CN112107895A

CN112107895A - Landscape garden pool for restoring ecological environment of water polluted environment

Info

Publication number: CN112107895A
Application number: CN202011023636.XA
Authority: CN
Inventors: 蒋涛; 徐杰
Original assignee: Jiangsu Xinyu Environmental Restoration Co ltd
Current assignee: Jiangsu Xinyu Environmental Restoration Co ltd
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2020-12-22

Abstract

The utility model relates to a landscape pond for water polluted environment ecological environment is restoreed relates to water pollution restoration field, landscape pond includes sedimentation tank, landscape pond, still including keeping apart the fagging, inhale and flow post, cage, inhale and flow subassembly and coupling assembling, keep apart the fagging setting between the vertical lateral wall of sedimentation tank, the sedimentation tank is kept apart the fagging and is divided into the subsider chamber of top and the chamber that inhales of below, it sets up at isolation fagging upper surface to inhale the flow post, it sets up in the subsider chamber of sedimentation tank to inhale the flow subassembly, it is used for producing outside-in suction on inhaling the flow post to inhale the flow subassembly, the cage sets up at the upper surface of keeping apart the fagging and covers in inhaling flow post week side through coupling assembling, it is provided with the filtration pore to run through on the cage. This application can effectively improve the effect of subsiding of silt in the water.

Description

Landscape garden pool for restoring ecological environment of water polluted environment

Technical Field

The application relates to the field of water pollution remediation, in particular to a garden landscape pool for water polluted environment ecological environment remediation.

Background

With social development and scientific and technological progress, rapid development of industry and agriculture also leads to more and more serious environmental pollution, more and more toxic and harmful substances enter water, and people also face more and more serious water pollution problems, so that how to solve the water pollution problem and how to purify polluted water bodies is one of the very important problems at present; nowadays, in the process of treating sewage, the sewage treatment is often combined with the environment.

The Chinese patent with the publication number of CN110981102A discloses a landscape pool for restoring water polluted ecological environment and a using method thereof, and relates to the technical field of water purification.

With respect to the related art in the above, the inventors consider that: by utilizing the natural sedimentation of the water body, a large amount of silt enters the landscape pool along with the water flow in the sedimentation process of the silt in the water in the sedimentation tank.

Disclosure of Invention

In order to improve the settlement effect of silt in the water, this application provides a landscape pool for water polluted environment ecological environment restoration.

The application provides a pair of landscape pool for water polluted environment ecological environment is restoreed adopts following technical scheme:

the utility model provides a landscape pond for water polluted environment ecological environment restores, includes sedimentation tank, view pond, still includes keeps apart the fagging, inhales class post, cage, inhales class subassembly and coupling assembling, keep apart the fagging setting between the vertical lateral wall of sedimentation tank, the sedimentation tank is kept apart the fagging and is divided into the subsider chamber of top and the inhales class chamber of below, it sets up at the isolation fagging upper surface to inhale class post, it sets up in the subsider chamber of sedimentation tank to inhale class subassembly, it is used for producing outside-in suction on inhaling class post to inhale class subassembly, the cage sets up at the upper surface of keeping apart the fagging and covers in inhaling class post week side through coupling assembling, it is provided with the filtration pore to run through on the cage.

By adopting the technical scheme, after the water body enters the sedimentation tank, silt is settled under the action of the gravity of the water body on one hand, and on the other hand, the flow suction assembly generates suction force on the flow suction column, so that the water body has the tendency of entering the interior of the isolation cover, and meanwhile, the filter holes can filter the silt, so that the silt is blocked at the outer side of the isolation cover and is settled on the isolation supporting plates, and the sedimentation of the silt is assisted; simultaneously the cage passes through coupling assembling and can dismantle with keeping apart the fagging and link, and after a period, with the silt clean up in the sedimentation tank, can dismantle the cage, clear up, reduce the jam of filtering hole on the cage to this application can effectively improve the effect of subsiding of silt in the water.

