CN113003696B

CN113003696B - River course water environment treatment device

Info

Publication number: CN113003696B
Application number: CN202110357891.6A
Authority: CN
Inventors: 同玉; 石佳; 汤朝; 纪亚星
Original assignee: Xian University of Technology
Current assignee: Xian University of Technology
Priority date: 2021-04-01
Filing date: 2021-04-01
Publication date: 2023-12-05
Anticipated expiration: 2041-04-01
Also published as: CN113003696A

Abstract

The invention relates to the field of river channel treatment, in particular to a river channel water environment treatment device. The utility model provides a river course water environment treatment device, includes semicircle case and baffle, the unilateral of semicircle case is opened, and the baffle setting can install the filter between baffle and the semicircle case in the open side of semicircle case. And filter pieces with different sizes can be installed between the partition plate and the semicircular box. The relative positions of the partition plates and the semicircular boxes can be changed. The partition plate can horizontally rotate on the semicircular box. The river water environment treatment device further comprises a top shaft, a cross rod and a fixing sleeve, the fixing sleeve is arranged on the semicircular box, the cross rod is slidably connected to the fixing sleeve, the top shaft is arranged at the end, close to the semicircular box, of the partition board, and the top shaft is rotatably connected to the cross rod.

Description

River course water environment treatment device

Technical Field

The invention relates to the field of river channel treatment, in particular to a river channel water environment treatment device.

Background

The invention provides a steel dam structure for water environment treatment, which is disclosed in the application number CN201810566402.6, and comprises a steel dam main body, a water injection electromagnetic valve and a drainage electromagnetic valve; and water diversion bodies are vertically welded on the back surface of the steel dam body at uniform intervals. The invention realizes a steel dam structure which can change the overflow amount and stabilize and control the water environment treatment through the mutual cooperation of the structures, controls the storage and the discharge of water through the water pump and each electromagnetic valve, realizes the lifting cooperation of the inner gate and the outer gate, particularly when the stock water is more, adopts the layering of the inner gate and the outer gate and the way of dividing the flow to close the gate, is safer to operate, and only uses electric elements such as the water pump, the electromagnetic valve and the like, compared with an electric cylinder, the structure is more practical in maintenance and maintenance, and the existing steel dam structure is mainly blocked among mountain bodies, more sediment in river is easy to accumulate the river channel, and the arrangement of the muddy water separator and the power blade enables the nearby steel dam not to generate the accumulation of the mud. But this patent fails to address the water after diversion.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a river water environment treatment device which has the beneficial effects that water can be treated after diversion.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a river course water environment treatment device, includes semicircle case and baffle, the unilateral of semicircle case is opened, and the baffle setting can install the filter between baffle and the semicircle case in the open side of semicircle case.

And filter pieces with different sizes can be installed between the partition plate and the semicircular box.

The relative positions of the partition plates and the semicircular boxes can be changed.

The partition plate can horizontally rotate on the semicircular box.

The river water environment treatment device further comprises a top shaft, a cross rod and a fixing sleeve, the fixing sleeve is arranged on the semicircular box, the cross rod is slidably connected to the fixing sleeve, the top shaft is arranged at the end, close to the semicircular box, of the partition board, and the top shaft is rotatably connected to the cross rod.

The filter element that filter frame and filter plate constitute, after river course water gets into semicircle case, can filter by the filter plate, and the effect of filter frame is the mounting panel.

The function of the vertical groove is to provide an installation groove for the filter frame, and the function of the column is to facilitate the installation of the vertical groove on the column, thereby providing an installation groove for the filter frame.

Because three filter frames are respectively inserted on three vertical grooves, the river water flow filter plate can be filtered through three filter plates, and the filtering is more sufficient.

The three filter plates divide the semicircular box into two areas, so that slowly-dissolved chemical agents can be arranged in the two areas, and the pH value of river water can be adjusted through the chemical agents.

