CN117661508A - Flood prevention assembly for hydraulic engineering - Google Patents

Abstract

The invention discloses a flood control assembly for hydraulic engineering, which comprises a flood control plate, wherein an extension plate structure capable of moving upwards to improve the flood control height is arranged on the flood control plate, a positioning latch structure capable of clamping the extension plate structure at a certain height position is arranged between the flood control plate and the extension plate structure, and two sides of the flood control plate and the extension plate structure are respectively and detachably connected with a connecting structure; two flood control boards and two extension board structures that are closely adjacent are in sealing connection with each other through the connection structure and can be arranged in a certain angle through the connection structure in an inclined mode, and through the cooperation and the cooperation of the flood control board, the extension board structure, the connection structure, the positioning latch structure and the like, the flood control water retaining height can be adjusted according to the water level condition, and the flood control board can be vertically adjusted and in sealing connection with the combination between the flood control boards.

Description

Flood prevention assembly for hydraulic engineering

Technical Field

The invention relates to the technical field of water conservancy flood control, in particular to a flood control assembly for a water conservancy project.

Background

Natural disasters are numerous, wherein disasters caused by severe weather such as extreme storm and typhoon are serious, flood prevention work becomes a serious issue for urban construction and engineering management increasingly, and in the flood season of rivers, water flow is blocked in a mode of stacking sand bags, stones and the like, so that time and effort are consumed, and on the other hand, due to the sudden characteristics of flood conditions, the mode cannot be implemented in place in time;

the flood prevention assembly for the hydraulic engineering comprises a bottom plate which is horizontally placed on the ground, wherein a vertical baffle is hinged to one side of the bottom plate, and a T-shaped connecting rod is connected to one side of the baffle;

the flood control assembly for the high-stability hydraulic engineering with the application number of 202010481618.X comprises a flood control baffle, wherein a lifting flood control guard plate is arranged in the middle of the flood control baffle, a rubber pad is arranged between the lifting flood control guard plate and the flood control baffle, and a buoyancy plate is fixedly arranged at the front end of the lifting flood control guard plate;

however, most of the current flood control assemblies do not have the capability of ascending adjustment under the condition of ascending water level, and the water blocking tightness between the flood control baffles combined with each other can be affected under the ascending adjustment.

Disclosure of Invention

The invention aims to solve the problems and provide a flood prevention assembly for hydraulic engineering.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the invention provides a flood control assembly for hydraulic engineering, which comprises a flood control plate, wherein an extension plate structure capable of moving upwards to improve the flood control height is arranged on the flood control plate, a positioning latch structure capable of clamping the extension plate structure at a certain height position is arranged between the flood control plate and the extension plate structure, and two sides of the flood control plate and the extension plate structure are respectively and detachably connected with a connecting structure;

the two flood prevention plates and the two extension plate structures which are close to each other are in sealing connection with each other through a connecting structure and can be obliquely arranged at a certain angle through the connecting structure, and under the condition that the two flood prevention plates are connected with each other through the connecting structure and the two extension plate structures are connected with each other through the connecting structure, the connecting structure on the flood prevention plates and the connecting structure on the extension plate structures are in sealing abutting connection with each other;

the flood prevention plate is also respectively provided with a support rod assembly and a nail treading assembly which can stably support the flood prevention plate.

Further, the appearance of flood control board is the cuboid shape, the jack has been seted up along its border to the bottom side of flood control board, and the downside of jack runs through and has seted up the breach, the cross sectional shape of breach is narrow V type of width down, can dismantle in the jack and be provided with the section of thick bamboo of inserting that the appearance is cylindric, the fixed sealing washer that is provided with of downside of inserting the section of thick bamboo, sealing washer's bottom side protrusion flood control board's bottom side border, flood control board's bottom side border still is provided with sealing baffle, and sealing baffle's cross sectional shape is the wavy.

Further, extend the plate structure including seting up the caulking groove in flood control board one side, it is provided with to extend the board to reciprocate in the caulking groove, go up the fixed overhead gage that is used for spacing with flood control board top side butt that is provided with of top side of extending the board, the first guide bar of a plurality of evenly distributed of caulking groove bottom fixedly connected with, the lower extreme fixedly connected with of every first guide bar is to the caulking groove inner bottom surface, the upper end sliding connection of every first guide bar is in the first guiding hole that corresponds the position and offer to the upper extension board, the bottom side edge of going up the extension board is provided with the sealing fin that is used for with flood control board sealed butt.