Optionally, the current-absorbing subassembly includes current-absorbing pipe, suction flow pump and honeycomb duct, one side setting of current-absorbing pipe is in the current-absorbing post, be provided with a plurality of discharge orifices on the outer wall of walking of current-absorbing post, the discharge orifice communicates with each other with the current-absorbing pipe, the one end that the current-absorbing post was kept away from to the current-absorbing pipe is located the current-absorbing chamber of sedimentation tank, honeycomb duct one end is connected with the one end that the current-absorbing pipe kept away from the current-absorbing post, the current-absorbing pump sets up on the honeycomb duct, the one end that the current-absorbing pipe was kept away from to the honeycomb duct extends to the view pond in.

Through adopting above-mentioned technical scheme, under the suction effect of suction pump, the water in the subsidence chamber of sedimentation tank can have the action of flowing to the draft tube in, and silt is kept apart to this in-process cage, and filterable water can directly enter into the view pond through the honeycomb duct.

Optionally, the connecting piece includes connecting seat, inserted block, card bag, receive and releases bag, communicating pipe and receive and releases the piece, the connecting seat sets up on the cage diapire, be provided with in the connecting seat and receive and release the chamber, receive and release the bag setting at the intracavity that receives and releases of connecting seat, the inserted block sets up the bottom at the connecting seat, communicating pipe set up in the inserted block and with receive and release the bag and communicate with each other, the card bag sets up in the bottom of inserted block and communicates with each other with communicating pipe, the upper surface of keeping apart the fagging is provided with the slot of pegging graft with the inserted block, the slot diapire extends and is provided with the draw-in groove, receive and.

By adopting the technical scheme, the fluid is filled in the retracting and releasing bag, so that when the retracting and releasing member does not extrude the retracting and releasing bag, the fluid can freely flow between the retracting and releasing bag and the clamping bag, so that when the inserting block is inserted into the inserting groove, the clamping bag can be brought into the inserting groove, the retracting and releasing bag is extruded by the retracting and releasing member, the fluid enters the clamping bag and is remained in the clamping bag, at the moment, the clamping bag is supported, the supported clamping bag can be clamped in the inserting groove, and meanwhile, the isolation cover can be arranged on the isolation supporting plate under the abutting action of the inserting block and the groove wall of the inserting groove; when the isolation cover needs to be detached, the squeezing of the deploying and retracting piece to the deploying and retracting bag is released, the inserting block is pulled out from the inserting groove at the moment, the fluid in the clamping bag is squeezed into the deploying and retracting bag, and the clamping bag can be smoothly pulled out from the clamping groove.

Optionally, one end of the communicating pipe, which is far away from the deploying and retracting bag, is provided with a supporting pipe, the supporting pipe extends into the clamping bag, the bottom end of the supporting pipe is fixedly connected with the inner bottom wall of the clamping bag, and a through hole is formed in the side wall of the supporting pipe in a penetrating mode.

By adopting the technical scheme, when the insertion block is inserted into the slot, the support tube can drive the clamping bag to smoothly enter the clamping groove, so that the clamping bag can be fully clamped with the groove wall of the clamping groove after the clamping bag is filled with fluid.

Optionally, a flow guide hole is formed in a wall of the clamping groove and penetrates through the isolation supporting plate.

Through adopting above-mentioned technical scheme, along with constantly being propped up in the card bag, the draw-in groove can be extruded along water conservancy diversion pore to the water in the draw-in groove to make card bag and draw-in groove cell wall joint steadily.

Optionally, a linkage scraping brush is arranged on the vertical inner side wall of the isolation cover, and the linkage scraping brush is abutted against the peripheral wall of the flow suction column.

Through adopting above-mentioned technical scheme, when keeping apart the isolation fagging with the cage, the brush is scraped in the linkage can support the suction flow post and remove to can clear up the silt of adhesion on the suction flow post, reduce the jam of suction flow post.

Optionally, the vertical side wall of the isolation supporting plate is provided with guide rods, each isolation cover is matched with at least two guide rods, the side wall of the connecting seat is provided with a guide ring, and the guide ring is sleeved on the guide rods and attached to the peripheral wall of the guide rods.