The inflow and outflow opening for water to enter the semicircular box and to come out of the semicircular box is formed between the two side plates and the partition plate, and the inflow and outflow opening can be enlarged by the V-shaped arrangement of the two side plates, so that inflow and outflow of river water are facilitated.

The river water environment treatment device has the beneficial effects that:

the invention can control the water after diversion.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of an embodiment of adjusting the pH of river water with a chemical agent;

FIG. 2 is a schematic diagram of an embodiment in which river water is filtered by a filter plate after entering a semicircular tank;

FIG. 3 is a schematic diagram of a semi-circular box;

FIG. 4 is a second schematic structural view of a half-round box;

FIG. 5 is a schematic view of the structure of the partition and the slider;

FIG. 6 is a schematic view of a filter plate;

FIG. 7 is a schematic structural view of a cross bar;

FIG. 8 is a schematic view of a cylinder;

FIG. 9 is a schematic view of a V-shaped plate;

FIG. 10 is a schematic view of a V-shaped plate;

FIG. 11 is a schematic view of an embodiment of a river flow filter plate that will be filtered through three filter plates.

In the figure: a semicircular case 101; a side plate 102; a bottom shaft 103; a turntable 104; pins 105; a separator 201; a ledge 202; a top shaft 203; a U-shaped stopper 204; vertical slots 205; a cylinder 206; a slider 301; a shutter 302; a hinge lever 303; a hinge base 304; a filter frame 401; a filter plate 402; a cross bar 501; a fixed sleeve 502; triangular grooves 503; triangular posts 504; a cylinder 601; a vertical hole 602; a male shaft 603; a hack lever 604; a V-shaped plate 701; a backsheet 702; peg 703.

Detailed Description

Referring to fig. 1-5 and 11, there are shown schematic views of embodiments of post-diversion treatment of water in accordance with the present invention,

the baffle 201 divides the semicircular box 101 into a front area and a rear area, so that water flows to the rear side of the baffle 201 after turning around from the semicircular box 101 after entering the semicircular box 101 from the front side of the baffle 201, and the river water flows in a zigzag manner, and the filter element filters and treats the river water, and the baffle 201 and the semicircular box 101 guide the water and treat the river water, so that the river water flows in a zigzag manner and then is treated conveniently.

Referring to fig. 1-5 and 11, there are shown schematic diagrams of embodiments of the present invention for controlling flow of filtered river water according to flow demand, further,

the filter pieces with different sizes are installed between the partition plate 201 and the semicircular box 101 to control the flow rate of water flowing between the partition plate 201 and the semicircular box 101, so that the flow rate is controlled according to the flow rate requirement to filter river water.

Referring to fig. 1-5, there are shown schematic views of embodiments of the filter element according to the present invention that enable different sizes to be installed between the partition 201 and the semicircular box 101, further,

the function that the relative position of baffle 201 and semicircle case 101 can change is the interval between control baffle 201 and the semicircle case 101, and then makes the filter that can install different sizes between baffle 201 and the semicircle case 101, and then the flow is filtered river water according to the flow needs control.

Referring to fig. 1-5, there are shown schematic diagrams of another embodiment of the present invention for filtering river water at a controlled flow rate, further,

since the partition 201 can horizontally rotate on the semicircular tank 101, the distance between the front side of the partition 201 and the front portion of the semicircular tank 101 can be controlled by horizontally rotating the partition 201 on the semicircular tank 101, the flow rate of the river water from the front side of the semicircular tank 101 can be controlled, and the river water can be filtered at another prevention control flow rate.

Referring to fig. 1, 5, 7, 11, there is shown a schematic diagram of another embodiment of the present invention for preventing the control flow from filtering the river water, further,

the cross rod 501 can move left and right on the fixed sleeve 502, so as to drive the top shaft 203 to move left and right, and further drive the partition plate 201 to move left and right, so that the relative positions of the partition plate 201 and the semicircular box 101 can be changed, and further filter pieces with different sizes can be installed between the partition plate 201 and the semicircular box 101, and then the flow is controlled to filter river water according to the flow requirement; meanwhile, the partition 201 can rotate on the left part of the cross rod 501 through the top shaft 203, so that the partition 201 can horizontally rotate on the semicircular box 101, and river water is filtered through another prevention control flow.

