CN116693135A

CN116693135A - Waste water treatment equipment

Info

Publication number: CN116693135A
Application number: CN202310973002.8A
Authority: CN
Inventors: 王君霞; 李媛媛; 郭见军; 彭作波
Original assignee: Rizhao Marine And Fishery Research Institute Rizhao Sea Area Use Dynamic Monitoring Center Rizhao Aquatic Wildlife Rescue Station
Current assignee: Rizhao Marine And Fishery Research Institute Rizhao Sea Area Use Dynamic Monitoring Center Rizhao Aquatic Wildlife Rescue Station
Priority date: 2023-08-04
Filing date: 2023-08-04
Publication date: 2023-09-05
Anticipated expiration: 2043-08-04
Also published as: CN116693135B

Abstract

The invention provides wastewater treatment equipment, which relates to the field of wastewater treatment and comprises: the inner assembly is positioned at the bottom of the ultraviolet sterilizer, the scraping assemblies which are uniformly arranged are arranged outside the inner assembly, the scraping assemblies are of circular ring structures, the cross sections of the scraping assemblies are of triangular structures, and the scraping assemblies are fixed with two pushing pieces through connecting rods. After waste water enters into the circulation subassembly from the pipeline, produce circulation strength, waste water passes through the impeller, impeller atress displacement, when the impeller displacement, strike off the subassembly and remove together through the connecting rod is transferred, strike off the subassembly and tentatively scrape the outside dirt and the attachment of getting the circulation subassembly, strike off the subassembly and remove again and still can strike off attachment and dirt, the problem that the circulation subassembly inner wall of ultraviolet sterilizer can produce dirt and attachment when carrying out ultraviolet sterilization has been solved, it is comparatively difficult to clear away to maintain.

Description

Waste water treatment equipment

Technical Field

The invention relates to the technical field of wastewater treatment, in particular to wastewater treatment equipment.

Background

At present, the artificial culture accounts for 40% of the aquaculture, and only a small part of the nitrogen and the phosphorus in the feed put in the aquaculture process are assimilated, so that the water and sediment can be polluted by the pollutants formed by the residual feed and the excrement. Meanwhile, residues of various chemicals and antibiotics used in aquaculture also pollute the aquaculture environment, and water quality spoilage can cause mass propagation of bacteria such as vibrio and the like, thereby causing diseases. If the water quality is repeatedly changed, not only water resource waste is caused, but also the strain of the existing culture water body can be destroyed. Therefore, the wastewater is reused after being treated, and the method has important significance.

At present, when current waste water treatment equipment is carrying out ultraviolet sterilization, after the long-time impact of waste water, the circulation subassembly inner wall of its ultraviolet sterilizer can produce dirt and attachment, clears away and maintains the difficulty, and when waste water recycles, needs artifical interpolation detergent, comparatively loaded down with trivial details, waste water gets into after the equipment and when circulating in the equipment, still can produce the physical effect of impact and vibration, influence the stability of operation.

Disclosure of Invention

In view of the above, the invention provides a wastewater treatment device which is convenient to maintain, low in maintenance cost, high in stability and long in service life, can automatically add a scale remover, solves the problems that physical effects of impact and vibration can be generated after wastewater enters to influence the stability of operation, can kill more than 85% of conventional bacteria, and achieves the standard of repeated use after wastewater is treated.

