CN112296793A - Rust removal device special for vertical lifting type water conservancy gate - Google Patents

Abstract

The invention discloses a rust removing device special for a vertical lifting type water conservancy gate, which comprises a gate body, wherein a motor is arranged at the right end of the gate body, a fluid groove communicated with the front end surface and the rear end surface of the gate body is arranged in the gate body, a gate is connected in the fluid groove in a sliding manner, a starting cavity with a left opening is formed in the right cavity wall of the fluid groove, the device has a simple structure and is convenient to operate, the problems that the gate is rusted and cannot be subjected to rust removing treatment due to the fact that the vertical lifting type gate is soaked in water all the year round are solved, the gate can be timely cleaned and maintained, the service life of the gate can be better prolonged, the operation of underwater engineering can be safer and more stable, and when the device is used, the front end surface and the rear end surface of the gate in the water can be automatically cleaned and maintained through the use device, the service life of the gate can be prolonged, powerful and hydraulic engineering's safe operation.

Description

Rust removal device special for vertical lifting type water conservancy gate

Technical Field

The invention relates to the field of water conservancy gates, in particular to a rust removing device special for a vertical lifting water conservancy gate.

Background

Water sluices are important facilities used in various reservoirs, and among them, a vertical lift type sluice is the most common one, which is convenient for quick installation and removal.

At present, a vertical lift type gate is usually immersed in water all the time in a reservoir, so that the gate is most easily rusted, but generally, the vertical lift type gate is difficult to remove rust, and because the fresh part of the gate is underwater, a rust remover is difficult to remove rust after being sprayed on the surface of the gate.

Disclosure of Invention

The invention aims to solve the technical problem of providing a rust removal device special for a vertical lift type water conservancy gate, solving the problems that the gate is rusted and cannot be subjected to rust removal treatment due to the fact that the vertical lift type gate is soaked in water all the year round, timely carrying out rust removal, cleaning and maintenance on the gate, prolonging the service life of the gate better, and carrying out operation of underwater engineering more safely and stably.

The invention relates to a rust removing device special for a vertical lifting type water conservancy gate, which comprises a gate body, wherein a motor is arranged at the right end of the gate body, a fluid groove communicated with the front end surface and the rear end surface of the gate body is arranged in the gate body, a gate is connected in the fluid groove in a sliding manner, a starting cavity with a left opening is formed in the right cavity wall of the fluid groove, an inflating cavity is arranged at the lower side of the starting cavity, a rust removing plate is sleeved on the gate, rust removing cavities with openings pointing to the direction of the gate are formed in the rust removing plate, a gate mechanism is arranged in the fluid groove, a starting mechanism is arranged in the starting cavity, an inflating mechanism is arranged in the inflating cavity, a rust removing mechanism is arranged in the rust removing cavity and comprises a movable lead screw rotatably connected to the left cavity wall and the right cavity wall in the rust removing cavity, a spraying block is connected to, the upper side of the derusting cavity is also provided with an inflation channel, the rear cavity wall in the inflation channel is also communicated with a connecting pipeline, the connecting pipeline is communicated with the lower expansion pipeline, the upper cavity wall of the inflation channel is also communicated with an upper expansion pipeline, the upper end of the upper expansion pipeline penetrates through the upper cavity wall of the derusting cavity and extends out of the derusting plate, the upper end of the upper expansion pipeline is also communicated with an inflation pipeline, an inflation one-way valve is also arranged in the inflation pipeline, the other end of the inflation pipeline is also communicated with the lower cavity wall of the inflation cavity, the left and right cavity walls of the derusting cavity are both provided with limiting grooves with openings pointing to the central direction of the derusting cavity, limiting slide blocks are all connected in a sliding manner in the limiting grooves, and springs are fixedly connected between the limiting slide blocks and the cavity wall of the limiting grooves far away from the central direction of, the cavity walls of the limiting grooves far away from the center direction of the rust removing cavity are all provided with self-locking grooves with forward openings, the self-locking grooves are connected with self-locking sliding blocks in a sliding manner, springs are fixedly connected between the self-locking sliding blocks and the cavity walls far away from the center direction of the rust removing cavity, one end, far away from the center direction of the rust removing cavity, of the limiting sliding block at the left end of the rust removing cavity is fixedly connected with a self-locking pull rope, the upper end of the self-locking pull rope is fixedly connected with one end, far away from the center direction of the rust removing cavity, of the self-locking sliding block at the right end of the rust removing cavity, the upper end of the self-locking groove is fixedly connected with one end, far away from the center direction of the rust removing cavity, of the limiting sliding block at the left end of the rust removing cavity is also fixedly connected with a moving pull rope, one, the upper end of the limiting pull rope is fixedly connected to one end, far away from the center direction of the derusting cavity, of the limiting slide block at the right end of the derusting cavity, and a brush is further fixed on the upper cavity wall of the derusting cavity.

