CN211973407U

CN211973407U - Hydraulic engineering gate with energy-conserving effect

Info

Publication number: CN211973407U
Application number: CN202020223525.2U
Authority: CN
Inventors: 杨玉山; 汪洋洲; 孙选; 其他发明人请求不公开姓名
Original assignee: Anhui Xiaolu Engineering Co ltd
Current assignee: Anhui Xiaolu Engineering Co ltd
Priority date: 2020-02-28
Filing date: 2020-02-28
Publication date: 2020-11-20
Anticipated expiration: 2030-02-28

Abstract

The utility model discloses a hydraulic engineering gate with energy-conserving effect, including gate support and box, gate support's upper surface rigid coupling has the box, the internally mounted of box has energy memory. This hydraulic engineering gate with energy-conserving effect, through the box, solar cell panel, the battery, mutually support between L shaped plate and the motor isotructure, can make this device pass through solar cell panel and produce the battery, thereby the energy has been practiced thrift, through first roller, the second roller, wire rope, the fluted disc, the cooperation between threaded rod and the gear stick isotructure, can go up and down the co-operation together through threaded rod and wire rope, thereby wire rope's bearing capacity has been reduced, its life has been increased, through first diaphragm, the second diaphragm, the connecting rod, the horizontal pole, the gate, mutually support between spring and the square isotructure of second, can carry out the shock attenuation to it when falling to the gate, thereby prevent that the gate from damaging.

Description

Hydraulic engineering gate with energy-conserving effect

Technical Field

The utility model relates to a hydraulic engineering technical field specifically is a hydraulic engineering gate with energy-conserving effect.

Background

The gate is used for closing and opening the control facility of the drainage (discharging) water channel, is an important component of the hydraulic engineering building, can be used for intercepting water flow, controlling water level, regulating flow, discharging silt and floating objects and the like, the construction of the gate is increased along with the improvement of gate building technology and the appearance of new varieties of building materials, and rich experience is accumulated through gate building, although the hydraulic engineering gate in the prior art can realize the function of controlling water flow, the gate works by setting up an electric wire, so that the cost is increased, the energy is wasted, meanwhile, the lifting of the gate in the prior art is usually only dragged by a steel wire rope, the steel wire rope can be broken after long-time use, and because the bottom of the gate is not provided with a damping device, the gate is damaged when being impacted and released by water flow, and the service life of the gate is shortened.

Disclosure of Invention

An object of the utility model is to provide a hydraulic engineering gate with energy-conserving effect to although the hydraulic engineering gate among the prior art who proposes in solving above-mentioned background art can realize the effect of control rivers, but often all be the gate work through setting up the electric wire, just so increased the cost, wasted the problem of the energy.

In order to achieve the above object, the utility model provides a following technical scheme: a hydraulic engineering gate with an energy-saving effect comprises a gate support and a box body, wherein the upper surface of the gate support is fixedly connected with the box body, sliding grooves are formed in the lower inner walls of the left side and the right side of the gate support, an opening is formed in the middle of the upper surface of the box body, and an energy storage device is arranged in the box body;

the energy storage device comprises an L-shaped plate, a storage battery, a solar cell panel, a motor, a first roller and a steel wire rope;

control the outside of L shaped plate links to each other with the left and right sides inner wall of box is fixed, controls the upper surface rigid coupling of L shaped plate has the battery, controls the top of battery is connected with solar cell panel through the electric wire electricity, controls solar cell panel's lower surface links to each other with the last fixed surface of box, left side the inside rigid coupling in top of L shaped plate has the motor, the motor passes through the electric wire and is connected with the battery electricity, the output shaft rigid coupling of motor has first roller, the right side processing of first roller has the screw thread, the outer wall winding of first roller has wire rope, controls wire rope's outer wall runs through box and gate support, controls wire rope's outer wall and box and gate support's opening part outer wall clearance fit.

Preferably, the midpoint of the first roller is consistent with the axial position of the output shaft of the motor.