The invention provides wastewater treatment equipment, which specifically comprises a micro-filter, a protein separator, a sedimentation tank, a microorganism filter and a sterilization component; the micro-filter is connected with the culture pond through a waste water pipeline, the micro-filter is connected with the protein separator through a waste water pipeline, the protein separator is connected with the sedimentation pond through a waste water pipeline, the sedimentation pond is connected with the microorganism filter through a waste water pipeline, and the microorganism filter is connected with the sterilization assembly through a waste water pipeline; the sterilization assembly includes: an ultraviolet sterilizer, an internal component, and a support part; the storage part is fixed at the top end of the ultraviolet sterilizer, two communicating pipes are respectively connected to two sides of the storage part, sealing plates are simultaneously inserted into the storage part and the communicating pipes, the two sealing plates are arranged in total, a trigger component is fixed at the outer end of each sealing plate, the top end of the trigger component is of a conical structure, the bottom end of the trigger component is of a circular structure, a groove is formed in the bottom of the trigger component, and the trigger component is made of high-strength foam materials; the inner assembly is positioned at the bottom of the ultraviolet sterilizer, the carbon fiber spring is sleeved outside the inner assembly, the uniformly arranged scraping assemblies are sleeved outside the inner assembly, the scraping assemblies are of circular ring structures, the cross section of each scraping assembly is of a triangular structure, and the two pushing pieces are fixed on the scraping assemblies through the connecting rod; the ultraviolet sterilizer comprises two supporting parts, wherein the two supporting parts are arranged at the bottom of the ultraviolet sterilizer, two ends of each supporting part are respectively fixed with a threaded fixing hole, a fixing bolt is inserted into each threaded fixing hole, two sides of the top end of each supporting part are respectively fixed with a sliding rod, the outer part of the top end of each sliding rod is connected with a pushing head in a sliding manner, the outer side of the bottom of each pushing head is of an inclined structure, the top end of each pushing head is fixed with a pushing rod, and the inner side of each pushing rod is provided with a clamping assembly;

when the wastewater completely enters the connecting assembly for circulation, the triggering assembly is pushed to rise by buoyancy or is pushed to rise by wastewater at the water outlet end, and meanwhile, the sealing plate is driven to rise together, so that the descaling agent adding channel is opened;

when the wastewater circulates in the circulation assembly, the wastewater can be discharged through the through hole of the pushing piece, and meanwhile, the displacement of the pushing piece can be controlled by means of the circulation force, so that the scraping assembly is driven to move together;

when the bolt is used for fixing the supporting part, the pulling piece is driven to move downwards together after the bolt is screwed up, so that the blocking piece is just in the long groove, meanwhile, the spring pushes the blocking piece to move, after the blocking piece moves, the bottom of the blocking piece is in fit contact with the top end of the bolt, meanwhile, the transmission assembly is in sliding contact with the pushing piece, and the sliding contact surface is of an inclined structure, so that the pushing head drives the clamping assembly to move transversely, and then the circulating assembly is clamped.

Optionally, a circulation assembly is welded and fixed at the bottom of the ultraviolet sterilizer, an internal assembly is inserted into the circulation assembly, the circulation assembly is fixed at the top ends of the two supporting parts, the side edge of the circulation assembly is in contact with the clamping assembly, an ultraviolet sterilizing lamp is arranged at the bottom of the ultraviolet sterilizer and is positioned in the circulation assembly, two connecting assemblies are respectively communicated and fixed at the two sides of the top end of the circulation assembly, the connecting assemblies are connected with the waste water pipeline, and the triggering assembly is positioned in the connecting assemblies; the bottom of the communicating pipe is of an inclined structure, the outer end of the communicating pipe is communicated with the inside of the connecting assembly, and the top end of the storage part is provided with a feed inlet; the inside of storage piece is equipped with the inside groove, and the bottom both sides of inside groove are the tilting structure, and the side of inside groove communicates with the inside of communicating pipe, and the outside cover of the inner of every closing plate is equipped with a control block, and the control block is fixed at the side of inside groove.

Optionally, two ends of the inner assembly are respectively fixed with an outer piece, the outer pieces are welded and fixed at two ends of the circulation assembly, the outside of each outer piece is provided with joints which are annularly arranged, the outside of the inner assembly is sheathed with a stress plate in a sliding way, and the side edges of the stress plate are contacted with the carbon fiber spring; the stress plate is fixedly connected with the connecting rod through square rods which are annularly arranged, a side groove is formed in the left side of each pushing piece, the outer side edge of each side groove is of an inclined structure, and through holes which are annularly arranged are formed in each side groove; three flow guide components are fixed in the scraping component, two sides of the top end of each flow guide component are of inclined structures, and uniformly arranged flow distribution plates are arranged on the top end of each flow guide component.

