and the interceptor is facilitated to be discharged.

Referring to fig. 5, the fastening mechanism 7 further includes a fastening elastic strip 71, where the fastening elastic strip 71 is fixedly connected to the right side surface of the waste water injection flat tube 14, a fastening triangular block 72 located at the right end of the fastening elastic strip 71 is fixedly connected to the top surface of the fastening elastic strip 71, and the fastening triangular block 72 is unidirectionally meshed with the conical member 73, so that the waste water treatment assembly 3 is fastened, and the waste water treatment assembly 3 can work stably in a state of treating waste water.

Referring to fig. 5 and 7, the device further includes an extension bar 74, the extension bar 74 is fixedly connected to the right side surface of the waste water injection flat tube 14, an electromagnetic latch 75 is fixedly connected to the bottom surface of the extension bar 74, and the bottom end of the electromagnetic latch 75 is aligned with the buckle elastic bar 71 and is used for applying pressure to the buckle elastic bar 71, so that the buckle elastic bar 71 is pressed to bend downwards and turn downwards with the buckle triangular block 72, thereby realizing the purpose of releasing the waste water treatment assembly 3, and enabling the waste water treatment assembly 3 to automatically enter a cleaning state.

Referring to fig. 1, the pressurizing assembly 8 further includes a front water quality probe 84, the front water quality probe 84 is fixedly installed on a main pipe on the rake-type water distribution pipe 83 for detecting upstream water quality, the pressurizing assembly 8 further includes a pressurizing pump 82, the pressurizing pump 82 is communicated on an end portion of the rake-type water distribution pipe 83, the pressurizing pump 82 is installed on a top surface of the carrier bottom plate 11, a dip tube 81 is communicated on the pressurizing pump 82, the dip tube 81 is communicated with the main pipe on the rake-type recycling pipe 17 for pressurizing recycled water, the pressurizing assembly 8 further includes a butt joint elbow 85, the butt joint elbow 85 is communicated on a sealing cylinder 510, the other end of the butt joint elbow 85 is communicated with an assembling elbow 87 through a quick connector 86, the other end of the assembling elbow 87 is communicated with a delivery pipe 65 corresponding to another flushing post 61, a reinforcing wall plate 88 is fixedly connected to the outside of the assembling elbow 87, and the reinforcing wall plate 88 is fixedly connected between the carrier bottom plate 11 and the shielding transverse plate 13.

Referring to fig. 1, the reset device 9 further includes two electric telescopic rods 91 and two reset check rings 93, the two electric telescopic rods 91 are respectively installed on the carrying bottom plate 11 and the shielding transverse plate 13, the end parts of the electric telescopic rods 91 are fixedly connected to the left side surface of the reset plate 92, the reset check rings 93 are fixedly sleeved on the outer part of the wastewater treatment column 31 and are positioned on the left side of the reset plate 92, and are used for applying left thrust to the wastewater treatment assembly 3, so that the wastewater treatment assembly 3 automatically enters a wastewater treatment state, the intelligent controller 111 is electrically connected with an external power supply, and the intelligent controller 111 is electrically connected with the rear water quality probe 110, the electronic flowmeter 42, the electromagnetic plug pins 75, the booster pump 82 and the electric telescopic rods 91.

Working principle:

