CN217203918U - Upturning type hydraulic integrated pump gate - Google Patents

Abstract

The utility model is suitable for a municipal administration equipment technical field provides a formula of turning up hydraulic pressure integration pump floodgate, and hydraulic means connects in the top of work gate, is made the work gate rotate and turns up by hydraulic system power device control hydraulic means, is provided with the hydraulic locking lever on the inside wall of high platform, after the work gate turns up, can carry out mechanical locking to the work gate, alleviates hydraulic means's pressure, adopts the hydraulic pressure mechanism of turning up, need not to build the hoisting house, has reduced the civil engineering cost; hydraulic means connects in the top of work gate, makes the work gate rotate to turn over on by hydraulic system power device control hydraulic means, is provided with hydraulic locking lever on the inside wall of high platform, after the work gate turns over on, can carry out mechanical locking to the work gate, alleviates hydraulic means's pressure, adopts hydraulic pressure to turn over the mechanism on, need not to build the promotion room, has reduced the civil engineering cost.

Description

Upturning type hydraulic integrated pump gate

Technical Field

The utility model belongs to the technical field of the municipal administration equipment, especially, relate to an upturning type hydraulic pressure integration pump floodgate.

Background

The integrated pump gate is a pump gate which integrally arranges a pump station and a gate station. The integrated pump gate comprises a water gate, a gate pump, a flap valve, a sensor configuration, a complete set of control system and the like, the gate is a water retaining structure and a water pump supporting foundation, the water pump is arranged on the gate, a fixed pump chamber is not built, the gate and a pump station are combined into a whole, the flood discharge and water body exchange capacity of a river channel is greatly improved, and the problems of large floor area, long construction period and the like are avoided.

The existing integrated pump gate mostly adopts a screw rod structure to control the rising and the falling of the integrated pump gate, so that a lifting room needs to be built for fixing structures such as a screw rod and the like, and the civil engineering cost is increased. In addition, current integration pump floodgate adopts the grid scrubbing machine to filter the rubbish in the river, and the bottom of grid scrubbing machine need place in the river course bottom, promotes and places and has often inconveniently.

Disclosure of Invention

The utility model provides an on turn over formula hydraulic pressure integration pump floodgate aims at adopting the mode that hydraulic means control integration pump floodgate turned over in order to rotate to go up and down, adopt the promotion and the placing of coiling mechanism control grid scrubbing machine bottom.

The utility model discloses a realize like this, a turn over formula hydraulic pressure integration pump floodgate on, including high platform, be provided with a plurality of on the inner wall of high platform and overhaul stoplog gate, the upper surface of high platform is provided with the electricity distribution room, just the upper surface of high platform is provided with the hydraulic means that hydraulic system power device and a plurality of control integration pump floodgate turned over on, hydraulic system power device's left side, in the upper surface of high platform is provided with the coiling mechanism who pulls out the surface of water with the bottom of mechanical grid scrubbing machine.

Preferably, a plurality of circles of winding ropes are wound in the winding device, the other ends of the winding ropes are connected to the bottom of the mechanical grating dirt separator, and the top of the mechanical grating dirt separator is arranged on the upper surface of the high platform.

Preferably, a horizontal spiral conveyor is arranged on the upper surface of the high platform below the mechanical grating dirt removing machine, and a plurality of grating cover plates are arranged on the left side of the hydraulic device on the upper surface of the high platform.

Preferably, the upper surface of the high platform is provided with a circle of fence, the upper surface of the high platform is provided with a transformer, the inner wall of the high platform is provided with a stainless steel ladder stand, and a steel dam is arranged behind the high platform.

Preferably, the upper surface of the high platform is fixedly provided with a first rotating base, the first rotating base is connected with the left end of the hydraulic device in a rotating mode, the other end of the hydraulic device is connected with a second rotating base in a rotating mode, and the second rotating base is fixedly arranged on the upper surface of the working gate.

Preferably, a third rotating base is fixedly arranged on the surface of the left side of the working gate, and a fourth rotating base is rotatably connected to the third rotating base.