Referring to fig. 6, there is shown a schematic diagram of an embodiment of the present invention in which the channel water is filtered by the filter plates 402 after entering the semicircular tank 101, further,

the filter element composed of the filter frame 401 and the filter plate 402 is filtered by the filter plate 402 after the river water enters the semicircular box 101, and the filter frame 401 is used as the mounting plate 402.

Referring to fig. 5-6, there are shown schematic views of embodiments of the present invention that provide a mounting groove for the filter frame 401, further,

the function of the vertical channel 205 is to provide a mounting channel for the filter frame 401 and the function of the cylinder 206 is to facilitate the placement of the vertical channel 205 on the cylinder 206 to provide a mounting channel for the filter frame 401.

Referring to fig. 5-6, there are shown schematic diagrams of embodiments of the present invention in which the river flow filter plates 402 are filtered through three filter plates 402, further,

since the three filter frames 401 are respectively inserted into the three vertical grooves 205, the river water flow filter plates 402 can be filtered through the three filter plates 402, and the filtering is more sufficient.

Referring to fig. 11, there is shown a schematic diagram of an embodiment of adjusting the ph of river water by chemical agent according to the present invention, further,

since the three filter plates 402 divide the semicircular box 101 into two areas, the slowly dissolved chemical agent can be disposed in the two areas, and the pH value of the river water can be adjusted by the chemical agent.

Referring to fig. 1 and 3, there are shown schematic views of an embodiment of expanding both inflow and outflow ports according to the present invention, further,

an inflow and outflow port for water to enter the semicircular box 101 and to come out of the semicircular box 101 is formed between the two side plates 102 and the partition plate 201, and the inflow and outflow ports can be enlarged by the V-shaped arrangement of the two side plates 102, so that inflow and outflow of river water are facilitated.

The river water environment treatment device further comprises triangular grooves 503 and triangular columns 504, a plurality of triangular columns 504 are arranged on the upper side of the cross rod 501 from left to right, the triangular columns 504 are detachably connected to the upper side of the fixing sleeve 502 through screws, and the triangular columns 504 are inserted into gaps of the triangular columns 504 so as to fix the cross rod 501 and the fixing sleeve 502.

Referring to fig. 1-11, there are shown schematic views of an embodiment of fixing the position of the spacer 201 and the top shaft 203 according to the present invention, further,

the upper side of the fixed sleeve 502 is detachably connected with a triangular column 504 through a screw, and then the triangular column 504 is inserted into gaps among a plurality of triangular columns 504 to fix the cross rod 501 and the fixed sleeve 502, so that the position of the top shaft 203 is fixed, and after the positions of the partition 201 and the top shaft 203 are adjusted, the positions of the partition 201 and the top shaft 203 are fixed.

The river water environment treatment device further comprises a convex frame 202 and a U-shaped baffle 204, the convex frame 202 is fixedly connected to the partition plate 201, the U-shaped baffle 204 is detachably connected to the convex frame 202 through screws, and the U-shaped baffle 204 is pressed on the upper sides of the three filter frames 401.

Referring to fig. 1-11, there are shown schematic views of an embodiment of preventing multiple filter frames 401 from exiting the cylinder 206 in accordance with the present invention, further,

the U-shaped stopper 204 can be detached from the flange 202, and the U-shaped stopper 204 can be pressed against the upper sides of the plurality of filter frames 401, thereby preventing the plurality of filter frames 401 from being separated from the cylinder 206.

