CN112370857B

CN112370857B - Hydraulic engineering filter equipment

Info

Publication number: CN112370857B
Application number: CN202011169063.1A
Authority: CN
Inventors: 李小龙; 何新林; 杨广; 刘洪光; 李鹏飞
Original assignee: Shihezi University
Current assignee: Shihezi University
Priority date: 2020-10-28
Filing date: 2020-10-28
Publication date: 2023-07-07
Anticipated expiration: 2040-10-28
Also published as: CN112370857A

Abstract

The invention relates to the technical field of hydraulic engineering, and particularly discloses a hydraulic engineering filtering device, which comprises a floater treatment mechanism, a broken stone treatment channel, a sediment treatment mechanism, a re-adsorption mechanism and a driving mechanism, wherein a first filter screen is arranged in the floater treatment mechanism, a floater collecting net is arranged above the first filter screen, and a floater collecting box is arranged on the other side of the first filter screen; the broken stone treatment channel is arranged at the bottom end of the floater treatment mechanism, and a blocking net is arranged at the lower end of the broken stone treatment channel; the sediment treatment mechanism is connected with the other end of the broken stone treatment channel; the heavy adsorption mechanism is arranged at the other end of the sediment treatment mechanism, a partition plate is arranged at the communication part of the heavy adsorption mechanism and the sediment treatment mechanism, the top end of the partition plate is separated from the top wall of the heavy adsorption mechanism, and an adsorption plate is arranged inside the heavy adsorption mechanism; the driving mechanism is arranged outside the floating object processing mechanism. The hydraulic engineering filtering device provided by the invention has a simple structure, can achieve a good filtering effect on impurities in water, and is easy to clean.

Description

Hydraulic engineering filter equipment

Technical Field

The invention relates to the technical field of hydraulic engineering, and particularly discloses a hydraulic engineering filtering device.

Background

In hydraulic engineering construction, pipeline transportation is often required to be carried out on water resources, a large amount of impurities generally exist in water, and the impurities easily cause blockage of a transportation pipeline and influence normal transportation of subsequent water resources, so that the water resources are required to be filtered before transportation. But in the current filter equipment, be limited to in structure and the restriction in design, it is also blockked up by impurity easily by itself, and filters accumulational impurity in the device and be difficult for the clearance, has influenced the filter effect of whole device.

Disclosure of Invention

The invention provides a hydraulic engineering filtering device which is simple in structure, can achieve a good filtering effect on impurities in water, and is easy to clean.

The hydraulic engineering filtering device provided by the invention comprises:

the floating object treatment mechanism is provided with a treatment cavity, the top end of the cavity is provided with a water inlet, the lower end of the cavity is provided with a first filter screen, one side of the cavity, which is positioned above the first filter screen, is provided with a floating object collecting box, and the other side of the cavity is provided with a floating object collecting box communicated with the cavity;

the broken stone treatment channel is obliquely downward and communicated with the bottom end of the floater treatment mechanism, and a blocking net is vertically arranged at the lower end of the broken stone treatment channel;

the sediment treatment mechanism is horizontally connected to the other end of the broken stone treatment channel and is communicated with the broken stone treatment channel;

the heavy adsorption mechanism is communicated with the other end of the sediment treatment mechanism, a partition board is vertically arranged at the communication part of the heavy adsorption mechanism and the sediment treatment mechanism, and the top end of the partition board is separated from the top wall of the heavy adsorption mechanism; an adsorption plate is detachably arranged in the re-adsorption mechanism, and a water outlet is formed in the lower end of the re-adsorption mechanism; a kind of electronic device with high-pressure air-conditioning system

The driving mechanism is arranged at the outer side of the floating object processing mechanism and is used for pushing the floating object capturing net to do reciprocating motion in the horizontal direction along the upper surface of the first filter net.

Preferably, a fixed plate is arranged in the cavity and perpendicular to the top wall of the cavity, and the distance from the bottom end of the fixed plate to the bottom wall of the cavity is larger than the height of the floating object capturing net; the floating device comprises a cavity, and is characterized in that a movable plate is arranged between the fixed plate and the side wall of the cavity, the height of the movable plate is larger than the distance from the bottom end of the fixed plate to the bottom wall of the cavity, a telescopic rod I is fixedly connected to the top end of the movable plate, and the telescopic rod I reciprocates in the vertical direction through a first motor fixedly arranged at the top end of the floating object treatment mechanism.

Preferably, a transparent visual window is arranged on the outer wall of the floater treatment mechanism.