Preferably, a gate pump is arranged on the right side of the working gate, a buoyancy tank flap valve is arranged on the right side of the gate pump, and a pump gate protective cover is arranged on the high platform above the working gate.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a formula hydraulic pressure integration pump floodgate turns over on, hydraulic means connects in the top of work gate, is made the work gate rotate to turn over on by hydraulic system power device control hydraulic means, is provided with the hydraulic locking lever on the inside wall of high platform, after the work gate turns over on, can carry out mechanical locking to the work gate, alleviates hydraulic means's pressure, adopts the hydraulic pressure mechanism of turning over on, need not to build the promotion room, has reduced the civil engineering cost;

a plurality of circles of winding ropes are wound in the winding device and connected to the bottom of the grid sewage disposal machine, when the grid sewage disposal machine needs to be lifted, the winding device works to recover the winding ropes, and the bottom of the grid sewage disposal machine is pulled out of the water surface; when the grid sewage removing machine needs to be placed, the winding rope is slowly released by the winding device, and the bottom of the grid sewage removing machine is slowly placed into the bottom of a river channel.

Drawings

Fig. 1 is a schematic cross-sectional view taken along line a-a of fig. 2 according to the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 is a schematic cross-sectional view taken along line D-D of fig. 2 according to the present invention;

FIG. 4 is a schematic view of a lifting working gate of the hydraulic device according to the present invention;

FIG. 5 is a schematic view and a side view of a working gate according to the present invention;

in the figure: 1-high platform; 2, overhauling the stop log gate; 3-fencing; 4-a winding device; 5-rolling up the rope; 6-mechanical grid sewage disposal machine; 7-a horizontal screw conveyor; 8-a distribution room; 9-hydraulic system power device; 10-a hydraulic device; 11-a working gate; 12-a gate pump; 13-buoyancy tank flap valve; 14-pump gate protection cover; 15-stainless steel ladder stand; 16-a transformer; 17-a grid cover plate; 18-steel dams; 19-a first rotating base; 20-a second rotating base; 21-a third rotating base; 22-fourth rotating base.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides an on turn over formula hydraulic pressure integration pump floodgate, includes high platform 1, is provided with a plurality of on the inner wall of high platform 1 and overhauls stoplog gate 2, and the upper surface of high platform 1 is provided with electricity distribution room 8, and the upper surface of high platform 1 is provided with hydraulic means 10 that hydraulic system power device 9 and a plurality of control integration pump floodgate turned over, and hydraulic system power device 9's left side is provided with the coiling mechanism 4 of pulling out the surface of water with the bottom of mechanical grid scrubbing machine 6 in the upper surface of high platform 1.

The stop log gate, namely the stop log gate, also named as the stop log gate, the stop log valve and the stop log gate, uses a plurality of independent gate plates which are transversely arranged into a gate slot one by one to be stacked into a plane water retaining structure; the stop log gate has simple structure, light dead weight, small lifting force and convenient transportation, but the sealing effect is achieved by the dead weight of water stop between the flashboards, the integrity of the water stop structure is poor, the water stop structure is sealed by the water level difference, the leakage amount is slightly larger than that of a steel gate, and the stop log gate is suitable for being used as temporary water stop or maintenance gate.

The mechanical grid sewage removing machine 6 is a sewage removing machine which separates solid and liquid through a grid and can convey solid garbage and the like from the bottom of a river channel to the horizontal spiral conveyor 7;

the mechanical grid dirt separator 6 is placed at the bottom of a river channel at ordinary times, the mechanical grid dirt separator 6 can be lifted to the water surface in non-rainy season, sewage and garbage freely pass through the mechanical grid dirt separator and do not influence normal water flow, the mechanical grid dirt separator 6 is placed in the water when the mechanical grid dirt separator operates in flood season or a pump gate, and the garbage in the inland river is lifted to the horizontal spiral conveyor 7 when the mechanical grid dirt separator operates.

Further, the winding has a plurality of circles of rolling rope 5 in the coiling mechanism 4, and the other end of rolling rope 5 is connected in the bottom of mechanical grid cleaner 6, and the top of mechanical grid cleaner 6 sets up in the upper surface of high platform 1.