Further, the bracing piece subassembly is provided with more than two, the bracing piece subassembly includes the bracing piece, and the one end of bracing piece is connected to on the flood control board, the other end of bracing piece articulates there is the installation bedplate, two first plug pin holes have been seted up on the installation bedplate, all can dismantle in every first plug pin hole and be provided with first plug pin, threaded connection has connecting bolt on the bracing piece, be provided with the connecting screw hole that is used for being connected with the connecting bolt cooperation on the flood control board.

Further, the outside surface of flood control board has been seted up and has been used for inlaying the embedded bar groove of establishing to the bracing piece, has been seted up the direction pore on the embedded bar inslot both sides wall, the tip fixed of bracing piece is provided with and is used for the gliding guiding axle of direction pore cooperation, the clamping hole that is the L type has been seted up to the one end that the direction pore is located flood control board middle part position, flood control board is close to clamping hole position department threaded connection has the screens bolt that is used for realizing the guiding axle card in the clamping hole.

Further, location latch structure is including seting up the regulation recess in flood control board upside middle part position, adjusts the inslot and rotates and be provided with the regulation rotary drum, adjusts the axis department both ends of rotary drum and fixedly be provided with the regulation pivot, adjusts the pivot and is connected each other through torsional spring and flood control board, it is the latch of straight triangle shape to be fixedly provided with on the lateral wall of regulation rotary drum, a plurality of and latch matched with tooth's socket of evenly distributed has been seted up along upper and lower direction to last extension board, it is provided with according to the handle fixedly on the lateral wall of regulation rotary drum.

Further, step on the nail subassembly including seting up the lift spout in flood control board bottom one side, it is provided with the pedal to slide from top to bottom in the lift spout, lift spout internal fixation is provided with two parallel distribution's second guide bar, and the axial of second guide bar is vertical setting, the pedal is located the lift spout one end and runs through and offer be used for with second guide bar complex second direction slide hole, the pedal is located the outer one end of lift spout and runs through and offer a plurality of second plug pin hole, all can dismantle in every second plug pin hole and be provided with the second plug pin, through connecting rod fixed connection each other between the upper end of second plug pin, the upside surface of pedal is provided with evenly distributed's a plurality of antislip strip, be provided with on the flood control board and be used for carrying out the plug bush of inserting to the second plug pin.

Further, connection structure includes that connecting plate and connecting plate both sides are connected with sealed a section of thick bamboo of inserting, and flood control board and last extension board both sides all offer and insert a section of thick bamboo matched with each other and articulate the pore, fixed a plurality of sealing strip that evenly distributed is used wherein the axis equal angle as center to be provided with on the lateral wall of sealed a section of thick bamboo of inserting, sealed a section of thick bamboo, sealing strip and connecting plate integrated into one piece each other and adopt rubber materials to make.

Further, the upper end and the lower end of the connecting plate are respectively fixedly provided with an arc-shaped sealing baffle, and when the extension plate structure moves along the vertical direction relative to the flood prevention plate, the arc-shaped sealing baffle can realize sealing between the two corresponding connecting structures.

Further, the handle is fixedly arranged in the middle of the top side of the flood control plate, and an opening groove for penetrating through the handle is formed in the upper baffle.

Compared with the prior art, the invention has the beneficial effects that:

1. the flood prevention plates, the extension plate structures, the connecting structures, the positioning latch structures and the like are mutually cooperated and matched, so that the flood prevention water blocking height can be adjusted according to the water level condition, and the upper and lower heights of the extension plate structures can be adjusted, and the flood prevention plates can be connected in a sealing manner in a combined manner;

2. the supporting rod assembly and the nail treading assembly are matched, so that the flood prevention plate can be stably placed, the sealing gasket is ensured to be in tight sealing contact with the ground, and meanwhile, the flood prevention impact performance of the flood prevention plate can be improved;

3. the sealing baffle firstly realizes primary sealing between the flood control plate and the ground, and the sealing gasket realizes double sealing between the flood control plate and the ground, so that the tightness between the flood control plate and the ground is ensured;