Preferably, the bottom end of the floater collecting box is communicated with a water guide pipe, the other end of the water guide pipe is connected to the crushed stone treatment channel, and a second filter screen is arranged at the top end of the water guide pipe.

Preferably, a dryer is arranged on the inner wall of the floater collecting box, a crushing shaft is arranged on the inner top wall of the floater collecting box, and broken pieces are circumferentially arranged on the crushing shaft.

Further preferably, the bottom end of the floater collecting box is communicated with a broken object collecting box.

Preferably, the bottom of silt treatment mechanism is back taper structure, back taper structure department intercommunication is equipped with the mud and collects the piece, just the mud is collected the piece and is extended to the below of rubble treatment channel, seted up the discharge gate on the diapire of rubble treatment channel, the discharge gate is located just above the mud is collected the piece, discharge gate department is equipped with sealed lid.

Further preferably, a second motor is arranged on the outer wall of the sludge collecting member, a control board is arranged at the communication position of the sludge collecting member and the inverted cone structure, and the control board is connected with an output shaft of the second motor through a second telescopic rod.

Preferably, the aperture of the barrier net is smaller than the aperture of the first filter net.

Preferably, an opening is arranged on the top wall of the re-adsorption mechanism, and a cover body is hinged at the opening; the inner wall of the re-adsorption mechanism is symmetrically provided with a shelf, clamping grooves are formed in the shelf along the length direction, clamping strips are fixedly arranged on two sides of the lower surface of the adsorption plate, and are clamped in the clamping grooves to detachably connect the adsorption plate.

Compared with the prior art, the invention has the beneficial effects that:

according to the hydraulic engineering filtering device provided by the invention, a water source enters the floating object treatment mechanism, heavy and large impurities in water are accumulated above the first filter screen, light impurities float to the surface of the water, the driving mechanism drives the floating object collecting screen to move along the upper surface of the first filter screen, the floating object collecting screen can push the impurities accumulated above the first filter screen to move towards the floating object collecting box, and meanwhile, the impurities floating on the surface of the water are collected to the floating object collecting box, and at the moment, the impurities fall into the floating object collecting box to finish preliminary collection and filtration of the impurities in the water; the water flow and part of impurities continue to downwards along the broken stone treatment channel, and the blocking net further blocks the impurities in the water, so that the impurities are accumulated at the lower end of the broken stone treatment channel; then, water flow enters the sediment treatment mechanism, and tiny particle impurities such as sediment and the like mixed in the water flow gradually accumulate at the bottom of the sediment treatment mechanism under the action of self gravity; when water flows through the top end of the partition plate, the water automatically enters the re-adsorption mechanism, and the adsorption plate arranged in the re-adsorption mechanism can further adsorb and treat the tiny impurities remained in the water; the device has simple structure and can play a good role in filtering treatment on water flow.

Drawings

Fig. 1 is a schematic structural diagram of a hydraulic engineering filtering device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a hydraulic engineering filtering device according to another preferred embodiment of the present invention.

Reference numerals illustrate: 100. a float handling mechanism; 101. a first filter screen; 102. a float trap net; 103. a float collection tank; 104. a fixing plate; 105. a movable plate; 106. a first telescopic rod; 107. a first motor; 113. a water conduit; 123. a second filter screen; 133. a dryer; 143. a crushing shaft; 153. breaking the fragments; 163. a crushed material collection box; 200. a crushed stone treatment channel; 201. a barrier web; 300. a sediment treatment mechanism; 301. a sludge collection member; 311. a second motor; 302. sealing cover; 400. a re-adsorption mechanism; 401. a partition plate; 402. an adsorption plate; 403. and a shelf.

Detailed Description

One embodiment of the present invention will be described in detail below with reference to the attached drawings, but it should be understood that the scope of the present invention is not limited by the embodiment.

