CN218969953U - River course treatment water purifier - Google Patents

Abstract

The utility model provides a river course treatment water purification device, which belongs to the technical field of river course treatment, and comprises a positioning wall arranged in a river course, wherein the positioning wall is provided with a water passing hole, a screen is arranged on the water passing hole, a moving mechanism is arranged on the positioning wall corresponding to the screen, the moving mechanism comprises a movable block, the bottom of the movable block is provided with a fixed block through a telescopic mechanism, the side edge of the fixed block is provided with a collecting box, the side edge of the collecting box is provided with two supporting rods, the supporting rods of the supporting rods are obliquely provided with a bracket, the bracket is provided with a conveying mechanism, the conveying mechanism comprises a conveying belt, and a plurality of clamping plates are arranged on the conveying belt in an array manner; the utility model can clean the garbage bag leaves and the like floating on the river channel, and avoid polluting water sources on the river channel.

Description

River course treatment water purifier

Technical Field

The utility model relates to the technical field of river treatment equipment, in particular to a river treatment water body purifying device.

Background

The urban water-saving self-cleaning method is characterized in that the urban water-saving self-cleaning method is a water-saving country, the rain is unevenly distributed, most of the northern regional cities are severely affected by water deficiency, the ground water level is lowered due to overyear water deficiency and overquick urban development, the surface water is seriously permeated, the urban wetland and landscape water cannot be effectively replaced due to the serious shortage of the rain, the urban water-saving self-cleaning method becomes a pool of stagnant water, the subsidence of pollutants on the water surface quickens the water bottom deposition to seriously sediment, and the self-cleaning capability of the wetland is basically lost.

In recent years, urban domestic sewage is effectively controlled, but the problem of water surface pollution is remarkable, the water surface pollution refers to the flocs, fallen leaves, household garbage, phytoplankton, greasy dirt and the like which float on the water surface, and manual salvage is the most original method, and the method is a method for salvaging the floaters on a ship or on the shore by a landing net and then taking the sundries to the shore or discarding along the river shore by the ship, so that the working efficiency is low, the labor intensity is high, and the sundries are inconvenient to collect.

Disclosure of Invention

In view of the above, the utility model provides a river treatment water body purifying device which can clean garbage bag leaves and the like floating on a river and prevent the garbage bag leaves from polluting a water source on the river.

In order to solve the technical problems, the utility model provides a river treatment water purification device, which comprises a positioning wall arranged in a river channel, wherein the positioning wall is provided with a water passing hole, the river in the river channel can continuously flow through the water passing hole, a screen is arranged on the water passing hole, the screen can block infusion plastic bags and the like, a moving mechanism is arranged on the positioning wall corresponding to the screen, the moving mechanism comprises a movable block, the moving mechanism can transversely move along the direction of the positioning wall along the movable block, the bottom of the movable block is provided with a fixed block through a telescopic mechanism, the movable block can transversely move along the fixed block through the telescopic mechanism, the side edge of the fixed block is provided with a collecting box, the side edge of the collecting box is provided with two supporting rods, a support is obliquely arranged on the supporting rods, the support is provided with a conveying mechanism, the conveying mechanism comprises a conveying belt, and a plurality of clamping plates are arranged on the conveying belt in an array manner. Namely, the conveying belt can convey garbage on the surface of the river channel into the collecting box.

The moving mechanism comprises two bearing seats arranged at the top end of the positioning wall, the bearing seats are arranged at two ends of the upper surface of the positioning wall, a first threaded rod is arranged between the two bearing seats, the first threaded rod can rotate between the two bearing seats, a movable block is arranged on the first threaded rod, a first threaded hole is formed in the movable block corresponding to the first threaded rod, the first threaded rod penetrates through the first threaded hole to be connected with the movable block, a first motor is arranged on the positioning wall, and an output shaft of the first motor is connected with the first threaded rod; i.e. the rotation of the first threaded rod can enable the movable block to transversely move along the direction of the positioning wall.

Preferably, a guide rod is arranged between the two bearing seats, a guide hole is arranged on the movable block corresponding to the guide rod, and the guide rod passes through the guide hole to be connected with the movable block; namely, the guide rod is matched with the guide hole to limit the movable block.