By adopting the technical scheme, when the isolation cover is installed, the guide ring is connected with the guide rod in a sliding mode, so that the insertion block can be smoothly inserted into the insertion groove, the operation of a worker for launching and checking the position of the isolation cover is reduced, and the isolation cover is more convenient and faster.

Optionally, the retractable part comprises a pressure plate, a feed screw, a linkage gear, a driving rod and a driving ring column, two pressure plates are arranged on the wall of the retraction cavity in a relatively sliding manner, the two pressure plates are positioned at two sides of the retraction bag, the feed screw is rotationally arranged on the wall of the retraction cavity, the thread directions of the threads on the two sides of the feed screw are opposite, one side of the feed screw is in threaded connection with one pressure plate, the other side of the feed screw is in threaded connection with the other pressure plate, the linkage gear is arranged on the end wall of the feed screw, the driving rod is arranged on the connecting seat in a sliding manner along the vertical direction, the bottom end of the driving rod extends into the retraction cavity and is meshed with the linkage gear, the driving ring column is rotatably arranged on the outer top wall of the connecting seat, the inner ring wall of the driving ring column is in threaded connection with the driving rod, and the driving rod is provided with a limiting part for fixing the driving ring column.

Through taking above-mentioned technical scheme, rotate the drive ring post, make and carry out the screw feed between drive ring post and the actuating lever, thereby the actuating lever can be followed vertical direction and removed, the actuating lever can with linkage gear engagement, thereby feed the screw rod and rotate, two clamp plates can take place the screw feed and relative movement on feeding the screw rod, make two clamp plates can extrude and receive and release the bag, also can keep away from and receive and release the bag, utilize the locating part to drive ring post location at last, can fix a position the clamp plate, reduce the influence of the aversion of clamp plate to card bag and draw-in groove joint.

Optionally, the limiting member includes a lifting rod and a limiting rod, a lifting groove is formed in the top end of the driving rod, the lifting rod is slidably disposed on the wall of the lifting groove, the limiting rod is disposed on the circumferential wall of the lifting rod, and a limiting groove is formed in the top wall of the driving ring column; when the two pressing plates extrude the retractable bag, the limiting rod is inserted into the limiting groove.

Through adopting above-mentioned technical scheme, after two clamp plates extrusion receive and release the bag, the gag lever post removes the position relative with the spacing groove, utilizes the lifter to go up and down on the lifting groove cell wall, can make gag lever post and spacing groove peg graft to can restrict the rotation of drive ring post.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the method, the suction assembly is utilized to generate suction on the suction column, so that the water body tends to enter the interior of the isolation hood, and the filtering holes filter silt, so that the silt is blocked at the outer side of the isolation hood and is settled on the isolation supporting plates, thereby assisting in settling of the silt and improving the settling effect of the silt in the water body;

2. the isolation cover is detachably connected with the isolation supporting plate through the connecting assembly, sludge in the sedimentation tank is cleaned after a period of time, the isolation cover can be detached for cleaning, and blockage of filtering holes in the isolation cover is reduced;

3. this application has set up the linkage and has scraped the brush, when keeping apart the isolation fagging with the cage, the brush is scraped in the linkage, can support and inhale and flow the post and remove to can get off the silt clearance of adhesion on the post that inhales, reduce the jam of post that inhales.

Drawings

Fig. 1 is a schematic structural diagram of a landscape pool in the embodiment of the present application.

Fig. 2 is a top view of a landscape pool in an embodiment of the present application.

Fig. 3 is a cross-sectional view at a-a in fig. 2.

Fig. 4 is an enlarged view at B in fig. 3.

Fig. 5 is an exploded view of the structure of the connection socket in the embodiment of the present application.

Fig. 6 is an enlarged view at C in fig. 5.

Fig. 7 is an enlarged view at D in fig. 5.