The bottom of the mechanical grille decontamination machine 6 can be pulled out of the water surface by the winding rope 5 recovered by the winding device 4.

Specifically, a horizontal screw conveyor 7 is arranged on the upper surface of the high platform 1 below the mechanical grating sewage removing machine 6, and a plurality of grating cover plates 17 are arranged on the left side of the hydraulic device 10 on the upper surface of the high platform 1.

The horizontal screw conveyor 7 is used for conveying the garbage transported by the mechanical grid sewage disposal 6 from the river water to other designated positions.

Generally, a circle of fence 3 is arranged on the upper surface of the high platform 1, a transformer 16 is arranged on the upper surface of the high platform 1, a stainless steel ladder stand 15 is arranged on the inner wall of the high platform 1, and a steel dam 18 is arranged behind the high platform 1.

In addition, a first rotating base 19 is fixedly arranged on the upper surface of the high platform 1, the first rotating base 19 is rotatably connected with the left end of the hydraulic device 10, the other end of the hydraulic device 10 is rotatably connected with a second rotating base 20, and the second rotating base 20 is fixedly arranged on the upper surface of the working gate 11.

Further, a third swivel base 21 is fixedly provided on the left side surface of the working gate 11, and a fourth swivel base 22 is rotatably connected to the third swivel base 21.

The working gate 11 adopts an upturning structure, the hydraulic device 10 is adopted to realize upturning and downturning, in rainy season, the working gate 11 is closed, the working gate 11 is vertically placed, and a hydraulic rod on the hydraulic device 10 extends out to lock the working gate 11 on a gate frame;

detecting the water level by a liquid level meter (arranged on the inner side wall of the high platform 1), starting the gate pump 12 when the set liquid level is reached, forcibly discharging the water of the inland river on the upper surface of the inland river, and automatically controlling the starting and stopping of the gate pump 12 if the liquid level is reduced;

when the water level is lowered to a set value, the working gate 11 is opened, the hydraulic rod on the hydraulic device 10 retracts, the working gate 11 is turned upwards to a specified position, the valve is turned upwards to a horizontal plane position through the synchronous force of the fulcrum of the bracket and the hydraulic rod, and after the valve reaches the set position, a hydraulic locking rod is arranged on the inner side wall of the high platform 1 and extends out of the locking rod, so that the gate is mechanically locked.

In order to ensure that the working gate 11 can be lifted and lowered by the extension and retraction of the hydraulic rod on the hydraulic device 10, in the scheme, the connection pivot of the hydraulic rod and the working gate 11, and the connection pivot of the bracket and the working gate 11 must be on a circle.

Further, a gate pump 12 is arranged on the right side of the working gate 11, a buoyancy tank flap valve 13 is arranged on the right side of the gate pump 12, and a pump gate protective cover 14 is arranged above the working gate 11 and above the high platform 1.

A buoyancy tank flap valve 13 is arranged on the right side of the gate pump 12, a hydraulic cylinder is arranged at the upper end of the buoyancy tank flap valve 13 and used for opening and closing the flap valve, when positive drainage and reverse drainage are carried out, the hydraulic cylinder opens the buoyancy tank flap valve 13 and is used for on-off action of water flow, if only positive drainage is carried out, the hydraulic cylinder is not needed to be installed, and on-off water flow of the buoyancy tank flap valve 13 can be realized by using sum pressure of water flow; the pump gate protective cover 14 is used for protecting the working gate 11 after the working gate 11 is turned up.