Furthermore, the left end of the rust removing plate is provided with rolling grooves with openings pointing to the center direction of the rust removing cavity, the left cavity wall and the right cavity wall of each rolling groove are rotatably connected with rolling shafts, rollers are fixedly connected onto the rolling shafts, the left side of each rolling groove is also provided with a driven cavity, the left end of each rolling shaft penetrates through the left cavity wall of each rolling groove and is rotatably connected onto the left cavity wall of each driven cavity, the left end of each rolling shaft is positioned in the driven cavity, the part of each rolling shaft, positioned in the driven cavity, is also fixedly connected with a lower belt wheel, the right cavity wall of each driven cavity is also rotatably connected with a driven shaft, the left end of each driven shaft is fixedly connected with an upper belt wheel, the upper belt wheel is connected with the lower belt wheel through a belt, the right end of each driven shaft is also fixedly connected with a driven gear, the right cavity wall of, the movable lead screw is located at the inner part of the driven cavity and is further connected with a left gear and a right gear through splines, the left gear and the right gear are fixedly connected, a fixed rod is further fixedly connected onto the right cavity wall at the upper end of the driven cavity, a movable block is slidably connected onto the fixed rod, a spring is fixedly connected between the right end of the movable block and the right cavity wall of the driven cavity, and the right end of the movable pull rope is further fixedly connected onto the right end of the movable block.

Furthermore, the left and right cavity walls of the fluid tank of the gate mechanism are both provided with lifting grooves with openings pointing to the central direction of the fluid tank, the rust removing plate is connected in the lifting groove in a sliding manner, a lifting threaded hole communicated with the upper end surface and the lower end surface of the rust removing plate is further formed in the part, located at the left end of the fluid groove, of the left end of the rust removing plate, in the lifting groove, the lifting threaded hole is connected with a lifting screw rod through threads, the lifting screw rod is rotationally connected to the lower cavity wall of the lifting groove at the left end of the fluid groove, the upper side of the lifting groove at the left end of the fluid groove is also provided with a linkage cavity, the upper end of the lifting screw penetrates through the upper cavity wall of the lifting groove at the left end of the fluid groove and extends into the linkage cavity, the lower end of the part, positioned at the right end of the fluid groove, of the right end of the derusting plate inside the lifting groove is fixedly connected with a telescopic rod, and the lower end of the telescopic rod is fixedly connected to the lower cavity wall of the lifting groove at the right end of the fluid groove.

Further, the starting mechanism comprises a power shaft which is rotatably connected to the right cavity wall of the starting cavity, a fluid groove is rotatably connected to the power shaft, a right meshing groove with a left opening is formed in the left end of the fluid groove, teeth are arranged on the cavity wall of the right meshing groove, an inflating toothed plate with partial teeth at the front end is further slidably connected to the rear cavity wall of the starting cavity, an inflating connecting rod is further fixedly connected to the lower end of the inflating toothed plate, the lower end of the inflating connecting rod penetrates through the lower cavity wall of the starting cavity and extends into the inflating cavity, the right end of the power shaft penetrates through the right cavity wall of the starting cavity and extends out of the gate body, the right end of the power shaft is located outside the gate body and is in power connection with the motor, an air suction channel is further communicated to the right cavity wall of the starting cavity, an air suction one-way valve is arranged in the air suction channel, and the other end, the left end of the power shaft also extends into the linkage cavity and is fixedly connected with a power bevel gear, the upper end of the lifting screw rod, which is positioned in the linkage cavity, is also fixedly connected with the linkage bevel gear, the linkage bevel gear is engaged with the power bevel gear, the power shaft, which is positioned right above the gate, is also rotatably connected with a chain wheel, the chain wheel is also fixedly wound with a steel wire rope, the other end of the steel wire rope is fixedly connected with the upper end of the gate, the right end of the chain wheel is also provided with a left engagement cavity with a right opening, teeth are arranged in the left engagement cavity, the part of the power shaft, which is positioned in the left engagement cavity, is also fixedly connected with a retaining ring, the part of the power shaft, which is positioned in the left engagement cavity, is also connected with a moving gear through a spline, the moving gear is engaged with, an electromagnet is fixed at the right end of the baffle ring, and a magnet is fixed at the left end of the movable gear.