Optionally, the top end of the sliding rod is of an L-shaped structure, the bottom end of the sliding rod is of a rectangular structure, a round rod is fixed on the inner side of each sliding rod, a spring is sleeved outside each round rod, a blocking piece is inserted into the bottom end of each sliding rod in a sliding manner, the blocking piece is sleeved outside the round rod, and the inner side of the blocking piece is in contact with the spring; the front end of each sliding rod is sleeved with a transmission component in a sliding manner, the inner end of the transmission component is of a wedge-shaped structure, the inner end of the transmission component is in sliding contact with the outer side of the bottom of the pushing head, a pulling piece is fixed on the outer part of each transmission component, a long groove for the blocking piece to pass through is formed in each pulling piece, a round hole is formed in the bottom of each pulling piece, and the position of the round hole and the position of the thread fixing hole are in the same axis; the clamping assemblies are made of flexible rubber materials, a contact groove is formed in the inner side of each clamping assembly, and the circulation assembly is embedded in the contact groove.

The wastewater treatment equipment provided by the invention has the following beneficial effects:

when the invention is used, the scale remover is added into the storage tank in advance for storage, and when the waste water is fully filled in the connecting component for circulation, the triggering component is made of high-strength foam material, so that the waste water can be pushed to rise by buoyancy or by the waste water at the water outlet end, and simultaneously the sealing plate is driven to rise together, the communicating pipe can be automatically opened, the scale remover is slowly guided and discharged, and meanwhile, the scale remover can be melted in the process of circulating the waste water, so that the waste water can be quickly dispersed after the waste water flows back into the culture tank, and the adding efficiency is improved.

2. According to the invention, after wastewater enters the circulation assembly from the pipeline, circulation force is generated, so that the wastewater passes through the pushing piece, the pushing piece is forced to displace, and meanwhile, the wastewater is discharged through the through hole, and the scraping assembly is moved together through the connecting rod while the pushing piece is displaced, so that the scraping assembly can primarily scrape dirt and attachments outside the circulation assembly, and simultaneously, the stress plate extrudes the carbon fiber spring, and after the circulation of the wastewater is stopped, the stress plate and the scraping assembly are pushed to reset again by the carbon fiber elasticity, so that the scraping assembly can move again to scrape the attachments and the dirt, and further, the device can automatically clean and maintain, and the dirt and attachments can be removed conveniently.

3. When the clamping assembly is installed, the spanner is used for controlling the bolt to be screwed down, so that the bolt can drive the pulling member to move downwards together, after the bolt moves, the spring pushes the blocking member to be inserted into the long groove, the bottom of the blocking member can be attached to the top end of the bolt, the bolt is blocked, a loose space is not reserved for the bolt, the driving assembly can be driven to move together when the pulling member moves downwards, the driving assembly is in sliding contact with the pushing head, the sliding contact surface is of an inclined structure, the pushing head drives the clamping assembly to move transversely, the circulating assembly is clamped, and the circulating assembly is clamped by means of elasticity, so that the circulating assembly cannot spread outwards after encountering larger vibration and impact, and meanwhile, the vibration force can be reduced.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic perspective view of an ultraviolet sterilizer of a processing apparatus according to an embodiment of the present invention;

FIG. 2 is a block diagram of the system components of a processing device of an embodiment of the present invention;

fig. 3 is an exploded perspective view of an ultraviolet sterilizer of a processing apparatus according to an embodiment of the present invention;

fig. 4 is an exploded bottom view of the ultraviolet sterilizer of the processing apparatus according to the embodiment of the present invention;

fig. 5 is a partially cross-sectional perspective view schematically showing an ultraviolet sterilizer of a processing apparatus according to an embodiment of the present invention;