4. the positioning latch structure can realize the rapid and stable adjustment of the upper and lower heights of the upper extension plate and ensure the stability of the upper extension plate under the impact of flood control water, wherein the sealing sheet can realize the sealing property between the upper extension plate and the flood control plate, and can also ensure the sealing property between the upper extension plate and the flood control plate under the condition that the upper extension plate moves up and down, so that the water is prevented from flowing through a gap between the upper extension plate and the flood control plate;

5. the connection structure can realize soft sealing connection between two flood control plates, can realize putting that is certain angle between two flood control plates from this, when entrance such as subway passageway from this, carry out flood control in order to adapt to different passageway width dimensions, set up two flood control plates in certain angle of slope, adapt to different passageway width from this.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view of the cross-sectional structure of FIG. 1 A-A in accordance with the present invention;

FIG. 3 is a schematic view of the present invention in a partially enlarged configuration at B of FIG. 2;

FIG. 4 is a schematic view of the present invention in a partially enlarged configuration at C of FIG. 2;

FIG. 5 is a schematic view of the rear view of FIG. 1 of the present invention;

FIG. 6 is a schematic view of a partially enlarged structure of the invention at D of FIG. 5;

FIG. 7 is a schematic perspective view of the structure of FIG. 1 according to the present invention;

FIG. 8 is a schematic view of another directional perspective of FIG. 1 according to the present invention;

FIG. 9 is a schematic view of a partially enlarged construction of the invention at E of FIG. 8;

FIG. 10 is a schematic view of a partially enlarged structure of the invention at F of FIG. 8;

FIG. 11 is a schematic view of a partially enlarged structure of the present invention at G of FIG. 8;

FIG. 12 is a schematic view of a first combined state structure of the present invention;

fig. 13 is a schematic diagram of a second combined state structure of the present invention.

The reference numerals are explained as follows: 1. flood control plates; 101. a sealing baffle; 102. a jack; 103. a plug cylinder; 104. a sealing gasket; 105. a handle; 2. extending a plate structure; 201. an upper extension plate; 202. an upper baffle; 203. a sealing sheet; 204. a first guide bar; 205. a first guide hole; 206. a caulking groove; 3. a connection structure; 301. a hanging hole channel; 302. sealing the insertion barrel; 303. a sealing strip; 304. a connecting plate; 305. an arc-shaped sealing baffle; 4. a support rod assembly; 401. a support rod; 402. mounting a seat board; 403. a first plug pin; 404. a connecting bolt; 405. a guide duct; 406. a guide shaft; 407. a clamping hole; 408. a clamping bolt; 409. a rod-embedding groove; 5. positioning latch structure; 501. adjusting the drum; 502. adjusting the rotating shaft; 503. a torsion spring; 504. an adjusting groove; 505. latch teeth; 506. tooth slots; 507. pressing a handle; 6. a nail treading assembly; 601. lifting sliding grooves; 602. a second guide bar; 603. stepping on the pedal; 604. an anti-slip strip; 605. a second plug pin; 606. a connecting rod; 7. and (5) inserting a sleeve.

Detailed Description

For the purpose of the present invention; the technical scheme and advantages are more clear, and the technical scheme of the invention will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, based on the examples herein, which are within the scope of the invention as defined by the claims, will be within the scope of the invention as defined by the claims.

Referring to fig. 1-13, the invention provides a flood control assembly for hydraulic engineering, which comprises a flood control plate 1, wherein the flood control plate 1 is in a cuboid shape, an extension plate structure 2 capable of moving upwards to improve flood control height is arranged on the flood control plate 1, a positioning latch structure 5 capable of clamping the extension plate structure 2 at a certain height position is arranged between the flood control plate 1 and the extension plate structure 2, and two sides of the flood control plate 1 and the extension plate structure 2 are respectively detachably connected with a connecting structure 3; the two flood prevention plates 1 and the two extension plate structures 2 which are closely adjacent are in sealing connection with each other through the connecting structure 3 and can be obliquely arranged at a certain angle through the connecting structure 3, and under the condition that the two flood prevention plates 1 are connected with each other through the connecting structure 3 and the two extension plate structures 2 are connected with each other through the connecting structure 3, the connecting structure 3 on the flood prevention plates 1 and the connecting structure 3 on the extension plate structures 2 are in sealing abutting connection with each other; the flood control plate 1 is also respectively provided with a support rod assembly 4 and a nail treading assembly 6 which can stably support the flood control plate.

