CN220847424U - Water storage sluice - Google Patents

Abstract

The utility model discloses a water storage sluice, which comprises a sluice gate provided with a blocking net and a floating plate sliding on the sluice gate, wherein a plurality of groups of blocking components are circumferentially arranged on the floating plate in a rotating way, and the water storage sluice gate comprises: the blocking net is fixedly provided with a main cutter, the main cutter is positioned between every two groups of blocking pieces, and the blocking pieces are matched with a collecting groove arranged on the floating plate. According to the water storage sluice provided by the utility model, the plurality of interception members are driven to rotate around the rotating shaft through the water body flow, so that the interception members are matched with the main cutter to cut dirt floating on the water surface, meanwhile, the rotated interception members scoop the dirt which is cut and stays on the blocking net into the collecting tank for storage, the accumulation of the dirt on the sluice gate is reduced, the situation that the sluice gate is difficult to open and close is reduced, and meanwhile, the dirt is conveniently cleaned uniformly by workers.

Description

Water storage sluice

Technical Field

The utility model relates to the technical field of water conservancy water storage gates, in particular to a water storage gate.

Background

The water conservancy gate is built on river course or ditch, and utilizes the gate to control the water flow and adjust the hydraulic building of water level, and wherein main part is the gate, and common gate has flat gate and radial gate to be equipped with the motor and drive and open.

According to publication (bulletin) No.: CN111608142B, publication (bulletin) day: 2021-03-02 discloses a sluice with decontaminating and garbage collecting functions, which has the advantages that the sluice is simple in structure and convenient to operate, garbage on the water surface can be collected into the sluice without opening the sluice for storage so as to be convenient for subsequent plots, when the sluice is opened, water flow can drive sludge to move, the equipment can collect and then transport the sludge to ensure the water storage capacity, the equipment has higher integration degree, and all parts are tightly matched and have perfect functions.

According to publication (bulletin) No.: CN215052724U, publication (bulletin) day: 2021-12-07 discloses a sluice lock chamber and sluice, this application has drive assembly and drives the gate and remove vertically, thereby control retaining or drain, the locating part can make the filter frame follow the gate and remove or the filter frame can take place vertical relative movement with the gate, when the locating part makes gate and filter frame synchronous movement, the gate rises and can drive the filter frame and lift, thereby be convenient for take out rubbish in the filter frame, when the locating part does not inject gate and filter frame relative movement, the gate lifting back, the filter frame is still in continuous interception rubbish in the aquatic, thereby intercept, clear away the effect that rubbish mode is various nimble.

In the prior art including above-mentioned patent, because river bank is planted trees often, and the dead branch on the trees drops to the river easily, and also common floating rubbish in the river, this part pollutant intermixes and flows to the gate position, because the gate is when carrying out the drainage to the river course, river water can be discharged from the gate bottom, and the filth that floats on the surface of water is piled up on the gate often, pile up when too much time when the filth makes gate and river bank junction appear blocking easily, causes gate switch difficulty, causes even the motor that starts gate switch to appear the load damage.

Disclosure of utility model

The utility model aims to provide a water storage sluice, which solves the problem that the position of the joint between a sluice and a river bank is easily blocked by dirt floating on the sluice, so that the sluice is difficult to open and close.

In order to achieve the above object, the present utility model provides the following technical solutions: the utility model provides a retaining sluice, is including the gate that is provided with the block, still includes the kickboard of sliding on the gate, circumferential rotation is provided with multiunit interception piece on the kickboard, wherein:

A main cutter is fixedly arranged on the blocking net and is positioned between every two groups of interception pieces;

the interception piece is matched with a collecting groove arranged on the floating plate.

Preferably, the interceptor is divided into a flat plate, an inclined plate and an inclined elastic net, and a holding cavity is formed between the inclined plate and the inclined elastic net so that the holding cavity is matched with the blocking net;

the included angle between the flat plate and the inclined plate is 140 degrees, and the included angle between the inclined plate and the inclined elastic net is 60-240 degrees.

Preferably, an inclined table is fixedly arranged in the collecting tank, a plurality of groups of flow holes are formed in the inclined table, and the flow holes are intermittently abutted with the inclined elastic net.

Preferably, a plurality of groups of auxiliary cutters are fixedly arranged in the collecting groove, and the end parts of the auxiliary cutters are positioned in the flow holes.

Preferably, the floating plate is fixedly provided with a plurality of cross frames, and the cross frames slide in the slide ways arranged on the gate.

Preferably, a sliding column is fixedly installed in the sliding way, and the sliding column penetrates through the transverse frame.