The river water environment treatment device further comprises a sliding block 301, a baffle door 302, a hinge rod 303 and a hinge seat 304, wherein the hinge seat 304 is fixedly connected to the upper side of the partition board 201, two baffle doors 302 are arranged at two ends of the hinge seat 304 in a hinged mode, the two baffle doors 302 are respectively located at two sides of the partition board 201, the sliding block 301 is connected to the upper portion of the partition board 201 in a sliding mode, the two hinge rods 303 are hinged to the sliding block 301, the two hinge rods 303 are respectively hinged to the upper sides of the two baffle doors 302, the sliding block 301 is driven to move through a hydraulic cylinder, and the outer ends of the two baffle doors 302 can be respectively contacted with the two side plates 102.

Referring to fig. 1-11, there are shown schematic views of embodiments of the present invention for sealing a water inlet on a semicircular tank 101, further,

when the sliding block 301 is driven by the hydraulic cylinder, the two baffle doors 302 can be respectively driven to rotate on the hinge seat 304 by the two hinge rods 303, so that the water inlet and the water outlet on the semicircular box 101 are closed, and the water inlet and the water outlet on the semicircular box 101 are closed when river water does not need to be treated.

The river water environment treatment device further comprises a cylinder 601, vertical holes 602, a protruding shaft 603 and a hack lever 604, wherein the cylinder 601 is provided with a plurality of vertical holes 602 in an annular uniformly distributed mode, the protruding shaft 603 is fixedly connected to the upper portion of the cylinder 601, the protruding shaft 603 is rotatably connected to the hack lever 604, the hack lever 604 is fixedly connected to the upper side of the semicircular box 101, and the cylinder 601 is located in an area where the semicircular box 101 is divided by the three filter plates 402.

Referring to fig. 1-11, there are shown schematic diagrams of embodiments of chemical release in a cylinder 601 in accordance with the present invention, further,

the cylinder 601 can be filled with chemical agents which are not easy to dissolve quickly, the cylinder 601 is arranged in an area where the semicircular box 101 is divided by the three filter plates 402, when water passes through the area, the chemical agents in the cylinder 601 are dissolved and then released, and the pH value of river water is adjusted by the chemical agents. The cylinder 601 may be rotated on the hack lever 604 by the protruding shaft 603 to further assist in the release of the chemical agent within the cylinder 601.

The river water environment treatment device further comprises a bottom shaft 103, a rotary disc 104 and contact pins 105, the bottom shaft 103 is fixedly connected to the lower side of the semicircular box 101, the rotary disc 104 is rotatably connected to the bottom shaft 103, and the rotary disc 104 is uniformly provided with the contact pins 105 in an annular shape.

Referring to fig. 1-11, there are shown schematic views of an embodiment of adjusting the water inflow direction of a semicircular tank 101 according to the present invention, further,

the contact pin 105 can be inserted into the ground, so as to fix the semicircular box 101, and the semicircular box 101 can rotate on the turntable 104 through the bottom shaft 103, so that the water inlet direction of the semicircular box 101 is adjusted.

The river water environment treatment device further comprises a V-shaped plate 701, a bottom plate 702 and plug pins 703, wherein the V-shaped plate 701 is fixedly connected to the left end of the partition plate 201, the bottom plate 702 is fixedly connected to the V-shaped plate 701, and the bottom plate 702 is inserted with the plug pins 703.

Referring to fig. 1-11, there are shown schematic views of an embodiment of the present invention for fixing the rotational position of a semicircular box 101, further,

the V-shaped plate 701 further guides water flowing in and out of the semicircular box 101, and after the peg 703 is inserted into the ground, the semicircular box 101 can be prevented from rotating on the turntable 104 through the bottom shaft 103, and the rotation position of the semicircular box 101 is fixed when needed.