Preferably, a rotating device is installed inside the box body;

the rotating device comprises a vertical plate, a fluted disc, a second roller, a gear rod, a threaded rod, a concave plate, a first square block and a gate;

the upper surface of the vertical plate is fixedly connected with the inner wall of the upper surface of the box body, the front end surface of the vertical plate is rotatably connected with a fluted disc through a rotating shaft, the fluted disc is meshed with a first roller, a second roller is installed on the right side of the front end surface of the fluted disc, threads are processed on the left side of the second roller, the second roller is meshed with the fluted disc, the outer wall of the right side of the second roller is rotatably connected with the inner part of a right L-shaped plate through a bearing, the outer wall of the second roller is wound and connected with a steel wire rope, a gear rod is installed on the front end surface of the fluted disc and is meshed with the fluted disc, the outer wall of the lower part of the gear rod is rotatably connected with the inner part of the box body through a bearing, a threaded rod is installed inside the gear rod, the outer wall of the threaded rod is in threaded fit with the gear rod, the outer wall of the lower part of, the lower part outer wall of threaded rod rotates through the bearing and is connected with first square block, the notch plate is installed to the top of first square block, the opening has been seted up to the centre of notch plate, the opening part outer wall of notch plate and the below outer wall clearance fit of threaded rod, the lower surface rigid coupling of notch plate has the gate, the upper surface of gate and wire rope's below are fixed continuous, the outer wall of gate and the left and right sides inner wall of gate support are laminated mutually.

Preferably, the second roller and the first roller wind the steel wire rope in opposite directions.

Preferably, a damping device is arranged below the interior of the gate support;

the damping device comprises a first transverse plate, a second transverse plate, a connecting rod, a second square block, a transverse rod, a third square block and a spring;

the outer wall of first diaphragm and the inboard below spout department outer wall clearance fit of gate support, the lower surface rigid coupling of first diaphragm has a plurality of second diaphragms, controls the preceding terminal surface of second diaphragm has a plurality of connecting rods through round pin axle swing joint, controls the below of connecting rod has the square piece of second through round pin axle swing joint, controls the internally mounted of the square piece of second has the horizontal pole, controls the outer wall of horizontal pole and the through-hole department inner wall clearance fit of the square piece of second control the both sides outer wall rigid coupling of horizontal pole has third square piece, controls the lower surface of third square piece links to each other with the lower surface inner wall of gate support is fixed, controls the outer wall of horizontal pole installs the spring, controls the both sides of spring all link to each other with the inboard of the square piece of second is fixed.

Preferably, the first transverse plate and the gate support form a sliding structure.

Compared with the prior art, the beneficial effects of the utility model are that: this hydraulic engineering gate with energy-conserving effect through mutually supporting between structures such as box, solar cell panel, battery, L shaped plate and motor, can make this device produce the battery through solar cell panel to the energy has been practiced thrift, the cost is reduced.

Through the cooperation between first roller, second roller, wire rope, fluted disc, threaded rod and the gear stick isotructure, can go up and down the common work together through threaded rod and wire rope to reduce wire rope's bearing capacity, increased its life.

Through mutually supporting between first diaphragm, second diaphragm, connecting rod, horizontal pole, gate, spring and the square piece isotructure of second, carry out the shock attenuation to it when can falling to the gate to prevent that the gate from damaging.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the motor, L-shaped plate and first roller of FIG. 1;

FIG. 3 is a schematic view of the fluted disc, the gear bars and the risers of FIG. 1;

fig. 4 is a schematic structural view of the first cross plate, the second cross plate and the connecting rod in fig. 1.