firstly, the rake-type waste water pipe 15 is communicated with a constant pressure pump arranged outside, then the waste water sequentially passes through the rake-type waste water pipe 15, the waste water injection flat pipe 14, the water injection pipe 41, the water permeable through hole 47, the conical cavity 44, the cylindrical cavity 43 and the water delivery channel 48 to enter the waste water treatment cavity 32 under the driving of the constant pressure pump, then the waste water passes through the holes on the integrated filter element 34 and enters the built-in water permeable pipe 36 to form recycled water under the driving of the pressure difference, pollutants in the waste water are intercepted on the surface of the integrated filter element 34, then the recycled water passes through the U-shaped channel 54, the transit chamber 55, the water return through hole 58, the shifting barrel 57 and the recycled water collecting pipe 16 and is discharged from the rake-type recycling pipe 17 to the next treatment link, then as the service time is prolonged, the holes on the integrated filter element 34 are blocked more and more, the water permeable capacity is reduced, the flow rate passing through the water injection pipe 41 is gradually reduced, then the data detected by the electronic flowmeter 42 becomes smaller gradually, when the data detected by the electronic flowmeter 42 is the same as the preset value inside the intelligent controller 111, the intelligent controller 111 controls the electromagnetic bolt 75 corresponding to the electronic flowmeter to extend and apply pressure to the snap spring 71, then the snap spring 71 is forced to bend downwards and turn downwards with the snap triangular block 72, then the snap triangular block 72 is separated from the cone 73, then the corresponding waste water treatment column 31 is released, then the shifting spring 22 applies rightward thrust to the waste water treatment column 31 through the shifting bolt 23, then the waste water treatment column 31 moves rightward, then the frustum-shaped cylinder 45 moves leftward relative to the waste water treatment column 31 with the sealing taper sleeve 46, then the frustum-shaped cylinder 45 inserts into the taper cavity 44 with the sealing taper sleeve 46, then the inner wall of the taper cavity 44 blocks the water permeable through hole 47, and at the same time, the entry of waste water is interrupted, the wastewater treatment column 31 moves rightward with the assembly column 51 by the cooperation of the centering sleeve 35 and the female screw groove 52, after which the assembly column 51 slides rightward outside the shifting cylinder 57, after which the shifting cylinder 57 is inserted into the inside of the cylindrical seal groove 56, while the seal cylinder 510 slides out from the inside of the through hole 59 and enters into the inside of the transit chamber 55, after which the backwater through hole 58 enters into the cylindrical seal groove 56, the backwater through hole 58 is blocked by the inner wall of the cylindrical seal groove 56, after which the backwater through hole 511 enters into the transit chamber 55, after which the transit chamber 55 communicates with the constant pressure flat tube 512 through the backwater through hole 511, the seal cylinder 510, during which the flushing column 61 slides leftward outside the wastewater treatment column 31, after which the overflow through hole 64 enters into the flushing ring groove 63, after which the flushing ring groove 63 communicates with the overflow through hole 64, after which the flow-transmitting tube 65 communicates with the wastewater treatment chamber 32 through the flushing ring groove 63, the overflow through hole 64, then the intelligent controller 111 controls the booster pump 82 to work, then the booster pump 82 extracts and pressurizes the reuse water in the rake-type reuse pipe 17 through the dip pipe 81, and pumps the reuse water into the built-in permeable pipe 36 through the rake-type water distribution pipe 83, the constant pressure flat pipe 512, the sealing cylinder 510, the backflushing through hole 511, the middle rotating chamber 55 and the U-shaped channel 54, then the reuse water passes through the built-in permeable pipe 36 and passes through the holes on the integrated filter element 34 to enter the wastewater treatment cavity 32 under the action of the hydraulic pressure difference, meanwhile, a part of the reuse water in the sealing cylinder 510 directly passes through the butt joint elbow pipe 85, the quick connector 86, the assembling elbow pipe 87 and the corresponding delivery pipe 65 to enter the wastewater treatment cavity 32 under the action of hydraulic pressure, thereby pushing the concentrated water in the wastewater treatment cavity 32 to move leftwards, and then the concentrated water in the wastewater treatment cavity 32 passes through the corresponding overflow through hole 64, the flushing ring groove 63, the flow conveying pipe 65, the pollutant discharging pipe 18 and the rake-shaped sewage collecting pipe 19 are discharged to the next treatment link, then the front water quality probe 84 monitors the water quality of the water inside the rake-shaped water distributing pipe 83 in real time, the rear water quality probe 110 monitors the water quality of the water inside the rake-shaped sewage collecting pipe 19 in real time, when the water qualities of the water inside the rake-shaped water distributing pipe 83 and the rake-shaped sewage collecting pipe 19 are the same, the intelligent controller 111 controls the corresponding electromagnetic plug pins 75 to be powered off, then the electromagnetic plug pins 75 are shortened, then the buckle elastic strip 71 is overturned and reset upwards with the buckle triangular blocks 72 under the action of self elastic force, then the intelligent controller 111 controls the booster pump 82 to stop working, then the intelligent controller 111 controls the electric telescopic rod 91 to be shortened, then the electric telescopic rod 91 is moved leftwards with the reset plate 92, the reset plate 92 applies a leftward pushing force to the wastewater treatment column 31 through the reset retainer 93, the wastewater treatment column 31 moves leftwards with the conical member 73, the sealing cylinder 510 retracts into the through hole 59 with the recoil through hole 511, the recoil through hole 511 is blocked by the inner wall of the through hole 59, the backwater through hole 58 moves out of the cylindrical sealing groove 56 and is communicated with the transit chamber 55, the sealing taper sleeve 46 is separated from the inner wall of the conical cavity 44, the opening of the pervious through hole 47 is opened, the conical member 73 is clamped with the triangular buckle block 72, the electric telescopic rod 91 is shortened to the shortest state, the intelligent controller 111 controls the electric telescopic rod 91 to extend to the initial state, and the electric telescopic rod 91 moves rightwards with the reset plate 92 to the initial state.

The above; is only a preferred embodiment of the present invention; the scope of the invention is not limited in this respect; any person skilled in the art is within the technical scope of the present disclosure; equivalent substitutions or changes are made according to the technical proposal of the invention and the improved conception thereof; are intended to be encompassed within the scope of the present invention.