Description of reference numerals: 1. a sedimentation tank; 11. a settling chamber; 12. a suction lumen; 2. a sludge tank; 21. a sewage pumping pipe; 22. a first sludge pump; 3. a landscape pool; 31. a partition wall; 5. isolating the supporting plate; 51. a slot; 52. a card slot; 53. a diversion duct; 54. a guide bar; 6. a suction column; 61. an intake orifice; 7. an isolation cover; 71. a filtration pore; 72. linkage scraping and brushing; 8. a suction flow assembly; 81. a suction pipe; 82. a suction pump; 82. a flow guide pipe; 821. a one-way valve; 9. a connecting assembly; 91. a connecting seat; 911. a guide ring; 912. a retraction cavity; 92. inserting a block; 93. clamping a bag; 94. deploying and retracting the bag; 95. a communicating pipe; 951. supporting a pipe; 9511. a through hole; 96. a retractable member; 961. pressing a plate; 962. a feed screw; 963. a linkage gear; 964. a drive rod; 9641. a lifting groove; 965. a drive ring post; 9651. a limiting groove; 966. a limiting member; 9661. a lifting rod; 9662. a limiting rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a landscape pool for restoring ecological environment of water polluted environment.

As shown in fig. 1 and 2, a landscape pool 3 for restoring the ecological environment of a water polluted environment comprises a sedimentation tank 1, a sludge tank 2 and a landscape pool 3, wherein the sedimentation tank 1 is integrally connected with the landscape pool 3, the sedimentation tank 1 and the landscape pool 3 are separated from each other through a partition wall 31, the height of the partition wall 31 is lower than the height of the landscape pool 3, plants capable of decomposing organic matters are planted in the landscape pool 3, a sludge pumping pipe 21 is connected between the sedimentation tank 1 and the sludge tank 2, and a first sludge pump 22 is installed on the sludge pumping pipe 21; therefore, after the water body flows into the sedimentation tank 1, silt in the water body subsides to form silt pile in the sedimentation tank 1, the upper water body of the sedimentation tank 1 passes through the separation wall 31 and enters the landscape tank 3, organic matter molecules in the water body can be degraded by plants in the landscape tank 3, a certain amount of silt is accumulated in the sedimentation tank 1 after a period of time, and at the moment, the first silt pump 22 can be started to pump the silt in the sedimentation tank 1 into the silt tank 2 to degrade harmful substances in the silt.

As shown in fig. 3 and 4, the garden landscape pool 3 of the present embodiment further includes an isolation support plate 5, a flow suction column 6, an isolation cover 7, a flow suction assembly 8 and a connection assembly 9, the isolation support plate 5 is installed between the vertical side walls of the sedimentation basin 1, so that the sedimentation basin 1 is divided into a sedimentation chamber 11 and a flow suction chamber 12 by the isolation support plate 5, the sedimentation chamber 11 is located above the flow suction chamber 12, and the sewage suction pipe 21 is connected to the sedimentation chamber 11 in the sedimentation basin 1; inhale and flow post 6 and install at isolation fagging 5 upper surface, inhale and flow subassembly 8 and set up in sedimentation chamber 11 of sedimentation tank 1, inhale and flow subassembly 8 and be used for producing outside-in's suction on inhaling and flow post 6, be provided with coupling assembling 9 on the cage 7, cage 7 can dismantle the upper surface of connection at isolation fagging 5 through coupling assembling 9, and cage 7 sets up with inhaling the one-to-one of class post 6, cage 7 covers and establishes in corresponding inhaling and flow post 6 week side, still run through on the vertical perisporium of cage 7 and seted up filtration hole 71, the size of filtering hole 71 can be set for according to particular case, and in order to improve the filter effect, can filter hole 71 hole wall mounting filtration membrane. The flow suction assembly 8 is started to enable the flow suction column 6 to generate suction force, so that the water body in the settling chamber 11 flows towards the flow suction column 6, silt is filtered by the isolation cover 7 and is blocked outside the isolation cover 7, and the silt is settled on the isolation supporting plates 5 to form silt; after a period of time, the sludge in the sedimentation tank 1 is discharged, then the connecting assembly 9 is operated, the isolation cover 7 is detached from the isolation supporting plate 5, the isolation cover 7 is cleaned, and then the isolation cover 7 is installed on the isolation supporting plate 5.