FIG. 6 is an exploded perspective view of the internal components of a processing device of an embodiment of the present invention;

fig. 7 is a schematic view of a supporting portion of a processing apparatus according to an embodiment of the present invention;

FIG. 8 is a schematic exploded bottom view of a support portion of a processing apparatus according to an embodiment of the present invention;

reference numerals:

1. a micro-filter; 2. a protein separator; 3. a sedimentation tank; 4. a microbial filter; 5. a sterilization assembly;

6. an ultraviolet sterilizer; 601. a flow-through assembly; 602. a connection assembly; 603. a communicating pipe; 604. a storage member; 605. an inner tank; 606. a control block; 607. a sealing plate; 608. a trigger assembly;

7. an internal component; 701. an outer member; 702. a force-bearing plate; 703. a scraping assembly; 704. a connecting rod; 705. a pushing member; 706. a side groove; 707. a flow guiding assembly; 708. a diverter plate;

8. a support part; 801. a slide bar; 802. a blocking member; 803. a transmission assembly; 804. a pulling member; 805. a pushing head; 806. a push rod; 807. a clamping assembly; 808. a contact groove.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Example 1: please refer to fig. 1 to 8: the invention provides wastewater treatment equipment, which comprises a micro-filter 1, a protein separator 2, a sedimentation tank 3, a microorganism filter 4 and a sterilization component 5; the micro-filter 1 is connected with the culture pond through a waste water pipeline, can be used for preliminarily filtering the fishery wastewater discharged from the culture pond, is connected with the protein separator 2 through the waste water pipeline, can be used for concentrating and discharging protein in the fishery wastewater so as to generate protein organic fertilizer, the protein separator 2 is connected with the sedimentation pond 3 through the waste water pipeline, can be used for leading the fishery wastewater to enter the sedimentation pond 3 for internal sedimentation, the sedimentation pond 3 is connected with the microorganism filter 4 through the waste water pipeline, and can be used for microorganism filtration, and the microorganism filter 4 is connected with the sterilization assembly 5 through the waste water pipeline; the sterilization assembly 5 includes: an ultraviolet sterilizer 6, an inner assembly 7 and a support 8; the top end of the ultraviolet sterilizer 6 is fixedly provided with a storage part 604, two sides of the storage part 604 are respectively connected with a communicating pipe 603, two sealing plates 607 are simultaneously inserted into the storage part 604 and the communicating pipe 603, the two sealing plates 607 are provided for blocking and sealing the detergent, the outer end of each sealing plate 607 is fixedly provided with a trigger component 608, the top end of the trigger component 608 is of a conical structure, the bottom end of the trigger component 608 is of a circular structure, the bottom of the trigger component 608 is provided with a groove, the trigger component 608 is made of high-strength foam materials, after the wastewater completely enters the circulation component 601, the trigger component 608 can be pushed to rise by buoyancy, and a detergent discharge channel is automatically opened, so that the detergent can be conveniently added; the inner assembly 7 is positioned at the bottom of the ultraviolet sterilizer 6, the carbon fiber spring is sleeved outside the inner assembly 7, the stress plate 702 and the scraping assembly 703 are pushed to reset after the fishery wastewater is not circulated any more, the scraping assembly 703 which is uniformly arranged is sleeved outside the inner assembly 7, the scraping assembly 703 is of a circular ring structure, the section of the scraping assembly 703 is of a triangular structure, the inner wall of the circulation assembly 601 can be attached to move, dirt and attachments can be scraped automatically, the scraping assembly 703 is fixed with two pushing pieces 705 through a connecting rod 704, and the pushing pieces 705 can be controlled to move and displace after the fishery wastewater circulates; the two supporting parts 8 are arranged at the bottom of the ultraviolet sterilizer 6, the supporting parts 8 are arranged at the bottom of the ultraviolet sterilizer 6 and are used for supporting the ultraviolet sterilizer 6, two ends of each supporting part 8 are respectively fixed with a threaded fixing hole, a fixing bolt is inserted into each threaded fixing hole, two sides of the top end of each supporting part 8 are respectively fixed with a sliding rod 801, the outer part of the top end of each sliding rod 801 is slidably connected with a pushing head 805, the outer side of the bottom of each pushing head 805 is of an inclined structure and is used for being in sliding contact with a transmission assembly 803, so that the ultraviolet sterilizer 6 is conveniently and transversely displaced, the top end of each pushing head 805 is fixed with a pushing rod 806, and the inner side of each pushing rod 806 is provided with a clamping assembly 807 which can clamp a circulation assembly 601;