Claims (10)

1. An industrial wastewater recycling treatment device comprises a wastewater recycling processor (1), and is characterized in that: the waste water recycling processor (1) comprises a carrying bottom plate (11), a carrying vertical plate (12) is fixedly connected to the top surface of the carrying bottom plate (11), a shielding transverse plate (13) is fixedly installed on the top surface of the carrying vertical plate (12), a waste water injection flat pipe (14), a reuse water concentration pipe (16) and a pollutant discharge pipe (18) are fixedly connected between the carrying bottom plate (11) and the shielding transverse plate (13), a rake type waste water pipe (15) is communicated to the waste water injection flat pipe (14), a rake type recycling pipe (17) is communicated to the reuse water concentration pipe (16), a rake type waste water collecting pipe (19) is communicated to the pollutant discharge pipe (18), a rear water quality probe (110) is installed on a main pipeline of the rake type waste water collecting pipe (19), an intelligent controller (111) is installed on the top surface of the carrying bottom plate (11), a shifting assembly (2) is installed on the carrying vertical plate (12), the shifting assembly (2) comprises a shifting collar (21), the shifting collar (21) is fixedly inserted on the carrying vertical plate (12), the shifting collar (21) is internally provided with a shifting collar (3) and the shifting collar (31) is inserted into a waste water treatment column (31), the left end of the wastewater treatment column (31) is provided with a water injection assembly (4), the water injection assembly (4) comprises a water injection pipe (41), the water injection pipe (41) is fixedly connected between a wastewater injection flat pipe (14) and the wastewater treatment column (31), the right end of the wastewater treatment column (31) is provided with a conversion assembly (5), the conversion assembly (5) comprises a shifting cylinder (57), the shifting cylinder (57) is connected between a reuse water centralized pipe (16) and the wastewater treatment column (31), the outside of the shifting cylinder (57) is fixedly sleeved with a sealing cylinder (510), the right end of the sealing cylinder (510) is connected with a constant pressure flat pipe (512), the constant pressure flat pipe (512) is fixedly connected between a carrier bottom plate (11) and a shielding diaphragm (13), the outside of the wastewater treatment column (31) is provided with two flushing assemblies (6), the flushing assemblies (6) comprise flushing columns (61), flushing through holes (62) are formed in the flushing columns (61), the wastewater treatment column (31) are slidably inserted into the flushing through holes (62), the flushing columns (61) are connected with a conveying pipe (65), the corresponding sewage discharge pipe (18) is connected with a sewage discharge pipe (18), the utility model provides a buckle mechanism (7) includes cone (73), and cone (73) are fixed cup joints in the outside of waste water treatment post (31), be equipped with pressure boost subassembly (8) on constant voltage flat pipe (512), pressure boost subassembly (8) are including rake type water distribution pipe (83), rake type water distribution pipe (83) and rake type retrieval and utilization pipe (17) intercommunication, pressure boost subassembly (8) still include butt joint return bend (85), butt joint return bend (85) and the defeated flow tube (65) intercommunication that another flushing post (61) corresponds, the outside of waste water treatment post (31) still is equipped with restorer (9), restorer (9) include reset plate (92), and reset plate (92) slide cup joint in the outside of waste water treatment post (31).

2. The industrial wastewater reuse treatment device according to claim 1, wherein: the shifting assembly (2) further comprises a shifting spring (22), the shifting spring (22) is fixedly connected to the left side face of the shifting lantern ring (21), the left end of the shifting spring (22) is fixedly connected with a shifting bolt (23), and the shifting bolt (23) is fixedly connected to the surface of the wastewater treatment column (31).

3. An industrial wastewater reclamation treatment device according to claim 1 or 2, characterized in that: the waste water treatment assembly (3) further comprises a waste water treatment cavity (32), the waste water treatment cavity (32) is arranged inside the waste water treatment column (31), a filter element slot (33) positioned in the middle of the waste water treatment cavity (32) is arranged on the left side face of the inner cavity of the waste water treatment cavity (32), an integrated filter element (34) is inserted into the filter element slot (33) in a sliding mode, a centering sleeve (35) is sleeved outside the integrated filter element (34) in a sliding mode, the centering sleeve (35) is fixedly inserted into the right side face of the waste water treatment column (31), and a built-in water permeable pipe (36) is arranged on the right end face of the integrated filter element (34).

4. An industrial wastewater reclamation treatment device according to claim 3, wherein: the water injection assembly (4) further comprises an electronic flowmeter (42) and a cylindrical cavity (43), the electronic flowmeter (42) is arranged on a pipeline of the water injection pipe (41), the cylindrical cavity (43) is arranged inside the wastewater treatment column (31) and is located at the left end of the wastewater treatment column, a conical cavity (44) is arranged on the left side face of the inner cavity of the cylindrical cavity (43), a frustum-shaped cylinder (45) is arranged in the conical cavity (44), the right end of the water injection pipe (41) extends to the inside of the conical cavity (44) and is fixedly communicated with the frustum-shaped cylinder (45), a sealing taper sleeve (46) is fixedly sleeved on the outer surface of the frustum-shaped cylinder (45), a water permeable through hole (47) is formed in the sealing taper sleeve (46), the water permeable through hole (47) is communicated with the frustum-shaped cylinder (45), and a water delivery channel (48) is formed in the right side face of the inner cavity of the cylindrical cavity (43) and is communicated with the wastewater treatment cavity (32).