In the technical scheme, the water storage sluice provided by the utility model has the following beneficial effects: the water body flows to drive the plurality of interceptors to rotate around the rotating shaft, so that the interceptors cooperate with the main cutters to cut the floating dirt on the water surface, and meanwhile, the rotating interceptors shovel the dirt which is cut and stays on the blocking net into the collecting tank for storage, so that the dirt accumulation on the gate is reduced, the situation that the gate is difficult to open and close is reduced, and meanwhile, the dirt is conveniently cleaned uniformly by workers.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of a gate structure according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a cross-sectional side view of a gate according to an embodiment of the present utility model;

fig. 3 is an enlarged schematic view of the structure at a in fig. 2.

Reference numerals illustrate:

1. A gate; 21. a blocking net; 22. a floating plate; 221. a cross frame; 222. a slideway; 223. a spool; 23. a rotating shaft; 24. an interceptor; 241. a flat plate; 242. a sloping plate; 243. an oblique elastic net; 25. a main cutter; 26. a collection tank; 27. a ramp; 271. a flow hole; 272. and an auxiliary cutter.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-3, a water storage sluice, comprising a sluice gate 1 provided with a barrier 21, and a floating plate 22 sliding on the sluice gate 1, wherein a plurality of groups of interception members 24 are arranged on the floating plate 22 in a circumferential rotation manner, wherein:

a main cutter 25 is fixedly arranged on the barrier net 21, and the main cutter 25 is positioned between every two groups of interceptors 24;

the interceptor member 24 cooperates with a collection trough 26 provided on the floating plate 22.

Specifically, as shown in fig. 1, fig. 2 and fig. 3, the floating plate 22 and the blocking net 21 are in the prior art, and are not described herein, the main cutter 25 is specifically a stainless steel metal cutter, the floating plate 22 is circumferentially provided with a rotating shaft 23, a plurality of blocking members 24 are annularly arranged on the rotating shaft 23, a plurality of blocking members 24 annularly arranged on the rotating shaft 23 are arranged in one group, a plurality of groups of blocking members 24 are arranged on the rotating shaft 23 in an array manner, and the main cutter 25 is located between every two groups of blocking members 24, because of the existence of the floating plate 22, the main cutter is always above the water surface, and one part of the plurality of blocking members 24 is always below the water surface.

The plurality of interceptors 24 are driven to rotate around the rotating shaft 23 through the water body flow, so that the interceptors 24 are matched with the main cutters 25 to cut the dirt floating on the water surface, meanwhile, the rotated interceptors 24 shovel the dirt which is cut and stays on the blocking net 21 into the collecting tank 26 for storage, the dirt accumulation on the gate 1 is reduced, the situation that the gate 1 is difficult to open and close is reduced, and meanwhile, the dirt is conveniently cleaned by workers uniformly.

As a further embodiment of the present invention, the interceptor 24 is divided into a plate 241, a sloping plate 242 and a sloping elastic net 243, and a cavity is formed between the sloping plate 242 and the sloping elastic net 243 so that the cavity and the barrier net 21 cooperate;

The angle between the flat plate 241 and the inclined plate 242 is specifically 140 °, and the angle between the inclined plate 242 and the inclined elastic net 243 is specifically 60 ° to 240 °.

Specifically, as shown in fig. 2 and fig. 3, the flat plate 241 is perpendicular to the rotating shaft 23, and an included angle formed between the inclined plate 242 and the flat plate 241, which are obliquely arranged, faces the water flow direction, so that the water flow is impacted conveniently and has larger impact force, an included angle formed between the inclined plate 242 and the inclined elastic net 243 is convenient to form a holding cavity, so that the holding cavity is convenient to scoop up dirt, and the inclined elastic net 243 is specifically a stainless steel metal net.

The inclined elastic net 243 in a default state is abutted against the barrier net 21, so that the inclined elastic net 243 is convenient for the rake cavity to scoop up dirt floating on the barrier net 21 in the deflection process, and the scooped dirt is filtered by the inclined elastic net 243 when reaching the highest position, so that water mixed in the dirt passes through the inclined elastic net 243 and drops into the water again, the deflection resistance of the interceptor 24 is reduced, and the weight of the dirt entering the collecting tank 26 is reduced.

While the oblique elastic mesh 243 touching the collecting tank 26 is deformed and resumes the deformation when it is separated from the collecting tank 26.

As a further embodiment of the present invention, a ramp 27 is fixedly installed in the collecting tank 26, and a plurality of groups of flow holes 271 are formed in the ramp 27, and the flow holes 271 are intermittently abutted with the inclined elastic net 243.

Specifically, as shown in fig. 2 and 3, each set of flow holes 271 includes a plurality of holes therein. The scooped dirt is sent to the position of the flow hole 271 by the inclined elastic net 243 so that the deformation force generated by the deformed inclined elastic net 243 presses the dirt between the dirt and the flow hole 271 to remove excessive moisture, and the dirt passes through the flow hole 271 again to be stored in the collecting tank 26, and the inclined table 27 is arranged obliquely so that a large amount of dirt accumulated thereon automatically slides to the position of the flow hole 271 under the action of gravity.