when the wastewater completely enters the connecting assembly 602 for circulation, the triggering assembly 608 is pushed to rise by buoyancy force or is pushed to rise by wastewater at the water outlet end, and the sealing plate 607 is driven to rise together, so that the detergent adding channel is opened;

when the wastewater circulates in the circulation assembly 601, the wastewater is discharged through the through hole of the pushing piece 705, and meanwhile, the displacement of the pushing piece 705 can be controlled by means of the circulation force, so that the scraping assembly 703 is driven to move together, and the dirt in the circulation assembly 601 is scraped by the scraping assembly 703 due to the triangular cross section of the scraping assembly 703;

when the supporting portion 8 is fixed by the bolt, the pulling member 804 is driven to move downwards together after the bolt is screwed, so that the blocking member 802 is just positioned in the long groove, meanwhile, the spring pushes the blocking member 802 to displace, so that after the blocking member 802 moves, the bottom of the blocking member is contacted with the top end of the bolt in a fitting manner, meanwhile, the transmission component 803 is in sliding contact with the pushing member 705, and the sliding contact surface is of an inclined structure, so that the pushing head 805 drives the clamping component 807 to displace transversely, thereby clamping the circulation component 601.

Referring to fig. 5, a circulation assembly 601 is welded and fixed at the bottom of an ultraviolet sterilizer 6, so that fishery wastewater can circulate inside the circulation assembly, and then the fishery wastewater is sterilized by the ultraviolet sterilizer 6, an internal assembly 7 is inserted into the circulation assembly 601, the circulation assembly 601 is fixed at the top ends of two supporting parts 8, the side edge of the circulation assembly 601 is in contact with a clamping assembly 807, an ultraviolet sterilizing lamp is arranged at the bottom of the ultraviolet sterilizer 6, the ultraviolet sterilizing lamp is positioned inside the circulation assembly 601, two connecting assemblies 602 are respectively and fixedly connected with the two sides of the top end of the circulation assembly 601, the connecting assemblies 602 are connected with a wastewater pipeline, so that wastewater can enter the circulation, and a triggering assembly 608 is positioned inside the connecting assemblies 602; the bottom of the communicating pipe 603 is of an inclined structure, so that the scale remover can flow in the communicating pipe in a guiding way, the outer end of the communicating pipe 603 is communicated with the inside of the connecting assembly 602, and the top end of the storage piece 604 is provided with a feed inlet, so that the scale remover can be conveniently added; an inner groove 605 is arranged in the storage piece 604, two sides of the bottom of the inner groove 605 are of inclined structures, the scale remover is controlled to be guided and discharged, the side edge of the inner groove 605 is communicated with the inside of the communicating pipe 603, a control block 606 is sleeved outside the inner end of each sealing plate 607, and the control block 606 is fixed on the side edge of the inner groove 605 and used for controlling the guiding displacement of the sealing plate 607.

