CN-224199866-U - Sluice with high-efficient stagnant water structure

Abstract

The utility model discloses a sluice with a high-efficiency water stopping structure, which comprises a sluice gate, wherein a sluice pier is arranged outside the sluice gate, a water storage supporting block is arranged below the sluice pier, a water stopping assembly is arranged inside the water storage supporting block, a rubber water stopping strip is connected outside the sluice gate, an extruding plate is arranged inside the water storage supporting block in a sliding manner, the water stopping assembly comprises a water storage bag arranged inside the water storage supporting block, the water storage bag is connected with a water stopping bag through a connecting pipe, and the water stopping bag is connected with the sluice pier through the water stopping bag supporting block.

Inventors

• DENG HUIYI
• WANG KUN
• LI BOWEN
• PAN QIWEN
• Zheng Zhaonian

Assignees

• 佛山市顺德区水利水电勘测设计院有限公司

Dates

Publication Date

20260505

Application Date

20250530

Claims (9)

1. 1. The utility model provides a sluice with high-efficient stagnant water structure, includes gate (1), its characterized in that, gate (1) outside is provided with gate pier (2), gate pier (2) below is provided with water storage supporting shoe (3), water storage supporting shoe (3) inside is provided with stagnant water subassembly (5), gate (1) external connection has rubber waterstop (4); An extrusion plate (301) is slidably arranged in the water storage supporting block (3); The water stopping assembly (5) comprises a water storage bag (501) arranged inside the water storage supporting block (3), the water storage bag (501) is connected with a water stopping bag (504) through a connecting pipe (502), and the water stopping bag (504) is connected with the gate pier (2) through a water stopping bag supporting block (503).
2. 2. The sluice with the efficient water stopping structure according to claim 1, wherein two sluice piers (2) are symmetrically arranged outside the sluice gate (1), connecting grooves (201) are formed in two opposite sides of each sluice pier (2), and the sluice gate (1) is inserted into the connecting grooves (201).
3. 3. The sluice with high-efficient stagnant water structure of claim 2, characterized in that, gate (1) is even installs a plurality of in opposite both sides rubber waterstop (4), rubber waterstop (4) outward appearance is the arc setting, and a plurality of rubber waterstop (4) are the wave and arrange, rubber waterstop (4) peg graft in inside spread groove (201), just rubber waterstop (4) surface with spread groove (201) inner wall surface closely laminates.
4. 4. The sluice with the efficient water stopping structure according to claim 2, wherein the two sluice piers (2) are simultaneously inserted into the water storage supporting blocks (3), the connecting grooves (201) are simultaneously formed in the upper ends of the water storage supporting blocks (3), and the lower ends of the sluice gates (1) are inserted into the connecting grooves (201) in the water storage supporting blocks (3).
5. 5. The sluice with high-efficient stagnant water structure of claim 1, characterized in that, a plurality of spout (303) have evenly been seted up to water storage supporting shoe (3) relative both sides inner wall, spout (303) inside slip is provided with slider (302), slider (302) with stripper plate (301) fixed connection, stripper plate (301) are through slider (302) and spout (303) slip in water storage supporting shoe (3) are inside.
6. 6. The sluice with the efficient water stopping structure according to claim 1, wherein the water storage bag (501) is fixedly installed on the inner wall of the lower end of the water storage supporting block (3), the upper surface of the water storage bag (501) is attached to the lower end surface of the extrusion plate (301), and the upper end surface of the extrusion plate (301) is attached to the lower end surface of the gate (1).
7. 7. The sluice with the efficient water stopping structure according to claim 6, wherein the water stopping bag supporting blocks (503) are installed on inner walls of two opposite sides of the connecting groove (201) on the sluice pier (2), the sluice gate (1) is located between the two water stopping bag supporting blocks (503), and a certain gap is reserved between the water stopping bag supporting blocks (503) and the sluice gate (1).
8. 8. The sluice with the efficient water stopping structure according to claim 7, wherein the water stopping bag supporting blocks (503) are internally provided with the water stopping bags (504), two adjacent sides of the water stopping bags (504) are spliced with the water stopping bag supporting blocks (503), and two adjacent sides of the water stopping bags (504) are provided with elastic rubber water stopping glue layers.
9. 9. The sluice with the efficient water stopping structure according to claim 8, characterized in that the connecting pipe (502) is inserted into the lower end of the water stopping bag supporting block (503), the upper end of the connecting pipe (502) is inserted into the water stopping bag (504), and the lower end of the water stopping bag (504) is inserted into the water storing bag (501).