Furthermore, the inflation mechanism comprises an inflation piston which is connected in the inflation cavity in a sliding manner, the lower end of the inflation connecting rod is positioned at the upper end of the inflation piston in the inflation cavity, an inflation spring is fixedly connected between the lower end of the inflation piston and the lower cavity wall of the inflation cavity, and the rust removing plate is in a sealing state in the rust removing cavity in the moving process.

The invention has the beneficial effects that: the device simple structure, the simple operation, the device can carry out comprehensive rust cleaning to the gate terminal surface around in the water through the operative installations is automatic when using to can clear up the maintenance to the gate surface, improve the life of gate, powerful and hydraulic engineering's safe operation.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view taken along line A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention shown in FIG. 2B;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 2;

fig. 5 is an enlarged schematic structural diagram at D in fig. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-5, the rust removing device specially used for the vertically-lifting water conservancy gate comprises a gate body 10, a motor 11 is arranged at the right end of the gate body 10, a fluid groove 37 communicated with the front end surface and the rear end surface of the gate body 10 is arranged in the gate body 10, a gate 28 is connected in the fluid groove 37 in a sliding manner, a starting cavity 74 with a leftward opening is formed in the right cavity wall of the fluid groove 37, an inflation cavity 16 is arranged at the lower side of the starting cavity 74, a rust removing plate 23 is further sleeved on the gate 28, rust removing cavities 24 with openings pointing to the direction of the gate 28 are formed in the rust removing plate 23, a gate mechanism 75 is arranged in the fluid groove 37, a starting mechanism 76 is arranged in the starting cavity 74, an inflation mechanism 77 is arranged in the inflation cavity 16, a rust removing mechanism 78 is arranged in the rust removing cavity 24, the rust removing mechanism 78 comprises a movable lead screw 47 rotatably, the movable screw 47 is connected with a spraying block 48 through threads, the spraying block 48 is internally provided with a liquid spraying cavity 49, the left cavity wall of the liquid spraying cavity 49 is communicated with a lower telescopic pipeline 36, the upper side of the rust removing cavity 24 is also provided with an inflating channel 26, the inner rear cavity wall of the inflating channel 26 is also communicated with a connecting pipeline 35, the connecting pipeline 35 is communicated with the lower telescopic pipeline 36, the upper cavity wall of the inflating channel 26 is also communicated with an upper telescopic pipeline 27, the upper end of the upper telescopic pipeline 27 penetrates through the upper cavity wall of the rust removing cavity 24 and extends out of the rust removing plate 23, the upper end of the upper telescopic pipeline 27 is also communicated with an inflating pipeline 20, the inflating pipeline 20 is also internally provided with an inflating one-way valve 19, the other end of the inflating pipeline 20 is also communicated with the lower cavity wall of the inflating cavity 16, and the left and right cavity walls of the rust removing cavity 24 are both provided with limiting grooves, the limiting grooves 71 are internally and slidably connected with limiting sliding blocks 72, springs are fixedly connected between the limiting sliding blocks 72 and the cavity walls of the limiting grooves 71 far away from the center direction of the rust removing cavity 24, self-locking grooves 68 with forward openings are formed in the cavity walls of the limiting grooves 71 far away from the center direction of the rust removing cavity 24, self-locking sliding blocks 70 are slidably connected in the self-locking grooves 68, springs are fixedly connected between the self-locking sliding blocks 70 and the cavity walls far away from the center direction of the rust removing cavity 24, a self-locking pull rope 69 is fixedly connected to one end, far away from the center direction of the rust removing cavity 24, of the limiting sliding block 72 at the left end of the rust removing cavity 24, of the self-locking sliding block 72 at the left end of the rust removing cavity 24, the upper end of the self-locking pull rope 69 is fixedly connected to one end, far away from the center direction of the rust removing cavity 24, of the self-locking sliding, the end, far away from the center direction of the rust removing cavity 24, of the limiting slide block 72 at the left end of the rust removing cavity 24 is also fixedly connected with a movable pull rope 64, the end, far away from the center direction of the rust removing cavity 24, of the self-locking slide block 70 at the left end of the rust removing cavity 24 is also fixedly connected with a limiting pull rope 73, the upper end of the limiting pull rope 73 is also fixedly connected to the end, far away from the center direction of the rust removing cavity 24, of the limiting slide block 72 at the right end of the rust removing cavity 24, and a brush 25 is further fixed on the upper cavity.