In the description of the present invention, it should be understood that the terms "middle," "upper," "lower," "top," "bottom," "inner," "outer," "long," "circumferential," "horizontal," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the technical solutions of the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The hydraulic engineering filtering device provided by the embodiment of the invention, referring to fig. 1, comprises a floater treatment mechanism 100, a broken stone treatment channel 200, a sediment treatment mechanism 300, a re-adsorption mechanism 400 and a driving mechanism; the floater treating mechanism 100 is provided with a treating cavity, the top end of the cavity is provided with a water inlet, the lower end of the cavity is provided with a first filter screen 101, one side of the cavity is provided with a floater collecting net 102 above the first filter screen 101, and the other side of the cavity is provided with a floater collecting box 103 communicated with the cavity; the broken stone treatment channel 200 is obliquely downward and communicated with the bottom end of the floater treatment mechanism 100, and a blocking net 201 is vertically arranged at the lower end of the broken stone treatment channel 200; the sediment treatment mechanism 300 is horizontally connected to the other end of the crushed stone treatment channel 200 and is communicated with the crushed stone treatment channel 200; the heavy adsorption mechanism 400 is communicated with the other end of the sediment treatment mechanism 300, a partition plate 401 is vertically arranged at the communication part of the heavy adsorption mechanism and the sediment treatment mechanism 300, and the top end of the partition plate 401 is separated from the top wall of the heavy adsorption mechanism 400; the inside of the re-adsorption mechanism 400 is detachably provided with an adsorption plate 402, and the lower end of the re-adsorption mechanism is provided with a water outlet; the driving mechanism is arranged outside the floating object processing mechanism 100 and is used for pushing the floating object capturing net 102 to do reciprocating motion in the horizontal direction along the upper surface of the first filter net 101; the water source enters the floater treatment mechanism 100 through the water inlet, heavy and large impurities in the water such as large granular stones or branches, fallen leaves and the like driven by water flow can accumulate above the first filter screen 101, light impurities can float to the surface of the water under the buoyancy effect of the water, when the impurities accumulate in the floater treatment mechanism 100 for a period of time, the driving mechanism is started to drive the floater collection net 102 to move along the upper surface of the first filter screen 101, the floater collection net 102 can push the impurities accumulated above the first filter screen 101 to move towards the floater collection box 103, and meanwhile, the impurities floating on the surface of the water are collected to the floater collection box 103, and at the moment, the impurities can drop to the floater collection box 103 under the gravity effect, so that the preliminary collection and filtration of the impurities in the water are completed; it should be noted that, a flow control device may be disposed at the water inlet to control the amount of water entering the floater treating mechanism 100, so as to prevent the excessive amount of water from affecting the normal filtration of the floater treating mechanism 100; the float trap net 102 may be provided at a large height to simultaneously treat the impurities floating on the upper surface of the first filter net 101 and the water surface, with a specific height being specifically selected according to the amount of water entering the float treatment mechanism 100; the water flow passing through the first filter screen 101 and part of impurities continue to downwards along the inclined downward-arranged broken stone treatment channel 200, and as the blocking net 201 is vertically arranged at the lower end of the broken stone treatment channel 200, the blocking net 201 can further block impurities in the water, such as small particle stones, so that the impurities are accumulated at the lower end of the broken stone treatment channel 200; then water flow enters the sediment treatment mechanism 300, the speed of the entering water flow is slowed down because the sediment treatment mechanism 300 is horizontally arranged, and fine particle impurities such as sediment and the like mixed in the water flow can be gradually accumulated at the bottom of the sediment treatment mechanism 300 under the action of self gravity, so that separation is completed; because the end department of rivers in silt treatment mechanism 300 is equipped with baffle 401, further makes rivers in silt treatment mechanism 300 become slowly and gather, and when rivers were crossed the baffle 401 top, in the automatic heavy absorption mechanism 400 that gets into, the absorption board 402 that sets up in the heavy absorption mechanism 400 can further adsorb the processing to remaining tiny impurity in the aquatic, and the rivers of final treatment flow out from the delivery port of heavy absorption mechanism 400 lower extreme, play fine filtration treatment effect to rivers.

In the above embodiment, please continue to refer to fig. 1, in order to prevent water in the floating object handling mechanism 100 from entering the floating object collecting box 103, a fixing plate 104 is disposed in the cavity and perpendicular to the top wall of the cavity, and the distance from the bottom end of the fixing plate 104 to the bottom wall of the cavity is greater than the height of the floating object capturing net 102; a movable plate 105 is arranged between the fixed plate 104 and the side wall of the cavity, the height of the movable plate 105 is larger than the distance from the bottom end of the fixed plate 104 to the bottom wall of the cavity, a first telescopic rod 106 is fixedly connected to the top end of the movable plate 105, and the first telescopic rod 106 reciprocates in the vertical direction through a first motor 107 fixedly arranged at the top end of the floater treatment mechanism 100; when the floating object collecting net 102 moves to the floating object collecting box 103, the first motor 107 can control the first telescopic rod 106 to shrink, so that the movable plate 105 is driven to move upwards, and the floating object collecting box 103 is communicated with the cavity of the floating object processing mechanism 100; conversely, when the float catch net 102 deviates from the float collection box 103, the first motor 107 controls the first telescopic rod 106 to extend, so that the float collection box 103 is arranged separately from the cavity of the float processing mechanism 100, and excessive water flow is prevented from entering the float collection box 103;

further preferably, a water guide pipe 113 may be provided at the bottom end of the float collection tank 103 in a communicating manner, the other end of the water guide pipe 113 is connected to the ballast treatment channel 200, and a second filter screen 123 is provided at the top end of the water guide pipe 113, so that the water flow entering the float collection tank 103 may enter the ballast treatment channel 200 through the water guide pipe 113, and the water flow is prevented from accumulating in the float collection tank 103.