Description

Sluice with high-efficient stagnant water structure Technical Field The utility model relates to the technical field of sluice equipment, in particular to a sluice with an efficient water stopping structure. Background The sluice is a hydraulic building for controlling water flow, has functions of water blocking, water discharging and the like, controls water level and flow through opening and closing of the sluice gate, opens the sluice gate when water discharging is needed, closes the sluice gate when water blocking is needed, and prevents water flow from passing, so that adjustment and control of water flow are realized, and requirements of various hydraulic engineering such as flood control, irrigation, shipping, water supply and the like are met. The sluice often comprises gate and gate pier, in the use of sluice, reciprocates along the gate pier through driving the gate, reaches purpose such as control rivers, but conventional sluice stagnant water structure adopts rubber waterstop stagnant water and stagnant water steel sheet stagnant water usually, but when these two stagnant water modes can't guarantee that the sluice is closed, closely laminating between gate and the gate pier can't effectively reduce the gap between gate pier and the gate for the stagnant water effect is discounted greatly. Therefore, we provide a sluice with a high-efficiency water stopping structure. Disclosure of utility model The utility model aims at solving the technical problems, and provides a sluice with a high-efficiency water stopping structure, so as to achieve the effect of high-efficiency water stopping of a sluice gate. In view of the above, the utility model provides a sluice with a high-efficiency water stopping structure, which comprises a sluice gate, wherein a sluice pier is arranged outside the sluice gate, a water storage supporting block is arranged below the sluice pier, a water stopping component is arranged inside the water storage supporting block, and a rubber water stopping belt is connected outside the sluice gate; inside of the water storage supporting block the extrusion plate is arranged in a sliding way; The water stopping assembly comprises a water storage bag arranged in the water storage supporting block, the water storage bag is connected with a water stopping bag through a connecting pipe, and the water stopping bag is connected with the gate pier through the water stopping bag supporting block. Preferably, two gate piers are symmetrically arranged outside the gate, connecting grooves are formed in two opposite sides of the two gate piers, and the gate is inserted into the connecting grooves. Preferably, a plurality of rubber water stops are uniformly arranged on two opposite sides of the gate, the outer surfaces of the rubber water stops are in arc-shaped arrangement, the plurality of rubber water stops are in wavy arrangement, the rubber water stops are inserted into the connecting grooves, and the outer surfaces of the rubber water stops are tightly attached to the inner wall surfaces of the connecting grooves. Preferably, the lower ends of the two gate piers are simultaneously spliced with the water storage supporting blocks, the upper ends of the water storage supporting blocks are simultaneously provided with the connecting grooves, and the lower ends of the gates are spliced in the connecting grooves on the water storage supporting blocks. Preferably, a plurality of sliding grooves are uniformly formed in the inner walls of two opposite sides of the water storage supporting block, sliding blocks are arranged in the sliding grooves in a sliding mode, the sliding blocks are fixedly connected with the extrusion plates, and the extrusion plates slide in the water storage supporting block through the sliding blocks and the sliding grooves. Preferably, the inner wall of the lower end of the water storage supporting block is fixedly provided with a water storage bag, the upper surface of the water storage bag is attached to the lower end surface of the extrusion plate, and the upper end surface of the extrusion plate is attached to the lower end surface of the gate. Preferably, the inner walls of the two opposite sides of the connecting groove on the gate pier are provided with water stop bag supporting blocks, the gate is positioned between the two water stop bag supporting blocks, and a certain gap is reserved between the water stop bag supporting blocks and the gate. Preferably, the water stop bag supporting blocks are internally provided with water stop bags, two adjacent sides of each water stop bag are spliced with the water stop bag supporting blocks, and the two adjacent sides of each water stop bag are provided with elastic rubber water stop glue layers. Preferably, the lower end of the water stop bag supporting block is inserted with a connecting pipe, the upper end of the connecting pipe is inserted with the water stop bag, and the lower end of the water stop bag is inserted with