In the figure: 1. the gate support, 2, the box, 3, energy memory, 301, L shaped plate, 302, the battery, 303, solar cell panel, 304, the motor, 305, first roller, 306, wire rope, 4, rotating device, 401, the riser, 402, the fluted disc, 403, the second roller, 404, the gear stick, 405, the threaded rod, 406, the concave plate, 407, first square piece, 408, the gate, 5, damping device, 501, first diaphragm, 502, the second diaphragm, 503, the connecting rod, 504, the second square piece, 505, the horizontal pole, 506, third square piece, 507, the spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a hydraulic engineering gate with an energy-saving effect comprises a gate support 1 and a box body 2, wherein the upper surface of the gate support 1 is fixedly connected with the box body 2, sliding grooves are formed in the inner walls below the left side and the right side of the gate support 1, an opening is formed in the middle of the upper surface of the box body 2, an energy storage device 3 is installed inside the box body 2, the energy storage device 3 comprises an L-shaped plate 301, a storage battery 302, a solar cell panel 303, a motor 304, a first roller 305 and a steel wire rope 306, the outer sides of the left L-shaped plate 301 and the right L-shaped plate 301 are fixedly connected with the inner walls on the left side and the right side of the box body 2, the upper surfaces of the left L-shaped plate 301 and the right L-shaped plate 301 are fixedly connected with storage batteries 302, the type of the storage batteries 302 is 6-QW-45, the solar, therefore, the solar cell panels are transmitted into the storage battery 302, the lower surfaces of the left and right solar cell panels 303 are fixedly connected with the upper surface of the box body 2, the motor 304 is fixedly connected with the upper portion of the left L-shaped plate 301, the model of the motor 304 is ECMA-11320ERS, the motor 304 is electrically connected with the storage battery 302 through an electric wire, the storage battery 302 can provide power for the motor 304, the output shaft of the motor 304 is fixedly connected with a first roller 305, the output shaft of the motor 304 can drive the first roller 305 to rotate, the right side of the first roller 305 is provided with a thread, the outer wall of the first roller 305 is wound with a steel wire rope 306, the first roller 305 can drive the steel wire rope 306 to move, the outer walls of the left and right steel wire ropes 306 penetrate through the box body 2 and the gate support 1, the outer walls of the left and right steel wire ropes 306 are in clearance, the midpoint of the first roller 305 coincides with the output shaft axis position of the motor 304.

The rotating device 4 is installed inside the box body 2, the rotating device 4 comprises a vertical plate 401, a fluted disc 402, a second roller 403, a gear rod 404, a threaded rod 405, a concave plate 406, a first square block 407 and a gate 408, the upper surface of the vertical plate 401 is fixedly connected with the inner wall of the upper surface of the box body 2, the front end surface of the vertical plate 401 is rotatably connected with the fluted disc 402 through a rotating shaft, the fluted disc 402 can rotate at the vertical plate 401 through rotation, the fluted disc 402 is meshed with the first roller 305, the first roller 305 can drive the fluted disc 402 to rotate, the right side of the front end surface of the fluted disc 402 is provided with the second roller 403, the left side of the second roller 403 is provided with threads, the second roller 403 is meshed with the fluted disc 402, the fluted disc 402 can drive the second roller 403 to rotate, the right outer wall of the second roller 403 is connected with the inner rotation of the right L-shaped plate 301 through a bearing, and the second roller, the outer wall of the second roller 403 is wound with a steel wire rope 306, the second roller 403 can drive the steel wire rope 306 to move, a gear rod 404 is installed on the front end face of a gear disc 402, the gear rod 404 is meshed with the gear disc 402, the gear disc 402 can drive the gear rod 404 to rotate, the lower outer wall of the gear rod 404 is rotatably connected with the inside of the box body 2 through a bearing, the gear rod 404 can rotate at the box body 2 through a bearing, a threaded rod 405 is installed inside the gear rod 404, the outer wall of the threaded rod 405 is in threaded fit with the gear rod 404, the gear rod 404 can drive the threaded rod 405 to move, the lower outer wall of the threaded rod 405 penetrates through the upper surface of the gate support 1, the outer wall of the threaded rod 405 is in clearance fit with the outer walls at the openings of the gate support 1 and the box body 2, the threaded rod 405 can move at the gate support 1 and the box body 2, threaded rod 405 can rotate in first square block 407 department through the bearing, concave plate 406 is installed to the top of first square block 407, concave plate 406 can play the effect of blockking to first square block 407, the opening has been seted up to the centre of concave plate 406, the opening part outer wall of concave plate 406 and the below outer wall clearance fit of threaded rod 405, threaded rod 405 can rotate in concave plate 406 department, the lower surface rigid coupling of concave plate 406 has gate 408, the upper surface of gate 408 links to each other with the below of wire rope 306 is fixed, the outer wall of gate 408 and the left and right sides inner wall laminating of gate support 1, the opposite direction of second roller 403 and first roller 305 winding wire rope 306.