The utility model discloses a theory of operation and use flow: after the utility model is installed, the mechanical grid sewage-removing machine 6 is placed at the bottom of the river at ordinary times, and in the non-rainy season, the mechanical grid sewage-removing machine 6 can be lifted to the water surface, sewage and garbage freely pass through without influencing the normal water flow, and when the flood season or the pump brake operates, the mechanical grid sewage-removing machine 6 is put into the water, and the operation lifts the garbage in the inland river to the horizontal spiral conveyor 7, and then the garbage is transported to the designated position by the horizontal spiral conveyor 7;

the winding and unwinding of the mechanical grille decontamination machine 6 are controlled by the winding device 4, when the mechanical grille decontamination machine 6 needs to be lifted, the winding device 4 works and recycles the winding rope 5, and the bottom of the mechanical grille decontamination machine 6 is pulled out of the water surface; when the mechanical grid sewage-removing machine 6 needs to be placed, the winding device 4 works to slowly release the winding rope 5, and the bottom of the mechanical grid sewage-removing machine 6 is slowly placed at the bottom of the river channel;

the working gate 11 adopts an upturning structure, the hydraulic device 10 is adopted to realize upturning and downturning, in rainy season, the working gate 11 is closed, the working gate 11 is vertically placed, and a hydraulic rod on the hydraulic device 10 extends out to lock the working gate 11 on a gate frame;

detecting the water level by a liquid level meter (arranged on the inner side wall of the high platform 1), starting the gate pump 12 when the set liquid level is reached, forcibly discharging the water of the inland river on the upper surface of the inland river, and automatically controlling the starting and stopping of the gate pump 12 if the liquid level is reduced;

when the water level is lowered to a set value, the working gate 11 is opened, the hydraulic rod on the hydraulic device 10 retracts, the working gate 11 is turned upwards to a specified position, the valve is turned upwards to a horizontal plane position through the synchronous force of the fulcrum of the bracket and the hydraulic rod, and after the valve reaches the set position, a hydraulic locking rod is arranged on the inner side wall of the high platform 1 and extends out of the locking rod, so that the gate is mechanically locked.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (7)

1. The utility model provides a turn over formula hydraulic pressure integration pump floodgate which characterized in that: including high platform (1), be provided with a plurality of maintenance stoplog gate (2) on the inner wall of high platform (1), the upper surface of high platform (1) is provided with electricity distribution room (8), just the upper surface of high platform (1) is provided with hydraulic means (10) that hydraulic system power device (9) and a plurality of control integration pump floodgate upturned, the left side of hydraulic system power device (9), in the upper surface of high platform (1) is provided with coiling mechanism (4) of pulling out the surface of water with the bottom of mechanical grating de-dirt machine (6).

2. The upturning type hydraulic integrated pump brake as claimed in claim 1, wherein: the winding has a plurality of circles of coiling rope (5) in coiling mechanism (4), the other end of coiling rope (5) connect in the bottom of mechanical grid scrubbing machine (6), the top of mechanical grid scrubbing machine (6) set up in the upper surface of high platform (1).

3. The upturning type hydraulic integrated pump brake as claimed in claim 2, wherein: the lower part of the mechanical grating dirt removing machine (6), the upper surface of the high platform (1) is provided with a horizontal spiral conveyor (7), the upper surface of the high platform (1) is provided with a plurality of grating cover plates (17) on the left side of the hydraulic device (10).

4. The upturning type hydraulic integrated pump brake as claimed in claim 1, wherein: the upper surface of high platform (1) is provided with round rail (3), just the upper surface of high platform (1) is provided with transformer (16), be provided with stainless steel cat ladder (15) on the inner wall of high platform (1), the rear of high platform (1) is provided with steel dam (18).

5. The upturning type hydraulic integrated pump brake as claimed in claim 1, wherein: the upper surface of high platform (1) is fixed and is provided with first rotating base (19), first rotating base (19) with the left end of hydraulic means (10) all rotates to be connected, the other end of hydraulic means (10) all rotates and is connected with second rotating base (20), second rotating base (20) all fixed the setting in the upper surface of work gate (11).

6. The upturning type hydraulic integrated pump brake as claimed in claim 5, wherein: the left side fixed surface of work gate (11) is provided with third rotating base (21), it is connected with fourth rotating base (22) to rotate on third rotating base (21).

7. The upturning type hydraulic integrated pump brake as claimed in claim 5, wherein: the right side of work gate (11) is provided with gate pump (12), the right side of gate pump (12) is provided with flotation tank clap door (13), just the top of work gate (11), in be provided with pump floodgate safety cover (14) on high platform (1).

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