Referring to fig. 6, two ends of the inner assembly 7 are respectively fixed with an outer member 701, the outer members 701 are welded and fixed at two ends of the circulation assembly 601 and can be positioned at the outer end seal of the circulation assembly 601, the outside of each outer member 701 is provided with annularly arranged joints, the outside of the inner assembly 7 is slidably sleeved with a force-bearing plate 702, and the side edges of the force-bearing plate 702 are contacted with a carbon fiber spring and can be elastically pushed to reset by the carbon fiber spring; the stress plate 702 is fixedly connected with the connecting rods 704 through square rods which are annularly arranged, a side groove 706 is formed in the left side of each pushing piece 705, the outer side edge of each side groove 706 is of an inclined structure, the stress effect can be improved, and annular through holes are formed in each side groove 706 and used for enabling waste water to pass through; three diversion assemblies 707 are fixed in the scraping assembly 703, and two sides of the top end of each diversion assembly 707 are of inclined structures, so that waste water can be controlled to flow upwards, the sterilization effect is improved, and evenly-arranged diversion plates 708 are arranged at the top end of each diversion assembly 707, so that the waste water can be mixed together for circulation for sterilization.

Referring to fig. 7 and 8, the top end of the sliding rod 801 is in an L-shaped structure, which is used for controlling the guiding displacement of the transmission component 803 and the pushing head 805, the bottom end of the sliding rod 801 is in a rectangular structure, a round rod is fixed on the inner side of each sliding rod 801, a spring is sleeved on the outer side of each round rod, a blocking piece 802 can be pushed to displace, a blocking piece 802 is inserted into the bottom end of each sliding rod 801 in a sliding manner, the blocking piece 802 is sleeved on the outer side of the round rod, the inner side of the blocking piece 802 is contacted with the spring, and after being pushed by the spring, the bottom of the blocking piece 802 is contacted with the top end of a bolt, and then the bolt is blocked, so that the bolt cannot loosen; the front end of each sliding rod 801 is slidably sleeved with a transmission component 803, the inner end of the transmission component 803 is of a wedge-shaped structure and is used for sliding displacement with a pushing head 805, the inner end of the transmission component 803 is in sliding contact with the outer side of the bottom of the pushing head 805, a pulling piece 804 is fixed on the outer side of each transmission component 803, a long groove for the blocking piece 802 to pass through is formed in each pulling piece 804, the blocking piece 802 is guided to move in the inner portion of the pulling piece 804, a round hole is formed in the bottom of each pulling piece 804, the position of the round hole and the position of a thread fixing hole are located in the same axis, and a bolt can be inserted at the same time; the clamping assemblies 807 are made of flexible rubber materials, vibration of the circulation assemblies 601 can be reduced by means of elasticity, a contact groove 808 is formed in the inner side of each clamping assembly 807, the circulation assemblies 601 are embedded in the contact groove 808, and the circulation assemblies 601 can be attached.

Example 2: based on the first embodiment, when the detergent is not needed, the detergent can be directly not added in the storage part 604 and the inner groove 605, so that the device can normally purify the wastewater.