As shown in fig. 3, the suction assembly 8 in this embodiment includes a suction pipe 81, a suction pump 82 and a guide pipe 82, one side of the suction pipe 81 is embedded in the suction column 6, the outer wall of the suction column 6 is provided with a plurality of suction holes 61, the suction holes 61 are communicated with the suction pipe 81, one end of the suction pipe 81 far from the suction column 6 extends into the suction chamber 12 of the sedimentation tank 1, one end of the guide pipe 82 is connected with one end of the suction pipe 81 far from the suction column 6, and the guide pipe 82 is provided with a one-way valve 821; the suction pump 82 is installed in the suction chamber 12 of the sedimentation tank 1, the suction pump 82 is connected between the guide pipe 82 and the suction pipe 81, the suction pump 82 is a sludge pump, and meanwhile, one end of the guide pipe 82 far away from the suction pipe 81 extends into the landscape tank 3. The suction pump 82 is started, so that the stable water body in the settling chamber 11 flows to the isolation cover 7, the silt is intercepted, and water and organic matter molecules in the water body enter the suction pipe 81 and then enter the landscape pool 3 through the guide pipe 82.

As shown in fig. 4, the connecting member mainly includes a connecting seat 91, an inserting block 92, a clamping pocket 93, a retracting pocket 94, a communicating pipe 95 and a retracting member 96, the connecting seat 91 is integrally connected to the bottom wall of the isolation hood 7, a retracting chamber 912 is formed in the connecting seat 91, the retracting chambers 912 can be two, three or the like, the retracting chambers 912 are two in this embodiment, the retracting pockets 94 are located in the retracting chambers 912 of the connecting seat 91, the inserting block 92 is integrally connected to the bottom end of the connecting seat 91, the upper surface of the isolation supporting plate 5 is provided with a slot 51 inserted with the inserting block 92, and the side wall of the inserting block 92 is attached to the slot wall of; the communicating pipe 95 is embedded in the inner inserting block 92, one end of the communicating pipe 95 extends into the retracting cavity 912 and is communicated with the retracting bag 94, one end of the communicating pipe 95, which is far away from the retracting bag 94, extends out of the inserting block 92 and is integrally connected with a supporting pipe 951, the clamping bag 93 is fixedly connected to the bottom end of the inserting block 92, the communicating pipe 95 and the supporting pipe 951 extend into the clamping bag 93, the bottom end of the supporting pipe 951 is fixedly connected with the inner bottom wall of the clamping bag 93, a through hole 9511 penetrates through the side wall of the supporting pipe 951, a clamping groove 52 is formed in the bottom wall of the inserting groove 51 in an extending mode, the width of the clamping groove 52 in the horizontal direction is larger than the width of the inserting groove 51 in the horizontal direction, and.

Water is filled in the deploying and retracting bag 94, when the isolation cover 7 is installed on the isolation supporting plate 5, the deploying and retracting part 96 is far away from the deploying and retracting bag 94, so that the inserting block 92 is inserted into the inserting groove 51, the clamping bag 93 can be pushed into the clamping groove 52, then the deploying and retracting part 96 is started to extrude the deploying and retracting bag 94, water in the deploying and retracting bag 94 enters the clamping bag 93 through the communicating pipe 95 and the supporting pipe 951, at the moment, the clamping bag 93 is expanded and clamped on the groove wall of the clamping groove 52, and the isolation cover 7 is installed on the isolation supporting plate 5; when the isolation hood 7 needs to be disassembled, the retraction part 96 is operated, the retraction part 96 is enabled to be away from the retraction bag 94 again, then the isolation hood 7 is moved upwards and is abutted by the groove wall of the clamping groove 52, water in the clamping bag 93 enters the retraction bag 94, and the clamping bag 93 smoothly leaves the clamping groove 52 to complete the disassembly of the isolation hood 7 on the isolation supporting plate 5.

As shown in fig. 4, in order to stably clamp the clamping bag 93 to the groove wall of the clamping groove 52, in this embodiment, the bottom wall of the clamping groove 52 is provided with a flow guide hole 53 penetrating through the bottom wall of the isolation supporting plate 5, so that in the process that the clamping bag 93 is gradually supported by water, the original water in the clamping groove 52 can be squeezed away through the flow guide hole 53, and the outer peripheral wall of the supported clamping bag 93 can be stably attached to and abutted against the groove wall of the clamping groove 52.