The telescopic mechanism comprises a positioning block arranged at the bottom of the movable block, a chute is arranged on the positioning block, the chute is vertically arranged on the positioning block, a traction block is arranged in the chute, the traction block can move up and down in the chute, a second threaded rod is arranged in the chute, the second threaded rod can rotate in the chute, a second threaded hole is formed in the traction block by the second threaded rod, the traction block can move up and down in the chute by the rotation of the second threaded rod, a cavity is formed in the positioning block, a second motor is arranged in the cavity, and an output shaft of the second motor is connected with the second threaded rod; i.e. the second motor is able to drive the second threaded rod in rotation.

Preferably, the chute is of a T-shaped structure; i.e. the traction block cannot fall off from the chute.

Preferably, the cross section of the chute is of a polygonal structure; i.e. the second threaded rod can move up and down with the traction block.

Preferably, a water supply pipe is arranged on the aggregate box, one end of the water supply pipe is provided with a suction head corresponding to the screen, the suction head can suck algae or phytoplankton on the screen into the water supply pipe, the other end of the water supply pipe is positioned in the aggregate box, and the end part of the water supply pipe is provided with a water pump; i.e. the water feed pipe can feed algae or phytoplankton into the collecting box.

Preferably, the bottom of the water collecting box is provided with filter cloth; i.e. the water in the collecting box can fall back into the river through the filter cloth.

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

1. the material collecting box can transversely move on the river by controlling the moving mechanism to work, and meanwhile, the conveying mechanism is controlled to work, so that the conveying mechanism can convey garbage bags on the upper surface of the river into the material collecting box.

2. The height of the water level of the river in the river channel can change along with various factors such as seasons, the collecting box can be always located on the upper surface of the river through the telescopic assembly, and accordingly garbage bag leaves and the like on the upper surface of the river can be cleaned continuously.

3. The water supply pipe is arranged on the material collecting box through bolts, and when the horizontal height of the material collecting box is controlled to change, the water supply pipes with different lengths can be replaced, so that the water supply pipe can always convey algae or phytoplankton attached to the screen into the material collecting box.

Drawings

FIG. 1 is a schematic diagram of a river course water purification device according to the present utility model;

FIG. 2 is a schematic view of the telescopic mechanism of the present utility model;

FIG. 3 is a schematic view of the structure of the collecting trough of the present utility model;

fig. 4 is a schematic diagram of a side view of a water pipe according to the present utility model.

Reference numerals illustrate:

100. a positioning wall; 101. a water passing hole; 102. a screen; 103. a fixed block; 104. a collection box; 105. a support rod; 106. a bracket; 107. a filter cloth;

200. a moving mechanism; 201. a bearing seat; 202. a first threaded rod; 203. a movable block; 204. a first threaded hole; 205. a guide rod; 206. a guide hole; 207. a first motor;

300. a telescoping mechanism; 301. a positioning block; 302. a chute; 303. a traction block; 304. a second threaded rod; 305. a second threaded hole; 306. a second motor;

400. a conveying mechanism; 401. a conveyor belt; 402. a clamping plate;

500. a water supply pipe; 501. a suction head; 502. and (3) a water pump.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 4 of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the utility model, fall within the scope of protection of the utility model.

As shown in fig. 1-4: the embodiment provides a river course treatment water purification device, including setting up the locating wall 100 in the river course, the locating wall 100 is fixed to be set up in the river course for the concrete wall, set up water hole 101 on the locating wall 100, river in the river course can continue to flow through water hole 101, set up screen 102 on water hole 101, screen 102 can block disposal bag leaf etc. in the river, set up moving mechanism 200 on the locating wall 100 corresponding to screen 102, moving mechanism 200 includes movable block 203, the movable block 203 bottom sets up fixed block 103 through telescopic machanism 300, telescopic machanism 300 can bring fixed block 103 to reciprocate, the fixed block 103 side sets up aggregate box 104, aggregate box 104 can collect debris in the river, aggregate box 104 side sets up two branch 105, slope on branch 105 sets up support 106, two branch 105 can provide support for support 106, set up transport mechanism 400 on support 106, transport mechanism 400 includes conveyer 401, the array on the conveyer 401 sets up a plurality of cardboard 402; can clear up the disposal bag leaf etc. that floats on the river course, avoid it to pollute the water source on the river course.