Claims

1. River course water environment treatment device, including semicircle case (101) and baffle (201), its characterized in that: the semicircular box (101) is opened at one side, the partition plate (201) is arranged at the opening side of the semicircular box (101), and a filter element can be installed between the partition plate (201) and the semicircular box (101);

filter pieces with different sizes can be installed between the partition plate (201) and the semicircular box (101);

the relative positions of the partition plate (201) and the semicircular box (101) can be changed;

the partition plate (201) can horizontally rotate on the semicircular box (101);

the semi-circular box is characterized by further comprising a top shaft (203), a cross rod (501) and a fixing sleeve (502), wherein the fixing sleeve (502) is arranged on the semi-circular box (101), the cross rod (501) is connected to the fixing sleeve (502) in a sliding mode, the top shaft (203) is arranged at the end, close to the semi-circular box (101), of the partition plate (201), and the top shaft (203) is connected to the cross rod (501) in a rotating mode;

the filter element comprises a filter frame (401) and a filter plate (402), and the filter plate (402) is arranged on the filter frame (401);

the filter comprises a semicircular box (101), and is characterized by further comprising a vertical groove (205) and a cylinder (206), wherein the end, close to the semicircular box (101), of the partition plate (201) is provided with the cylinder (206), at least one vertical groove (205) is arranged on the cylinder (206), one side of a filter frame (401) is inserted into the vertical groove (205), and the other side of the filter frame (401) is in contact with the inner side wall of the semicircular box (101);

three vertical grooves (205) are formed in the cylinder (206), three filter frames (401) and three filter plates (402) are respectively arranged, and the three filter frames (401) are respectively inserted into the three vertical grooves (205);

the three filter plates (402) divide the semicircular box (101) into two areas;

the semi-circular box is characterized by further comprising side plates (102), wherein the side plates (102) are arranged on two sides of the semi-circular box (101), and the two side plates (102) are arranged in a V shape;

the river water environment treatment device further comprises triangular grooves (503) and triangular columns (504), wherein a plurality of triangular columns (504) are arranged on the upper side of the cross rod (501) from left to right, the triangular columns (504) are detachably connected to the upper side of the fixed sleeve (502) through screws, and the triangular columns (504) are inserted into gaps of the triangular columns (504) so as to fix the cross rod (501) and the fixed sleeve (502);

the river water environment treatment device further comprises a convex frame (202) and a U-shaped baffle (204), the convex frame (202) is fixedly connected to the partition board (201), the U-shaped baffle (204) is detachably connected to the convex frame (202) through screws, and the U-shaped baffle (204) is pressed on the upper sides of the three filter frames (401);

river course water environment treatment device still includes slider (301), shutter (302), articulated lever (303) and articulated seat (304), the upside fixedly connected with articulated seat (304) of baffle (201), shutter (302) are provided with two, two shutter (302) articulate respectively in the both ends of articulated seat (304), two shutter (302) are located the both sides of baffle (201) respectively, slider (301) sliding connection is on the upper portion of baffle (201), it has two articulated lever (303) to articulate on slider (301), two articulated lever (303) articulate respectively in the upside of two shutter (302), slider (301) are through pneumatic cylinder drive removal, the outer end of two shutter (302) can be contacted with two curb plates (102) respectively.

2. The river water environment treatment device according to claim 1, wherein: the river water environment treatment device further comprises a cylinder (601), vertical holes (602), protruding shafts (603) and hack levers (604), wherein a plurality of vertical holes (602) are uniformly distributed on the cylinder (601) in an annular shape, the protruding shafts (603) are fixedly connected to the upper portion of the cylinder (601), the protruding shafts (603) are rotatably connected to the hack levers (604), the hack levers (604) are fixedly connected to the upper sides of the semicircular boxes (101), and the cylinder (601) is located in an area where the semicircular boxes (101) are divided by the three filter plates (402).

3. The river water environment treatment device according to claim 2, wherein: the river water environment treatment device further comprises a bottom shaft (103), a rotary table (104) and contact pins (105), the bottom shaft (103) is fixedly connected to the lower side of the semicircular box (101), the rotary table (104) is rotatably connected to the bottom shaft (103), and the rotary table (104) is uniformly provided with the contact pins (105) in an annular shape.