As shown in fig. 4 and 5, an interlocking wiper 72 is attached to the bottom end of the vertical inner wall of the shielding case 7, and the interlocking wiper 72 abuts against the peripheral wall of the suction column 6. Thereby when dismantling cage 7, linkage brush 72 can laminate the suction column 6 and remove to can clear up the silt of adhesion on the suction column 6, reduce the jam of suction hole 61.

As shown in fig. 5, in order to facilitate installation of the isolation cover 7, the vertical side wall of the isolation supporting plate 5 is integrally connected with the guide rods 54, each isolation cover 7 is matched with at least two guide rods 54, each isolation cover 7 can be matched with two, three and other guide rods 54, each isolation cover 7 in the embodiment is matched with two guide rods 54, the two guide rods 54 are located at two opposite sides outside the isolation cover 7, the side wall of the connecting seat 91 is integrally connected with the guide ring 911, and the guide ring 911 is sleeved on the guide rods 54 and attached to the peripheral wall of the guide rods 54. When the isolation cover 7 is installed, the guide ring 911 is sleeved on the corresponding guide rod 54, so that the isolation cover 7 can stably move downwards, and the insertion block 92 is smoothly inserted into the insertion slot 51.

As shown in fig. 5 and 6, the retraction member 96 includes two pressing plates 961, two feeding screws 962, a linkage gear 963, a driving rod 964 and a driving ring column 965, the two pressing plates 961 are slidably disposed on the wall of the retraction cavity 912 in the horizontal direction, the two pressing plates 961 are disposed on two sides of the retraction capsule 94, the feeding screw 962 is rotatably disposed on the wall of the retraction cavity 912, the feeding screw 962 is disposed on one horizontal side of the retraction capsule 94, the thread directions of the two sides of the feeding screw 962 are opposite, one side of the feeding screw 962 is in threaded connection with one pressing plate 961, and the other side of the feeding screw 962 is in threaded connection with the other pressing plate 961; linkage gear 963 is connected on the end wall of feed screw 962 integratively, actuating lever 964 sets up on connecting seat 91 along vertical direction slippage, the bottom of actuating lever 964 stretches into in receiving and releasing chamber 912 and meshes with linkage gear 963, drive ring post 965 rotates and sets up on the outer roof of connecting seat 91, the interior rampart of drive ring post 965 and actuating lever 964 threaded connection simultaneously, drive ring post 965 and the actuating lever 964 top in this embodiment stretch out the surface of water, be provided with the locating part 966 that is used for fixed drive ring post 965 on the actuating lever 964.

The driving ring column 965 is rotated, thread feeding is conducted between the driving ring column 965 and the driving rod 964, the driving rod 964 moves downwards, the driving rod 964 is meshed with the linkage gear 963, the feeding screw 962 rotates, accordingly, the two pressing plates 961 move on the feeding screw 962 in a relatively close mode, and the two pressing plates 961 extrude the folding and unfolding bag 94; the drive ring posts 965 are rotated in reverse, thread feed occurs between the drive ring posts 965 and the drive rods 964, the drive rods 964 move upward, the drive rods 964 engage the linkage gears 963, the feed screw 962 rotates in reverse, and thus the two press plates 961 move relatively far away from the feed screw 962, and the two press plates 961 are far away from the storage bag 94.

As shown in fig. 7, the limiting member 966 mainly includes a lifting rod 9661 and a limiting rod 9662, the top end of the driving rod 964 is provided with a lifting slot 9641, the lifting rod 9661 slides on the slot wall of the lifting slot 9641 along the vertical direction, and the lifting rod 9661 and the slot wall of the lifting slot 9641 are frictionally positioned; the limiting rod 9662 is integrally connected to the peripheral wall of the lifting rod 9661 and extends in the vertical direction, and a limiting groove 9651 is formed in the top wall of the driving ring column 965. Two clamp plates 961 stably extrude the bag 94, after the bag 93 is clamped with the groove wall of the clamping groove 52, the limiting rod 9662 is opposite to the limiting groove 9651, and then the lifting rod 9661 is moved downwards, so that the limiting rod 9662 is inserted into the first limiting groove 9651, the driving ring column 965 can be limited, and the clamp plates 961 stably extrude the bag 94.