The river in the river course can pass through the water hole 101 and continue to flow, most sundries in the river can be blocked by the screen 102 when the river passes through the water hole 101, and then the moving mechanism 200 drives the movable block 203 to move transversely along the direction of the positioning wall 100, so that the movable block can indirectly drive the aggregate box 104 to move transversely through the telescopic mechanism 300, meanwhile, the conveying mechanism 400 is controlled to work, the conveying mechanism works so that the conveying belt 401 can drive the clamping plate 402 to rotate, and accordingly the sundries in the river can be stirred into the aggregate box 104 through the garbage bags, leaves and the like on the upper surface of the river, and the aggregate box 104 can collect the sundries in the river.

The movement mechanism 200 is as shown in figure 1,

the moving mechanism 200 comprises two bearing seats 201 arranged at the top end of the positioning wall 100, the bearing seats 201 are arranged at two ends of a base surface at the upper part of the positioning wall 100, a first threaded rod 202 is arranged between the two bearing seats 201, the first threaded rod 202 can rotate between the two bearing seats 201, a movable block 203 is arranged on the first threaded rod 202, a first threaded hole 204 is arranged on the movable block 203 corresponding to the first threaded rod 202, the first threaded rod 202 penetrates through the first threaded hole 204 to be connected with the movable block 203, a first motor 207 is arranged on the positioning wall 100, and an output shaft of the first motor 207 is connected with the first threaded rod 202. Namely, the first motor 207 is controlled to work, the output shaft of the first motor 207 can drive the first threaded rod 202 to rotate between the two bearing seats 201, and the first threaded rod 202 can drive the movable block 203 to transversely move along the direction of the positioning wall 100 through the first threaded hole 204 when rotating.

A guide rod 205 is disposed between the two bearing blocks 201, a guide hole 206 is disposed on the movable block 203 corresponding to the guide rod 205, and the guide rod 205 is connected with the movable block 203 through the guide hole 206. The guide rod 205 cooperates with the guide hole 206 to guide the movable block 203 so that the first threaded rod 202 does not rotate together with the movable block 203 when rotating.

The telescoping mechanism 300 is shown in figure 2,

the telescopic mechanism 300 comprises a positioning block 301 arranged at the bottom of the movable block 203, the positioning block 301 is vertically arranged at the bottom of the movable block 203, a chute 302 is arranged on the positioning block 301, the chute 302 is vertically arranged inside the positioning block 301, a traction block 303 is arranged in the chute 302, the traction block 303 is provided with a fixed block 103, the traction block 303 can move up and down in the chute 302, a second threaded rod 304 is arranged in the chute 302, the second threaded rod 304 can rotate in the chute 302, the second threaded rod 304 is provided with a second threaded hole 305 on the traction block 303, the second threaded rod 304 is inserted into the second threaded hole 305 to be connected with the traction block 303, a cavity is arranged on the positioning block 301, a second motor 306 is arranged in the cavity, and an output shaft of the second motor 306 is connected with the second threaded rod 304. That is, the second motor 306 in the control chamber works, the output shaft of the second motor 306 can drive the second threaded rod 304 to rotate in the chute 302, the second threaded rod 304 rotates in the second threaded hole 305 to enable the traction block 303 to move up and down in the chute 302, and the traction block 303 can drive the fixing block 103 to move up and down, so that the collection box 104 is indirectly driven to move up and down.

Chute 302 is a T-shaped structure. The traction block 303 is also in a T-shaped structure, that is, the traction block 303 cannot fall off from the sliding groove 302 in the process of moving up and down in the sliding groove 302.

The cross section of the chute 302 is polygonal in structure. The cross section of the traction block 303 is also polygonal, that is, the threaded rod rotates without carrying the traction block 303 to rotate together, so that the traction block 303 can move up and down in the chute 302.