5. An industrial wastewater reclamation treatment device according to claim 3, wherein: the transformation component (5) further comprises an assembly column (51), an inner thread groove (52) is formed in the left end face of the assembly column (51), a centering sleeve (35) is movably inserted into the inner part of the inner thread groove (52) and is in threaded fit with the inner thread groove, an insertion through hole (53) is formed in the right side face of the inner cavity of the inner thread groove (52), a built-in water penetrating pipe (36) is slidingly inserted into the insertion through hole (53), a U-shaped channel (54) is formed in the assembly column (51), the U-shaped channel (54) is communicated with the insertion through hole (53), a transfer cavity (55) is formed in the assembly column (51), the transfer cavity (55) is communicated with the U-shaped channel (54), a cylindrical sealing groove (56) is formed in the left side face of the inner cavity of the transfer cavity (55), a moving cylinder (57) is movably inserted into the inner part of the cylindrical sealing groove (56), a backwater through hole (58) is formed in the moving cylinder (57), the backwater through hole (58) is communicated with the transfer cavity (55), a transfer cavity (55) is formed in the right side face of the inner cavity of the transfer cavity (55), a backwater through hole (59) is formed in the inner cavity, and the inner cavity of the transfer cylinder (510) is slidingly inserted into the cylindrical sealing groove (59), the recoil through hole (511) is located inside the through hole (59).

6. An industrial wastewater reclamation treatment device according to claim 3, wherein: the flushing assembly (6) further comprises a flushing ring groove (63), the flushing ring groove (63) is formed in the inner wall of the flushing through hole (62) and located at the right end of the flushing ring groove, the flushing assembly (6) further comprises an overflow through hole (64), and the overflow through hole (64) is formed in the surface of the wastewater treatment column (31) and is communicated with the wastewater treatment cavity (32).

7. The industrial wastewater reuse treatment device according to claim 1, wherein: the buckling mechanism (7) further comprises a buckling elastic strip (71), the buckling elastic strip (71) is fixedly connected to the right side face of the waste water injection flat pipe (14), a buckling triangular block (72) located at the right end of the buckling elastic strip (71) is fixedly connected to the top face of the buckling elastic strip, and the buckling triangular block (72) is meshed with the conical piece (73) in a unidirectional mode.

8. The industrial wastewater reuse treatment device according to claim 7, wherein: the device is characterized by further comprising an extension transverse bar (74), wherein the extension transverse bar (74) is fixedly connected to the right side face of the waste water injection flat pipe (14), an electromagnetic bolt (75) is fixedly connected to the bottom face of the extension transverse bar (74), and the bottom end of the electromagnetic bolt (75) is aligned with the buckle elastic bar (71).

9. The industrial wastewater reuse treatment device according to claim 1, wherein: the utility model provides a supercharging subassembly (8) still includes leading quality of water probe (84), leading quality of water probe (84) fixed mounting is on the trunk line on rake type water distribution pipe (83), supercharging subassembly (8) still include booster pump (82), booster pump (82) intercommunication is on the tip of rake type water distribution pipe (83), booster pump (82) are installed on the top surface of carrying bottom plate (11), the intercommunication has dip tube (81) on booster pump (82), dip tube (81) communicate with the trunk line on rake type retrieval and utilization pipe (17), supercharging subassembly (8) still include butt joint return bend (85), butt joint return bend (85) intercommunication is on sealed section of thick bamboo (510), the other end of butt joint return bend (85) is through quick connector (86) intercommunication has equipment return bend (87), the other end and the other delivery pipe (65) intercommunication that wash post (61) correspond of equipment return bend (87), the outside fixedly connected with of equipment return bend (87) consolidates wallboard (88), consolidate wallboard (88) fixed connection between carrying bottom plate (11) and shielding diaphragm (13).

10. The industrial wastewater reuse treatment device according to claim 1, wherein: the restorer (9) further comprises two electric telescopic rods (91) and two restoration check rings (93), wherein the two electric telescopic rods (91) are respectively arranged on the object carrying bottom plate (11) and the shielding transverse plate (13), the end parts of the electric telescopic rods (91) are fixedly connected to the left side surface of the restoration plate (92), and the restoration check rings (93) are fixedly sleeved on the outer part of the wastewater treatment column (31) and are positioned on the left side of the restoration plate (92).