The implementation principle of the garden landscape pool 3 for restoring the ecological environment of the water polluted environment is as follows: the suction flow pump 82 is started, after the water body flows into the sedimentation tank 1, a part of silt in the water body is settled under the action of gravity to form silt piles in the sedimentation tank 1, the other part of silt in the water body can flow towards the isolation cover 7 along water flow, the silt is intercepted, water and organic matter molecules in the water body enter the suction flow pipe 81, then enter the landscape tank 3 through the guide pipe 82, meanwhile, the upper water body of the sedimentation tank 1 crosses the isolation wall 31 to enter the landscape tank 3, and plants in the landscape tank 3 can degrade the organic matter molecules in the water body.

After a period of time, a certain amount of sludge is accumulated in the sedimentation tank 1, at the moment, the first sludge pump 22 is started, the sludge in the sedimentation tank 1 is pumped into the sludge tank 2 to degrade harmful substances in the sludge, then the ring column 965 is driven in a reverse rotation mode, the driving rod 964 moves upwards, the driving rod 964 is meshed with the linkage gear 963, the feeding screw 962 rotates in a reverse rotation mode, the two pressing plates 961 are arranged at one end, relatively far away from the feeding screw 962, of the feeding screw 962, the two pressing plates 961 are far away from the retraction bag 94, and finally the isolation cover 7 is pulled upwards with force to clean the isolation cover 7; after cleaning, the guide ring 911 is opposite to the guide ring 911, the isolation cover 7 needs to be moved downwards, so that the insertion block 92 is inserted into the insertion slot 51, the clamping bag 93 enters the clamping slot 52, the ring column 965 is driven to rotate, the driving rod 964 moves downwards, the feeding screw 962 rotates, the two pressing plates 961 are arranged at one ends, close to each other, of the feeding screw 962, the two pressing plates 961 extrude the accommodating bag 94, water in the accommodating bag 94 enters the clamping bag 93 through the communication pipe 95 and the supporting pipe 951, at the moment, the clamping bag 93 is expanded and clamped on the wall of the clamping slot 52, and the isolation cover 7 is installed on the isolation supporting plate 5.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a landscape pool for water polluted environment ecological environment is restoreed, includes sedimentation tank (1), view pond (3), its characterized in that: still including keeping apart fagging (5), inhaling and flowing post (6), cage (7), inhaling and flowing subassembly (8) and coupling assembling (9), keep apart fagging (5) and set up between the vertical lateral wall of sedimentation tank (1), sedimentation tank (1) is kept apart sedimentation chamber (11) that fagging (5) divide into the top and the chamber (12) that inhales of below, it sets up at isolation fagging (5) upper surface to inhale flow post (6), it sets up in sedimentation chamber (11) of sedimentation tank (1) to inhale flow subassembly (8), it is used for producing outside-in suction on inhaling flow post (6) to inhale flow subassembly (8), cage (7) are established in the upper surface of keeping apart fagging (5) and cover through coupling assembling (9) and are in inhaling flow post (6) week side, run through on cage (7) and be provided with filtration pore (71).

2. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 1, which is characterized in that: inhale and flow subassembly (8) including inhale flow tube (81), inhale flow pump (82) and honeycomb duct (82), one side setting of inhale flow tube (81) is in inhale flow post (6), it is provided with a plurality of suction holes (61) on the outer wall of inhaling flow post (6), suction holes (61) communicate with each other with inhale flow tube (81), the one end that inhale flow post (6) were kept away from in inhale flow chamber (12) of settling basin (1) to inhale flow post (81), honeycomb duct (82) one end is connected with the one end that inhale flow post (6) were kept away from with inhale flow tube (81), inhale flow pump (82) set up on honeycomb duct (82), the one end that inhale flow tube (81) were kept away from in honeycomb duct (82) extends to view pond (3), be provided with check valve (821) on honeycomb duct (82).

3. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 1, which is characterized in that: the connecting piece comprises a connecting seat (91), an inserting block (92), a clamping bag (93), a releasing bag (94), a communicating pipe (95) and a releasing piece (96), the connecting seat (91) is arranged on the bottom wall of the isolation cover (7), a retraction cavity (912) is arranged in the connecting seat (91), the retraction bag (94) is arranged in a retraction cavity (912) of the connecting seat (91), the inserting block (92) is arranged at the bottom end of the connecting seat (91), the communicating pipe (95) is arranged in the inserting block (92) and communicated with the bag (94), the clamping bag (93) is arranged at the bottom end of the inserting block (92) and is communicated with the communicating pipe (95), the upper surface of the isolation supporting plate (5) is provided with a slot (51) which is inserted with the inserting block (92), the bottom wall of the slot (51) is provided with a clamping groove (52) in an extending mode, and the folding and unfolding piece (96) is arranged on the connecting seat (91) and used for extruding the folding and unfolding bag (94).

4. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 3, which is characterized in that: one end of the communicating pipe (95) far away from the folding and unfolding bag (94) is provided with a supporting pipe (951), the supporting pipe (951) extends into the clamping bag (93), the bottom end of the supporting pipe (951) is fixedly connected with the inner bottom wall of the clamping bag (93), and a through hole (9511) penetrates through the side wall of the supporting pipe (951).

5. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 3, which is characterized in that: and a flow guide hole (53) is formed in the wall of the clamping groove (52), and the flow guide hole (53) penetrates through the isolation supporting plate (5).

6. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 3, which is characterized in that: and a linkage scraping brush (72) is arranged on the vertical inner side wall of the isolation cover (7), and the linkage scraping brush (72) is abutted against the peripheral wall of the flow suction column (6).

7. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 3, which is characterized in that: be provided with guide bar (54) on the vertical lateral wall of keeping apart fagging (5), every cage (7) and at least two guide bar (54) cooperation, be provided with guide ring (911) on connecting seat (91) lateral wall, guide ring (911) cover is established on guide bar (54) and is laminated with guide bar (54) perisporium.

8. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 3, which is characterized in that: the folding and unfolding component (96) comprises two pressing plates (961), a feeding screw rod (962), a linkage gear (963), a driving rod (964) and a driving ring column (965), wherein the two pressing plates (961) are arranged on the wall of the folding and unfolding cavity (912) in a sliding mode, the two pressing plates (961) are located on two sides of the folding and unfolding bag (94), the feeding screw rod (962) is rotatably arranged on the wall of the folding and unfolding cavity (912), the thread directions of the two sides of the feeding screw rod (962) are opposite, one side of the feeding screw rod (962) is in threaded connection with one pressing plate (961), the other side of the feeding screw rod (962) is in threaded connection with the other pressing plate (961), the linkage gear (963) is arranged on the end wall of the feeding screw rod (962), the driving rod (964) is arranged on the connecting seat (91) in a sliding mode in the vertical direction, the bottom end of the driving rod (964) extends into the folding and is in threaded connection with the linkage gear (, the driving ring column (965) is rotatably arranged on the outer top wall of the connecting seat (91), the inner ring wall of the driving ring column (965) is in threaded connection with the driving rod (964), and a limiting part (966) used for fixing the driving ring column (965) is arranged on the driving rod (964).

9. The landscape architecture pond for restoring the ecological environment of the water polluted environment according to the claim 8, which is characterized in that: the limiting piece (966) comprises a lifting rod (9661) and a limiting rod (9662), a lifting groove (9641) is formed in the top end of the driving rod (964), the lifting rod (9661) is arranged on the groove wall of the lifting groove (9641) in a sliding mode, the limiting rod (9662) is arranged on the peripheral wall of the lifting rod (9661), and a limiting groove (9651) is formed in the top wall of the driving ring column (965); when the pressing plates (961) press the retraction bag (94), the limiting rod (9662) is inserted into the limiting groove (9651).