A water delivery pipe 500 is arranged on the material collecting box 104, a suction head 501 is arranged at one end of the water delivery pipe 500 corresponding to the screen 102, the other end of the water delivery pipe 500 is positioned in the material collecting box 104, and a water pump 502 is arranged at the end part of the water delivery pipe 500. Namely, the water pump 502 is controlled to work, the suction head 501 can suck algae or phytoplankton adhered to the screen 102 into the water supply pipe 500 and then send the algae or phytoplankton into the collecting tank, and the water supply pipe 500 is mounted on the collecting box 104 through bolts, when the level of the collecting box 104 is controlled to change, the water supply pipes 500 with different lengths can be replaced, so that the water supply pipe 500 can always send algae or phytoplankton adhered to the screen 102 into the collecting box 104.

The bottom of the water collecting box is provided with a filter cloth 107. I.e. the water in the magazine 104 can fall back into the river through the filter cloth 107.

Application method

The river in the river course can pass through the water hole 101 and continue to flow, most sundries in the river can be blocked by the screen 102 when the river passes through the water hole 101, then the first motor 207 is controlled to work so that the aggregate box 104 can indirectly move transversely along the direction of the positioning wall 100, meanwhile, the conveying mechanism 400 is controlled to work, the conveying mechanism works so that the conveying belt 401 can rotate with the clamping plate 402, and accordingly garbage bags, leaves and the like on the upper surface of the river can be stirred to be conveyed into the aggregate box 104, and the aggregate box 104 can collect sundries in the river. At the same time, by controlling the water pump 502 to operate, the suction head 501 can suck the algae or phytoplankton adhered to the screen 102 into the water supply pipe 500 and then send the algae or phytoplankton into the collecting tank.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the present utility model.

Claims (8)

1. A river course administers water purifier, its characterized in that: including setting up the locating wall (100) in the river course, set up water hole (101) on locating wall (100), set up screen cloth (102) on water hole (101), set up shifter (200) on locating wall (100) corresponding screen cloth (102), shifter (200) are including movable block (203), movable block (203) bottom sets up fixed block (103) through telescopic machanism (300), fixed block (103) side sets up box (104) that gathers materials, box (104) side sets up two branch (105) that gathers materials, slope on branch (105) sets up support (106), set up transport mechanism (400) on support (106), transport mechanism (400) are including conveyer belt (401), array on conveyer belt (401) sets up a plurality of cardboard (402).

2. The river course remediation water purification apparatus of claim 1, wherein: the moving mechanism (200) comprises two bearing seats (201) arranged at the top end of the positioning wall (100), a first threaded rod (202) is arranged between the bearing seats (201), a movable block (203) is arranged on the first threaded rod (202), a first threaded hole (204) is formed in the movable block (203) corresponding to the first threaded rod (202), the first threaded rod (202) penetrates through the first threaded hole (204) to be connected with the movable block (203), a first motor (207) is arranged on the positioning wall (100), and an output shaft of the first motor (207) is connected with the first threaded rod (202).

3. A river course remediation water purification apparatus as claimed in claim 2, wherein: a guide rod (205) is arranged between the two bearing seats (201), a guide hole (206) is formed in the movable block (203) corresponding to the guide rod (205), and the guide rod (205) penetrates through the guide hole (206) to be connected with the movable block (203).

4. The river course remediation water purification apparatus of claim 1, wherein: the telescopic mechanism (300) comprises a positioning block (301) arranged at the bottom of the movable block (203), a sliding groove (302) is formed in the positioning block (301), a traction block (303) is arranged in the sliding groove (302), a second threaded rod (304) is arranged in the sliding groove (302), a second threaded hole (305) is formed in the traction block (303) corresponding to the second threaded rod (304), a cavity is formed in the positioning block (301), a second motor (306) is arranged in the cavity, and an output shaft of the second motor (306) is connected with the second threaded rod (304).

5. The river course treatment water purification apparatus of claim 4, wherein: the chute (302) is of a T-shaped structure.

6. The river course treatment water purification apparatus of claim 4, wherein: the cross section of the sliding groove (302) is of a polygonal structure.

7. The river course remediation water purification apparatus of claim 1, wherein: the collecting box (104) is provided with a water delivery pipe (500), one end of the water delivery pipe (500) is provided with a suction head (501) corresponding to the screen (102), the other end of the water delivery pipe (500) is positioned in the collecting box (104), and the end part of the water delivery pipe (500) is provided with a water pump (502).

8. The river course treatment water purification apparatus of claim 7, wherein: the bottom of the collecting box (104) is provided with filter cloth (107).

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