Beneficially, the left end of the rust removing plate 23 is provided with a rolling groove 51 with an opening pointing to the center direction of the rust removing cavity 24, the left cavity wall and the right cavity wall of the rolling groove 51 are further rotatably connected with a rolling shaft 53, the rolling shaft 53 is fixedly connected with a roller 52, the left side of the rolling groove 51 is further provided with a driven cavity 54, the left end of the rolling shaft 53 penetrates through the left cavity wall of the rolling groove 51 and is rotatably connected to the left cavity wall of the driven cavity 54, the left end of the rolling shaft 53 is positioned in the driven cavity 54 and is further fixedly connected with a lower belt wheel 55, the right cavity wall of the driven cavity 54 is further rotatably connected with a driven shaft 57, the left end of the driven shaft 57 is fixedly connected with an upper belt wheel 58, the upper belt wheel 58 is connected with the lower belt wheel 55 through a belt 56, the right end of the driven shaft 57 is further fixedly connected with, the steering shaft 67 is fixedly connected with a steering gear 65, the steering gear 65 is meshed with the driven gear 66, the left end of the movable lead screw 47 further penetrates through the left cavity wall of the rust removing cavity 24 and is rotatably connected to the left cavity wall of the driven cavity 54, the movable lead screw 47 is positioned inside the driven cavity 54 and is further connected with a left gear 60 and a right gear 63 through splines, the left gear 60 and the right gear 63 are fixedly connected, the right cavity wall at the upper end of the driven cavity 54 is further fixedly connected with a fixed rod 61, the fixed rod 61 is slidably connected with a movable block 62, a spring is fixedly connected between the right end of the movable block 62 and the right cavity wall of the driven cavity 54, and the right end of the movable pull rope 64 is further fixedly connected to the right end of the movable.

Beneficially, the gate mechanism 75 is provided with lifting grooves 13 with openings pointing to the central direction of the fluid groove 37 on the left and right chamber walls of the fluid groove 37, the derusting plate 23 is slidably connected in the lifting grooves 13, the lifting groove 13 at the left end of the derusting plate 23 is further provided with lifting threaded holes 34 communicating the upper and lower end surfaces of the derusting plate 23, the lifting threaded holes 34 are internally connected with lifting lead screws 33 through threads, the lifting lead screws 33 are rotatably connected to the lower chamber wall of the lifting groove 13 at the left end of the fluid groove 37, the upper side of the lifting groove 13 at the left end of the fluid groove 37 is further provided with a linkage chamber 31, the upper end of the lifting lead screw 33 penetrates through the upper chamber wall of the lifting groove 13 at the left end of the fluid groove 37 and extends into the linkage chamber 31, the lower end of the lifting groove 13 at the right end of the fluid groove 37 at the right end of the derusting plate 23 is further fixedly connected with a telescopic rod 22, the lower end of the telescopic rod 22 is fixedly connected to the lower cavity wall of the lifting groove 13 at the right end of the fluid groove 37.

Beneficially, the starting mechanism 76 includes a power shaft 30 rotatably connected to the right cavity wall of the starting cavity 74, a fluid groove 37 is rotatably connected to the power shaft 30, a right engaging groove 39 with a left opening is formed at the left end of the fluid groove 37, teeth are arranged on the cavity wall of the right engaging groove 39, an inflatable toothed plate 14 with partial teeth at the front end is further slidably connected to the rear cavity wall of the starting cavity 74, an inflatable connecting rod 15 is further fixedly connected to the lower end of the inflatable toothed plate 14, the lower end of the inflatable connecting rod 15 penetrates through the lower cavity wall of the starting cavity 74 and extends into the inflatable cavity 16, the right end of the power shaft 30 further penetrates through the right cavity wall of the starting cavity 74 and extends out of the gate body 10, the right end of the power shaft 30 is located outside the gate body 10 and is in power connection with the motor 11, a suction channel 12 is further communicated to the right cavity wall of the starting cavity 74, and a suction one-way valve 21 is arranged in, the other end of the air suction channel 12 is communicated with the lower cavity wall of the inflation cavity 16, the left end of the power shaft 30 also extends into the linkage cavity 31 and is fixedly connected with a power bevel gear 29, the upper end of the lifting screw 33 is positioned in the linkage cavity 31 and is also fixedly connected with a linkage bevel gear 32, the linkage bevel gear 32 is meshed with the power bevel gear 29, the power shaft 30 is positioned right above the gate 28 and is also rotatably connected with a chain wheel 40, a steel wire rope 38 is also fixedly wound on the chain wheel 40, the other end of the steel wire rope 38 is fixedly connected to the upper end of the gate 28, the right end of the chain wheel 40 is also provided with a left meshing cavity 44 with a right opening, teeth are arranged in the left meshing cavity 44, the part of the power shaft 30 positioned in the left meshing cavity 44 is also fixedly connected with a retaining ring 41, and the part of the power shaft 30 positioned in the left meshing, the moving gear 46 is engaged with teeth in the left engaging cavity 44, a position spring 43 is fixedly connected between the moving gear 46 and the retaining ring 41, an electromagnet 42 is fixed at the right end of the retaining ring 41, and a magnet 45 is fixed at the left end of the moving gear 46.