In the above embodiment, the aperture of the blocking net 201 is smaller than that of the first filter screen 101, so that the filtering effect of the segment filtering can be achieved, and the filtering of the impurities can be more thorough.

In the above embodiment, in order to facilitate observation of the water flow accumulation condition in the float processing mechanism 100, a transparent visual window is provided on the outer wall of the float processing mechanism 100; it may also refer to the prior art that a water level sensor is installed on the inner wall of the float processing mechanism 100, and is connected with the water level sensor and the driving mechanism through a controller, when the water level sensor senses that the water flow in the float processing mechanism 100 is accumulated to a specific height, the controller receives a signal and controls the driving mechanism to start, so as to control the movement of the float capturing net 102.

In the above embodiment, the bottom end of the sediment treatment mechanism 300 is of an inverted cone structure, the inverted cone structure is communicated with a sludge collecting member 301, the sludge collecting member 301 extends to the lower side of the crushed stone treatment channel 200, a discharging hole is formed in the bottom wall of the crushed stone treatment channel 200, the discharging hole is located right above the sludge collecting member 301, and a sealing cover 302 is arranged at the discharging hole; when the sludge and the crushed stone in the crushed stone treatment channel 200 are accumulated to the top end of the barrier net 201, the water flow of the water inlet is closed, the sealing cover 302 is opened, and crushed stone sediment and the like accumulated in the crushed stone treatment channel 200 can fall into the sludge collecting piece 301, so that the sediment accumulated in the sediment treatment mechanism 300 can be cleaned;

further preferably, a second motor 311 is arranged on the outer wall of the sludge collecting member 301, a control board is arranged at the communication part of the sludge collecting member 301 and the inverted cone structure, and the control board is connected with an output shaft of the second motor 311 through a second telescopic rod; when the mud in the silt treatment mechanism 300 is accumulated to the top end of the baffle 401, the inflow water flow is closed, the second motor 311 controls the telescopic rod II to stretch out and draw back, the control panel is opened, the mud collecting piece 301 is communicated with the silt treatment mechanism 300, and the silt accumulated at the bottom end of the silt treatment mechanism 300 can fall into the mud collecting piece 301, so that the sediment accumulated in the silt treatment mechanism 300 can be cleaned, and water flow filtering treatment can be continued.

In the above embodiment, the top wall of the re-adsorption mechanism 400 is provided with an opening, and the opening is hinged with a cover body; the inner wall of the re-adsorption mechanism 400 is symmetrically provided with a shelf 403, the shelf 403 is provided with a clamping groove along the length direction, clamping strips are fixedly arranged on two sides of the lower surface of the adsorption plate 402 and are clamped in the clamping groove, and the adsorption plate 402 is detachably connected; the cover may be opened when the suction plate 402 needs to be replaced.

In the above embodiments, in order to facilitate observation of the accumulation of impurities in the float processing mechanism 100, the crushed stone processing channel 200, and the sediment processing mechanism 300, transparent observation windows may be provided on the outer walls of the respective structures.

As another preferred embodiment of the present invention, referring to fig. 2, a dryer 133 is provided on the inner wall of the float collection tank 103, a crushing shaft 143 is provided on the inner ceiling wall of the float collection tank 103, fragments 153 are provided on the crushing shaft 143 in the circumferential direction, and the crushing shaft 143 is controlled to rotate by a driving motor; after the floats such as fallen leaves and the like which have entered the float collection box 103 are dried by the dryer 133, the floats are crushed by the broken pieces 153 and then further recycled.

Further preferably, the bottom end of the floating object collecting box 103 is communicated with a broken object collecting box 163, and broken floating objects fall into the broken object collecting box 163 to be collected, so that enough space can be reserved in the floating object collecting box 103, and the trouble that workers need to process impurities in the floating object collecting box 103 for many times is reduced.

The foregoing disclosure is merely illustrative of some embodiments of the invention, but the embodiments are not limited thereto and variations within the scope of the invention will be apparent to those skilled in the art.