The damping device 5 is arranged at the lower part inside the gate bracket 1, the damping device 5 comprises a first transverse plate 501, a second transverse plate 502, a connecting rod 503, a second square block 504, a cross rod 505, a third square block 506 and a spring 507, the outer wall of the first transverse plate 501 is in clearance fit with the outer wall of a sliding groove at the lower part of the inner side of the gate bracket 1, the first transverse plate 501 can move at the gate bracket 1, 2 second transverse plates 502 are fixedly connected to the lower surface of the first

transverse plate

501, 2 connecting rods 503 are movably connected to the front end surfaces of the left and right second transverse plates 502 through pin shafts, the connecting rod 503 can rotate at the second transverse plate 502 through pin shafts, the second square block 504 is movably connected to the lower parts of the left and right connecting rods 503 through pin shafts, the connecting rod 503 can rotate at the second square block 504 through pin shafts, the cross rod 505 is arranged inside the left and right second square blocks 504, the outer wall of the left and right cross rod 505 is in clearance fit, the square piece 504 of second can remove in horizontal pole 505 department, the both sides outer wall rigid coupling of horizontal pole 505 has third square piece 506 about, the lower surface of controlling third square piece 506 links to each other with the lower surface inner wall of gate support 1 is fixed, control the outer wall of horizontal pole 505 and install spring 507, control the both sides of spring 507 and all link to each other with the inboard of the square piece 504 of second is fixed, spring 507 is in compression state when the square piece 504 of second is moved to the inboard, first diaphragm 501 constitutes sliding construction with gate support 1.

When an operator needs to use the hydraulic engineering gate with the energy-saving effect, firstly, the operator switches on an external power supply of the motor 304, starts the motor 304, drives the first roller 305 to rotate through an output shaft of the motor 304, the first roller 305 drives the fluted disc 402 to rotate, the fluted disc 402 drives the gear rod 404 and the second roller 403 to rotate, the gear rod 404 drives the threaded rod 405 to move, the threaded rod 405 drives the first square block 407 to move, the first square block 407 drives the gate 408 to move through the concave plate 406, and simultaneously, the first roller 305 and the second roller 403 drive the steel wire rope 306 to move, so that the steel wire rope 306 drives the gate 408 to move, thereby achieving the purposes of rapidly lifting the gate 408 and protecting the steel wire rope 306, when the gate 408 moves downwards, the first transverse plate 501 is driven to move through the gate 408, the first transverse plate 501 drives the second transverse plate 502 to move, the second horizontal plate 502 drives the connecting rod 503 to move inwards, the connecting rod 503 drives the second square block 504 to move, the second square block 504 extrudes the spring 507, the gate 408 is damped through the elastic performance of the spring 507, and therefore the purpose of protecting the gate 408 is achieved.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a hydraulic engineering gate with energy-conserving effect, includes gate support (1) and box (2), the upper surface rigid coupling of gate support (1) has box (2), the spout has been seted up to the left and right sides below inner wall of gate support (1), the opening has been seted up in the middle of the upper surface of box (2), its characterized in that: an energy storage device (3) is arranged in the box body (2);

the energy storage device (3) comprises an L-shaped plate (301), a storage battery (302), a solar panel (303), a motor (304), a first roller (305) and a steel wire rope (306);

control the outside of L shaped plate (301) links to each other with the left and right sides inner wall of box (2) is fixed, controls the upper surface rigid coupling of L shaped plate (301) has battery (302), controls the top of battery (302) is connected with solar cell panel (303) through electric wire electricity, controls the lower surface of solar cell panel (303) links to each other with the upper surface fixed of box (2), the left side the inside rigid coupling in top of L shaped plate (301) has motor (304), motor (304) are connected with battery (302) electricity through the electric wire, the output shaft rigid coupling of motor (304) has first roller (305), the right side processing of first roller (305) has the screw thread, the outer wall winding of first roller (305) has wire rope (306), controls the outer wall of wire rope (306) runs through box (2) and gate support (1), controls between the outer wall of wire rope (306) and the opening part outer wall of box (2) and gate support (1) And (4) clearance fit.