Advantageously, the inflating mechanism 77 includes an inflating piston 17 slidably connected in the inflating cavity 16, a part of the lower end of the inflating link rod 15 located in the inflating cavity 16 is fixedly connected to the upper end of the inflating piston 17, an inflating spring 18 is fixedly connected between the lower end of the inflating piston 17 and the lower cavity wall of the inflating cavity 16, and the rust removing plate 23 is in a sealed state in the rust removing cavity 24 during the moving process.

Sequence of mechanical actions of the whole device:

1: when the gate 28 needs to be cleaned, the electromagnet 42 is started, so that the electromagnet 42 and the magnet 45 are repelled to drive the moving gear 46 to be disengaged from the chain wheel 40 and enter the fluid groove 37, and are engaged with teeth inside the fluid groove 37, so that the fluid groove 37 is driven to rotate, so that the aeration toothed plate 14 is driven to move up and down through half teeth on the fluid groove 37, so that the aeration piston 17 is driven to move up and down in the aeration cavity 16, so that air is sucked from the air suction channel 12 and is pumped into the liquid spraying cavity 49 inside the spraying block 48 through the aeration pipeline 20, and the rust remover in the liquid spraying cavity 49 is sprayed onto the surface of the gate 28, meanwhile, the power shaft 30 rotates to drive the power bevel gear 29 to rotate so as to drive the linkage bevel gear 32 to rotate, so that the lifting screw rod 33 is driven to rotate, so that the rust removing plate 23 moves down through the lifting screw hole 34, so that the rust removing, simultaneously, the roller 52 is contacted with the surface of the rust removing plate 23 so as to rotate the roller 52, thereby driving the rolling shaft 53 to rotate, thereby driving the lower belt wheel 55 to rotate, thereby driving the upper belt wheel 58 to drive the driven shaft 57 to rotate, thereby driving the driven gear 66 to rotate, thereby driving the left gear 60 engaged with the driven gear to rotate, thereby driving the movable lead screw 47 to rotate, thereby driving the spraying block 48 in threaded connection with the movable lead screw 47 to move rightwards, when the spraying block 48 moves rightwards to the rightmost end in the rust removing cavity 24, thereby pressing the limit slide block 72 at the right end of the rust removing cavity 24 and being self-locked by the self-locking slide block 70, thereby tensioning the limit pull rope 73, thereby pulling the self-locking slide block 70 at the left end of the rust removing cavity 24 so as to eject the limit slide block 72 at the left end of the rust removing cavity 24, thereby loosening the movable block 64, thereby driving the right gear 63 to move leftwards by the movable block 62, thereby driving the left gear 60 to disengage the left, because the driven gear 66 is always meshed with the steering gear 65, the right gear 63 is reversely rotated through the steering gear 65, so that the movable lead screw 47 is reversely rotated, the spraying block 48 is driven to move leftwards, when the spraying block 48 moves leftwards to the leftmost end of the rust removing cavity 24, the limiting slide block 72 at the left end of the rust removing cavity 24 is pressed down and is self-locked by the self-locking slide block 70 at the left end of the rust removing cavity 24, so that the movable pull rope 64 is tensioned again, the limiting slide block 72 at the right end of the rust removing cavity 24 is reset, the left gear 60 is reset, so that the movable lead screw 47 rotates forwards, the spraying block 48 continuously moves rightwards, the spraying block 48 continuously moves leftwards and rightwards in the rust removing cavity 24, so that the rust removing work of the inner and outer surfaces of the gate 28 is continuously carried out, and the rust removing agent is removed through the hairbrush 25 on the rust removing;