Specific use and action of the embodiment: after the installation of each component of the equipment is completed, the control support part 8 drives the circulation component 601 and the ultraviolet sterilizer 6 to be installed together, the control bolt is installed, the pulling piece 804 is driven to displace downwards together after the bolt is screwed up, after the control bolt is moved, the spring pushes the blocking piece 802 to be inserted into the long groove, the bottom of the blocking piece 802 is attached to the top end of the bolt to block the bolt, the bolt has no loose space, the transmission component 803 is driven to move together when the pulling piece 804 displaces downwards, the transmission component 803 is in sliding contact with the pushing head 805, the pushing head 805 drives the clamping component 807 to displace transversely due to the inclined contact surface, the circulation component 601 is clamped by means of the elastic clamping circulation component 601, the circulation component 601 cannot transfer outwards after encountering larger vibration and impact, the descaling agent is added into the internal storage of the inner groove 605, then the waste water pipeline is controlled to be connected with the connecting component 602, the waste water circulates in the waste water pipeline, the waste water enters the micro-filter 1 for preliminary filtration, then the protein separator 2 is enabled to concentrate and extract protein to generate protein organic fertilizer, the waste water enters the sedimentation tank 3 for sedimentation, meanwhile, medicines are added in the sedimentation tank 3 to obtain concentrated sludge, the waste water passes through the microbial filter 4 to improve the filtering treatment effect, the waste water enters the circulating component 601 through the connecting component 602, when the waste water completely fills the connecting component 602 for circulation, because the triggering component 608 is made of high-strength foam material, the waste water pushes the triggering component 608 to rise by buoyancy or is pushed to rise by waste water at the water outlet end, and meanwhile, the sealing plate 607 is driven to rise together, so that the communicating pipe 603 can be automatically opened, and the descaling agent can be slowly guided and discharged, the ultraviolet sterilizer 6 can sterilize the wastewater, when the wastewater enters circulation, circulation force can be generated, the wastewater passes through the pushing piece 705, the pushing piece 705 is forced to displace, and meanwhile, the wastewater is discharged through the through hole, when the pushing piece 705 displaces, the scraping component 703 is moved together through the connecting rod 704, the scraping component 703 is enabled to primarily scrape dirt and attachments outside the circulation component 601, the stress plate 702 is enabled to squeeze the carbon fiber spring, after the circulation impact force is reduced after the wastewater stops circulating, the stress plate 702 is pushed again by the carbon fiber spring and the scraping component 703 is reset, the scraping component 703 is enabled to remove the scraped attachments and dirt again, maintenance efficiency is improved, then the wastewater after treatment is discharged for oxygenation, the water quality detector detects the wastewater after treatment, if the wastewater reaches the standard, the wastewater is re-injected into the culture pond for reuse, if the water quality is worse and does not reach the standard, the wastewater enters the internal treatment of the micro-filter 1 again through the pipeline, and the accuracy is improved.

Claims

1. A wastewater treatment device, which comprises a micro-filter (1), a protein separator (2), a sedimentation tank (3), a microorganism filter (4) and a sterilization component (5); the micro-filter (1) is connected with the culture pond, the micro-filter (1) is also connected with the protein separator (2), the protein separator (2) is connected with the sedimentation pond (3), and the sedimentation pond (3) is connected with the microorganism filter (4), and the micro-filter is characterized in that the microorganism filter (4) is connected with the sterilization component (5); the sterilization assembly (5) comprises an ultraviolet sterilizer (6), an inner assembly (7) and a supporting part (8); the bottom of the ultraviolet sterilizer (6) is provided with a circulation assembly (601), two sides of the top end of the circulation assembly (601) are respectively communicated with a connecting assembly (602), and a storage piece (604) is fixed at the top end of the ultraviolet sterilizer (6); the inner component (7) is positioned at the bottom of the ultraviolet sterilizer (6); the ultraviolet sterilizer is characterized in that the supporting parts (8) are positioned at the bottom of the ultraviolet sterilizer (6), two sides of the top end of each supporting part (8) are respectively fixed with a sliding rod (801), the outside of the top end of each sliding rod (801) is connected with a pushing head (805) in a sliding mode, a blocking piece (802) is inserted into the bottom end of each sliding rod (801) in a sliding mode, a transmission assembly (803) is sleeved at the front end of each sliding rod (801) in a sliding mode, a pulling piece (804) is fixed to the outside of each transmission assembly (803), the outer side of the bottom of each pushing head (805) is of an inclined structure, the top end of each pushing head (805) is fixed with a pushing rod (806), and a clamping assembly (807) is installed on the inner side of each pushing rod (806).

2. A wastewater treatment plant as claimed in claim 1, characterized in that: the inside of circulation subassembly (601) has inserted inside subassembly (7), and the top at two supporting parts (8) is fixed to circulation subassembly (601), and the side and the centre gripping subassembly (807) of circulation subassembly (601) contact, and the bottom of ultraviolet sterilizer (6) is equipped with the ultraviolet disinfection lamp, and the ultraviolet disinfection lamp is in the inside of circulation subassembly (601), and coupling assembling (602) are connected with waste water pipeline, and trigger subassembly (608) are in the inside of coupling assembling (602).