2. The hydraulic engineering gate with the energy-saving effect as claimed in claim 1, wherein: the middle point of the first roller (305) is consistent with the axial position of the output shaft of the motor (304).

3. The hydraulic engineering gate with the energy-saving effect as claimed in claim 1, wherein: a rotating device (4) is arranged in the box body (2);

the rotating device (4) comprises a vertical plate (401), a fluted disc (402), a second roller (403), a gear rod (404), a threaded rod (405), a concave plate (406), a first square block (407) and a gate (408);

the upper surface of riser (401) links to each other with the upper surface inner wall of box (2) is fixed, the preceding terminal surface of riser (401) rotates through the pivot and is connected with fluted disc (402), fluted disc (402) and first roller (305) intermeshing, second roller (403) are installed on the preceding terminal surface right side of fluted disc (402), the left side processing of second roller (403) has the screw thread, second roller (403) and fluted disc (402) intermeshing, the right side outer wall of second roller (403) passes through the inside rotation of bearing and right side L shaped plate (301) and links to each other, the outer wall winding of second roller (403) is connected with wire rope (306), gear stick (404) is installed to the preceding terminal surface of fluted disc (402), gear stick (404) and fluted disc (402) intermeshing, the below outer wall of gear stick (404) passes through the inside rotation of bearing and box (2) and links to each other, a threaded rod (405) is arranged inside the gear rod (404), the outer wall of the threaded rod (405) is in threaded fit with the gear rod (404), the outer wall of the lower part of the threaded rod (405) penetrates through the upper surface of the gate bracket (1), the outer wall of the threaded rod (405) is in clearance fit with the outer walls of the openings of the gate bracket (1) and the box body (2), the lower outer wall of the threaded rod (405) is rotationally connected with a first square block (407) through a bearing, a concave plate (406) is arranged above the first square block (407), an opening is arranged in the middle of the concave plate (406), the outer wall of the opening of the concave plate (406) is in clearance fit with the lower outer wall of the threaded rod (405), the lower surface of the concave plate (406) is fixedly connected with a gate (408), the upper surface of the gate (408) is fixedly connected with the lower part of the steel wire rope (306), the outer wall of the gate (408) is attached to the inner walls of the left side and the right side of the gate support (1).

4. A water conservancy project gate with energy-conserving effect of claim 3, characterized in that: the second roller (403) and the first roller (305) are wound on the steel wire rope (306) in the opposite direction.

5. The hydraulic engineering gate with the energy-saving effect as claimed in claim 1, wherein: a damping device (5) is arranged below the interior of the gate support (1);

the damping device (5) comprises a first transverse plate (501), a second transverse plate (502), a connecting rod (503), a second square block (504), a transverse rod (505), a third square block (506) and a spring (507);

the outer wall of the first transverse plate (501) is in clearance fit with the outer wall of a sliding groove at the lower part of the inner side of the gate support (1), the lower surface of the first transverse plate (501) is fixedly connected with a plurality of second transverse plates (502), the front end surfaces of the left and right second transverse plates (502) are movably connected with a plurality of connecting rods (503) through pin shafts, the lower parts of the left and right connecting rods (503) are movably connected with a second square block (504) through pin shafts, a transverse rod (505) is arranged inside the left and right second square block (504), the outer wall of the left and right transverse rod (505) is in clearance fit with the inner wall of a through hole of the second square block (504), the outer walls at the two sides of the left and right transverse rod (505) are fixedly connected with third square blocks (506), the lower surface of the left and right third square blocks (506) is fixedly connected with the inner wall of the lower surface of the gate, the two sides of the left spring (507) and the right spring (507) are fixedly connected with the inner side of the second square block (504).

6. The hydraulic engineering gate with the energy-saving effect as claimed in claim 5, wherein: the first transverse plate (501) and the gate support (1) form a sliding structure.