2: when the rust removing plate 23 descends to the bottom of the gate 28, the motor 11 can be reversed, so that the rust removing plate 23 moves upwards to continue rust removing action, after rust removing is finished, and the rust removing plate 23 returns to the initial position, the motor 11 is closed, so that the power shaft 30 stops rotating, the rust removing plate 23 stops moving, the air charging piston 17 stops moving, the spraying block 48 in the rust removing cavity 24 stops spraying the rust removing agent to the surface of the gate 28, at the moment, the electromagnet 42 is closed, mutual repulsion between the electromagnet 42 and the magnet 45 stops, so that the movable gear 46 is reset under the action of the spring, and the device is completely reset.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a rust cleaning device of formula water sluicegate is directly risen is exclusively used in, includes the gate floodgate body, its characterized in that: the right end of the gate lock body is provided with a motor, a fluid groove communicated with the front end face and the rear end face of the gate lock body is arranged in the gate lock body, a gate is connected in the fluid groove in a sliding manner, a starting cavity with a leftward opening is formed in the right cavity wall of the fluid groove, an inflation cavity is arranged on the lower side of the starting cavity, a rust removing plate is further sleeved on the gate, rust removing cavities with openings pointing to the direction of the gate are formed in the rust removing plate, a gate mechanism is arranged in the fluid groove, a starting mechanism is arranged in the starting cavity, an inflation mechanism is arranged in the inflation cavity, a rust removing mechanism is arranged in the rust removing cavity and comprises a moving lead screw rotatably connected to the left cavity wall and the right cavity wall in the rust removing cavity, spraying blocks are connected to the moving lead screw through threads, liquid spraying cavities are arranged in the spraying, an inflation channel is further arranged on the upper side of the rust removing cavity, the rear cavity wall in the inflation channel is further communicated with a connecting pipeline, the connecting pipeline is communicated with the lower telescopic pipeline, the upper cavity wall of the inflation channel is further communicated with an upper telescopic pipeline, the upper end of the upper telescopic pipeline penetrates through the upper cavity wall of the rust removing cavity and extends out of the rust removing plate, the upper end of the upper telescopic pipeline is further communicated with an inflation pipeline, an inflation check valve is further arranged in the inflation pipeline, the other end of the inflation pipeline is further communicated with the lower cavity wall of the rust removing cavity, limiting grooves with openings pointing to the center direction of the rust removing cavity are formed in the left cavity wall and the right cavity wall of the rust removing cavity, limiting sliders are connected in a sliding mode in the limiting grooves, springs are fixedly connected between the limiting sliders and the cavity walls of the limiting grooves far away from the center direction of the rust removing cavity, and self-locking grooves with forward openings, a self-locking slide block is connected in the self-locking groove in a sliding manner, a spring is fixedly connected between the self-locking slide block and the cavity wall far away from the center direction of the rust removing cavity, a self-locking pull rope is fixedly connected at one end, far away from the center direction of the rust removing cavity, of the limiting slide block at the left end of the rust removing cavity, a moving pull rope is fixedly connected at one end, far away from the center direction of the rust removing cavity, of the self-locking slide block at the right end of the rust removing cavity, the upper end of the self-locking slide block at the left end of the rust removing cavity is fixedly connected at one end, far away from the center direction of the rust removing cavity, of the limiting slide block at the left end of the rust removing cavity, a limiting pull rope is fixedly connected at one end, far away from the center direction of the rust removing cavity, of the limiting slide block at the right end of the rust removing, and a brush is also fixed on the upper cavity wall of the rust removing cavity.