As another embodiment of the present invention, a plurality of sets of secondary cutters 272 are fixedly mounted in the collecting tank 26, and the ends of the secondary cutters 272 are positioned in the flow holes 271.

Specifically, as shown in fig. 2 and 3, the sub-cutter 272 is embodied as a stainless steel metal blade. The dirt passing through the flow hole 271 is again cut by the sub-cutter 272 to reduce the size of the dirt entering the collecting tank 26.

As still another embodiment of the present invention, a plurality of cross frames 221 are fixedly installed on the floating plate 22, and the cross frames 221 slide in a slide way 222 formed on the gate 1.

Specifically, as shown in fig. 1 and 2, the rotating shaft 23 rotates circumferentially on the transverse frame 221, and the collecting tank 26 is also fixedly mounted on the transverse frame 221, and the floating plates 22 are symmetrically arranged on the transverse frame 221, so that when the water levels at two sides of the gate 1 are the same, the transverse frame 221 is floated by the two floating plates 22 and is more stable. When the floating plate 22 moves up and down by the water surface, the horizontal frame 221 improves the stability of the up and down movement of the floating plate 22.

As still another embodiment of the present invention, a sliding post 223 is fixedly installed in the sliding way 222, and the sliding post 223 penetrates through the transverse frame 221.

Specifically, as shown in fig. 1 and 2, the sliding column 223 can intercept most of the larger dirt entering the sliding way 222, and an elastic net is arranged in the sliding way 222, so that when the transverse frame 221 moves up and down, the elastic net keeps the sliding way 222 from being intercepted, and the blockage of the sliding way 222 caused by the dirt is reduced. Is slid onto the spool 223 by the cross frame 221 to provide additional stability to the up and down movement of the cross frame 221.

Working principle: the plurality of interception members 24 are driven to rotate around the rotating shaft 23 through water body flowing, so that the flat plate 241 and the inclined plate 242 on the interception members 24 are matched with the main cutter 25 to cut the dirt floating on the water surface, meanwhile, the inclined elastic net 243 on the interception members 24 is rotated to scoop the dirt which is cut and stays on the blocking net 21 into the collecting tank 26 for storage, meanwhile, the inclined elastic net 243 sends the scooped dirt to the position of the flow hole 271, so that the deformation force generated by the deformed inclined elastic net 243 extrudes the dirt between the inclined elastic net 243 and the flow hole 271 to remove redundant water, the dirt passes through the flow hole 271 again and is stored in the collecting tank 26, and the inclined table 27 which is obliquely arranged automatically slides a large amount of accumulated dirt to the position of the flow hole 271 under the action of gravity, and the dirt which passes through the flow hole 271 is cut by the auxiliary cutter 272 again, so that the size of the dirt which enters into the collecting tank 26 is reduced, the accumulation of the dirt on the gate 1 is reduced, the situation that the opening and closing of the gate 1 are difficult is reduced, and meanwhile, the dirt is convenient for workers to unify and clean the dirt.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. The utility model provides a retaining sluice, including gate (1) that is provided with block (21), its characterized in that still includes floating plate (22) of sliding on gate (1), circumferential rotation is provided with multiunit interceptor (24) on floating plate (22), wherein:

A main cutter (25) is fixedly arranged on the blocking net (21), and the main cutter (25) is positioned between every two groups of interception pieces (24);

The interceptor (24) cooperates with a collecting trough (26) provided on the floating plate (22).

2. A retaining sluice according to claim 1 characterised in that the interceptor (24) is divided into a plate (241), a sloping plate (242) and a sloping elastic net (243), the sloping plate (242) and the sloping elastic net (243) forming a chamber therebetween to cooperate with the barrier net (21);

The included angle between the flat plate (241) and the inclined plate (242) is 140 degrees, and the included angle between the inclined plate (242) and the inclined elastic net (243) is 60-240 degrees.

3. A retaining sluice according to claim 1, characterised in that the collecting tank (26) is internally and fixedly provided with a ramp (27), the ramp (27) being provided with a plurality of groups of flow holes (271), the flow holes (271) being intermittently in abutment with the inclined elastic net (243).

4. A retaining sluice according to claim 3 in which the collection trough (26) has a plurality of sets of secondary cutters (272) fixedly mounted therein, the ends of the secondary cutters (272) being located in the flow apertures (271).

5. A retaining sluice according to claim 1, characterised in that the floating plate (22) is fixedly fitted with a plurality of cross-frames (221), the cross-frames (221) being slid into slides (222) provided on the sluice (1).

6. A retaining sluice according to claim 5, characterised in that the slide (222) is internally and fixedly fitted with a spool (223), the spool (223) extending through the cross frame (221).