Claims

1. A hydraulic engineering filter device, characterized by comprising:

the floating object treatment mechanism (100) is provided with a treatment cavity, the top end of the cavity is provided with a water inlet, the lower end of the cavity is provided with a first filter screen (101), one side of the cavity and above the first filter screen (101) is provided with a floating object collecting net (102), and the opposite side is provided with a floating object collecting box (103) communicated with the cavity; a fixed plate (104) is arranged in the cavity and perpendicular to the top wall of the cavity, and the distance from the bottom end of the fixed plate (104) to the bottom wall of the cavity is greater than the height of the floating object capturing net (102); a movable plate (105) is vertically arranged between the fixed plate (104) and the side wall of the cavity, the height of the movable plate (105) is larger than the distance from the bottom end of the fixed plate (104) to the bottom wall of the cavity, a telescopic rod I (106) is fixedly connected to the top end of the movable plate (105), and the telescopic rod I (106) reciprocates in the vertical direction through a first motor (107) fixedly arranged on the outer side of the floater treatment mechanism (100);

the broken stone treatment channel (200) is obliquely downward and communicated with the bottom end of the floater treatment mechanism (100), and a blocking net (201) is vertically arranged at the lower end of the inside of the broken stone treatment channel (200);

a sediment treatment mechanism (300) horizontally connected to the other end of the crushed stone treatment channel (200) and communicated with the crushed stone treatment channel (200);

the heavy adsorption mechanism (400) is communicated with the other end of the sediment treatment mechanism (300), a partition plate (401) is vertically arranged at the communication part of the heavy adsorption mechanism and the sediment treatment mechanism (300), and the top end of the partition plate (401) is separated from the top wall of the heavy adsorption mechanism (400); the inside of the re-adsorption mechanism (400) is horizontal and is detachably provided with an adsorption plate (402), and the lower end of the re-adsorption mechanism is provided with a water outlet; a kind of electronic device with high-pressure air-conditioning system

The driving mechanism is arranged outside the floating object processing mechanism (100) and is used for pushing the floating object capturing net (102) to do reciprocating motion in the horizontal direction along the upper surface of the first filter net (101).

2. Hydraulic engineering filtering device according to claim 1, characterized in that the outer wall of the float handling mechanism (100) is provided with a transparent visual window.

3. The hydraulic engineering filtering device according to claim 1, wherein a water guide pipe (113) is arranged at the bottom end of the floating object collecting box (103) in a communicating manner, the other end of the water guide pipe (113) is arranged on the crushed stone treatment channel (200) in a communicating manner, and a second filter screen (123) is horizontally arranged at the top end of the water guide pipe (113).

4. The hydraulic engineering filtering device according to claim 1, wherein a dryer (133) is arranged on the inner wall of the floating object collecting box (103), a crushing shaft (143) is arranged on the inner top wall of the floating object collecting box (103), and broken pieces (153) are circumferentially arranged on the crushing shaft (143).

5. The hydraulic engineering filtering device according to claim 4, wherein the bottom end of the floating material collecting box (103) is communicated with a broken material collecting box (163).

6. The hydraulic engineering filtering device according to claim 1, wherein the bottom end of the sediment treatment mechanism (300) is of an inverted cone structure, a sludge collecting piece (301) is communicated with the inverted cone structure, the sludge collecting piece (301) extends to the lower side of the crushed stone treatment channel (200), a discharging hole is formed in the bottom wall of the crushed stone treatment channel (200), the discharging hole is located right above the sludge collecting piece (301), and a sealing cover (302) is arranged at the discharging hole.

7. The hydraulic engineering filtering device according to claim 6, wherein a second motor (311) is arranged on the outer wall of the sludge collecting member (301), a control board is arranged at the communication position of the sludge collecting member (301) and the inverted cone structure, and the control board is connected with an output shaft of the second motor (311) through a second telescopic rod.

8. The hydraulic engineering filter device according to claim 1, characterized in that the aperture of the barrier net (201) is smaller than the aperture of the first filter net (101).

9. The hydraulic engineering filtering device according to claim 1, wherein an opening is arranged on the top wall of the re-adsorption mechanism (400), and a cover body is hinged at the opening; a pair of shelves (403) are symmetrically arranged on the inner wall of the re-adsorption mechanism (400), clamping grooves are formed in the upper surface of each shelf (403) along the length direction, clamping strips are fixedly arranged on two sides of the lower surface of the adsorption plate (402), and are clamped in the clamping grooves to detachably connect the adsorption plate (402).