2. The rust removing device special for the vertical lifting type water conservancy gate according to claim 1 is characterized in that: the left end of the rust removing plate is provided with rolling grooves with openings pointing to the center direction of the rust removing cavity, the left cavity wall and the right cavity wall of each rolling groove are rotatably connected with rolling shafts, rollers are fixedly connected onto the rolling shafts, the left side of each rolling groove is provided with a driven cavity, the left end of each rolling shaft penetrates through the left cavity wall of each rolling groove and is rotatably connected onto the left cavity wall of each driven cavity, the left end of each rolling shaft is positioned in the driven cavity, part of the left end of each rolling shaft is fixedly connected with a lower belt wheel, the right cavity wall of each driven cavity is also rotatably connected with a driven shaft, the left end of each driven shaft is fixedly connected with an upper belt wheel, the upper belt wheel is connected with the lower belt wheel through a belt, the right end of each driven shaft is also fixedly connected with a driven gear, the right cavity wall of each driven cavity is, the movable lead screw is located at the inner part of the driven cavity and is further connected with a left gear and a right gear through splines, the left gear and the right gear are fixedly connected, a fixed rod is further fixedly connected onto the right cavity wall at the upper end of the driven cavity, a movable block is slidably connected onto the fixed rod, a spring is fixedly connected between the right end of the movable block and the right cavity wall of the driven cavity, and the right end of the movable pull rope is further fixedly connected onto the right end of the movable block.

3. The rust removing device special for the vertical lifting type water conservancy gate according to claim 1 is characterized in that: the left and right cavity walls of the fluid tank of the gate mechanism are both provided with lifting grooves with openings pointing to the central direction of the fluid tank, the rust removing plate is connected in the lifting groove in a sliding manner, a lifting threaded hole communicated with the upper end surface and the lower end surface of the rust removing plate is further formed in the part, located at the left end of the fluid groove, of the left end of the rust removing plate, in the lifting groove, the lifting threaded hole is connected with a lifting screw rod through threads, the lifting screw rod is rotationally connected to the lower cavity wall of the lifting groove at the left end of the fluid groove, the upper side of the lifting groove at the left end of the fluid groove is also provided with a linkage cavity, the upper end of the lifting screw penetrates through the upper cavity wall of the lifting groove at the left end of the fluid groove and extends into the linkage cavity, the lower end of the part, positioned at the right end of the fluid groove, of the right end of the derusting plate inside the lifting groove is fixedly connected with a telescopic rod, and the lower end of the telescopic rod is fixedly connected to the lower cavity wall of the lifting groove at the right end of the fluid groove.

4. The rust removing device special for the vertical lifting type water conservancy gate according to claim 1 is characterized in that: the starting mechanism comprises a power shaft which is rotatably connected to the right cavity wall of the starting cavity, a fluid groove is rotatably connected to the power shaft, a right meshing groove with a left opening is formed in the left end of the fluid groove, teeth are arranged on the wall of the right meshing groove, an inflating toothed plate with partial teeth at the front end is further slidably connected to the rear cavity wall of the starting cavity, an inflating connecting rod is further fixedly connected to the lower end of the inflating toothed plate, the lower end of the inflating connecting rod penetrates through the lower cavity wall of the starting cavity and extends into the inflating cavity, the right end of the power shaft penetrates through the right cavity wall of the starting cavity and extends out of the gate body, the right end of the power shaft is located outside the gate body and is in power connection with the motor, an air suction channel is further communicated to the right cavity wall of the starting cavity, an air suction one-way valve is arranged in the air suction channel, and the other, the left end of the power shaft also extends into the linkage cavity and is fixedly connected with a power bevel gear, the upper end of the lifting screw rod, which is positioned in the linkage cavity, is also fixedly connected with the linkage bevel gear, the linkage bevel gear is engaged with the power bevel gear, the power shaft, which is positioned right above the gate, is also rotatably connected with a chain wheel, the chain wheel is also fixedly wound with a steel wire rope, the other end of the steel wire rope is fixedly connected with the upper end of the gate, the right end of the chain wheel is also provided with a left engagement cavity with a right opening, teeth are arranged in the left engagement cavity, the part of the power shaft, which is positioned in the left engagement cavity, is also fixedly connected with a retaining ring, the part of the power shaft, which is positioned in the left engagement cavity, is also connected with a moving gear through a spline, the moving gear is engaged with, an electromagnet is fixed at the right end of the baffle ring, and a magnet is fixed at the left end of the movable gear.

5. The rust removing device special for the vertical lifting type water conservancy gate according to claim 1 is characterized in that: the inflation mechanism comprises an inflation piston which is connected in the inflation cavity in a sliding manner, the inner part of the inflation connecting rod which is arranged at the lower end of the inflation cavity is fixedly connected to the upper end of the inflation piston, an inflation spring is fixedly connected between the lower end of the inflation piston and the lower cavity wall of the inflation cavity, and the rust removing plate is in a sealing state in the rust removing cavity in the moving process.

Images