3. A wastewater treatment plant as claimed in claim 1, characterized in that: two sides of the storage piece (604) are respectively connected with a communicating pipe (603), the storage piece (604) and the inside of the communicating pipe (603) are simultaneously inserted with two sealing plates (607), the outer end of each sealing plate (607) is fixedly provided with a triggering component (608), the top end of each triggering component (608) is of a conical structure, the end of each triggering component (608) is of a circular structure, the bottom of each triggering component (608) is provided with a groove, and each triggering component (608) is made of high-strength foam materials; an inner groove (605) is arranged in the storage piece (604), two sides of the bottom of the inner groove (605) are of inclined structures, the side edge of the inner groove (605) is communicated with the inside of the communicating pipe (603), a control block (606) is sleeved outside the inner end of each sealing plate (607), and the control block (606) is fixed on the side edge of the inner groove (605).

4. A wastewater treatment plant according to claim 3, characterized in that: the bottom of communicating pipe (603) is the tilting structure, and the outer end of communicating pipe (603) communicates with the inside of coupling assembling (602), and the top of storage piece (604) is equipped with the charge door.

5. A wastewater treatment plant as claimed in claim 1, characterized in that: the carbon fiber spring is sleeved outside the inner assembly (7), the uniformly arranged scraping assemblies (703) are sleeved outside the inner assembly (7), two outer pieces (701) are respectively fixed at two ends of the inner assembly (7), and a stress plate (702) is sleeved outside the inner assembly (7) in a sliding manner; the outer pieces (701) are welded and fixed at two ends of the circulation assembly (601), and joints which are annularly arranged are arranged outside each outer piece (701); the side edge of the stress plate (702) is in contact with the carbon fiber spring; the scraping assembly (703) is of a circular ring structure, the cross section of the scraping assembly (703) is of a triangular structure, and the scraping assembly (703) is fixed with two pushing pieces (705) through a connecting rod (704).

6. A wastewater treatment plant as claimed in claim 5, wherein: the stress plate (702) is fixedly connected with the connecting rod (704) through square rods which are annularly arranged, a side groove (706) is formed in the left side of each pushing piece (705), the outer side edge of each side groove (706) is of an inclined structure, and through holes which are annularly arranged are formed in each side groove (706).

7. A wastewater treatment plant as claimed in claim 5, wherein: three flow guide assemblies (707) are fixed in the scraping assembly (703), two sides of the top end of each flow guide assembly (707) are of inclined structures, and uniformly arranged flow distribution plates (708) are arranged at the top end of each flow guide assembly (707).

8. A wastewater treatment plant as claimed in claim 1, characterized in that: the two support parts (8) are arranged in total, two threaded fixing holes are respectively fixed at two ends of each support part (8), and a fixing bolt is inserted into each threaded fixing hole; the top of slide bar (801) is L shape structure, and the bottom of slide bar (801) is rectangular structure, and the inboard of every slide bar (801) is fixed with a round bar, and the outside cover of every round bar is equipped with the spring, keeps off the outside at the round bar of piece (802) suit, keeps off the inboard and the spring contact of piece (802).

9. A wastewater treatment plant as claimed in claim 1, characterized in that: the inner end of the transmission component (803) is of a wedge-shaped structure, the inner end of the transmission component (803) is in sliding contact with the outer side of the bottom of the pushing head (805), a long groove for the blocking piece (802) to pass through is formed in each pulling piece (804), a round hole is formed in the bottom of each pulling piece (804), and the position of the round hole and the position of the thread fixing hole are located in the same axis.

10. A wastewater treatment plant as claimed in claim 1, characterized in that: the clamping assemblies (807) are made of flexible rubber materials, a contact groove (808) is formed in the inner side of each clamping assembly (807), and the circulation assembly (601) is embedded in the contact groove (808).