As shown in fig. 2 and 4 of the specification, the bottom side of the flood control plate 1 is provided with a jack 102 along the edge thereof, the lower side of the jack 102 is provided with a notch in a penetrating way, the cross section of the notch is in a V shape with a narrow upper part and a wide lower part, a cylindrical inserting cylinder 103 is detachably arranged in the jack 102, openings at two ends of the jack 102 are used for conveniently and detachably inserting the cylinder 103, the lower side of the inserting cylinder 103 is fixedly provided with a sealing gasket 104, the bottom side of the sealing gasket 104 protrudes out of the bottom side edge of the flood control plate 1, the bottom side edge of the flood control plate 1 is also provided with a sealing baffle 101, and the cross section of the sealing baffle 101 is wavy. In practical use, the cartridge 103 and the gasket 104 are integrally formed with each other and made of a rubber material. When the flood control plate 1 is placed on the ground, the sealing gasket 104 is firstly contacted with the ground and is extruded and deformed, so that the flood control plate 1 is in tight contact with the ground, the inserting cylinder 103 and the sealing gasket 104 are detached and replaced according to different use environments, the sealing gasket 104 protrudes out of the bottom side of the flood control plate 1 on the flat ground by 5mm-10mm, and the sealing gasket 104 protrudes out of the bottom side of the flood control plate 1 on the uneven ground by 10mm-20mm. In addition, the sealing baffle plate 101 is arranged on one side of the flood control plate 1, which is in contact with water, and the sealing baffle plate 101 firstly realizes primary sealing between the flood control plate 1 and the ground, and the sealing gasket 104 realizes double sealing between the flood control plate 1 and the ground, so that the tightness between the flood control plate 1 and the ground is ensured.

As shown in fig. 2 and 7 of the specification, the extension plate structure 2 comprises a caulking groove 206 formed in one side of the flood control plate 1, as shown in fig. 2, the caulking groove 206 is formed in one side of the flood control plate 1, which is in contact with water, an upper extension plate 201 is arranged in the caulking groove 206 in a vertically moving manner, an upper baffle 202 used for being in abutting connection with the top side of the flood control plate 1 is fixedly arranged on the top side of the upper extension plate 201, when the upper extension plate 201 moves downwards to the lowest position, the upper baffle 202 and the upper side of the flood control plate 1 are in abutting connection with each other, a plurality of first guide rods 204 which are uniformly distributed are fixedly connected to the inner bottom surface of the caulking groove 206, the lower end of each first guide rod 204 is fixedly connected to the inner bottom surface of the caulking groove 206, the upper end of each first guide rod 204 is slidably connected to the first guide hole 205 formed in the corresponding position of the upper extension plate 201, the upper extension plate 201 can be stably moved up and down under the guide of the first guide rods 204, the gap between the upper extension plate 201 and the flood control plate 1 is ensured, and the bottom edge of the upper extension plate 201 is provided with sealing pieces 203 used for abutting against the flood control plate 1. A lifting handle 105 is fixedly arranged in the middle of the top side of the flood control plate 1, and an opening groove for penetrating through the lifting handle 105 is formed in the upper baffle 202. Wherein, through above-mentioned specific structural design, sealing piece 203 can realize the leakproofness between last extension board 201 and the flood control board 1, and in the circumstances of last extension board 201 reciprocates, also can guarantee the leakproofness between last extension board 201 and the flood control board 1, avoids the water liquid to follow the gap circulation between extension board 201 and the flood control board 1.

As shown in fig. 2, 3 and 8 of the specification, the support rod assembly 4 is provided with more than two support rods, so that stable support to the flood control plate 1 can be achieved, impact force to waves such as flood is improved, the support rod assembly 4 comprises support rods 401, one ends of the support rods 401 are connected to the flood control plate 1, the other ends of the support rods 401 are hinged with mounting base plates 402, two first plug pin holes are formed in the mounting base plates 402, first plug pins 403 are detachably arranged in each first plug pin hole, connecting bolts 404 are connected to the support rods 401 in a threaded mode, and connecting threaded holes used for being matched and connected with the connecting bolts 404 are formed in the flood control plate 1. The outside surface of flood control plate 1 has been seted up and has been used for inlaying the embedded bar groove 409 of establishing to bracing piece 401, has been seted up direction pore 405 on the both sides wall in embedded bar groove 409, the fixed guiding axle 406 that is used for cooperating gliding with direction pore 405 that is provided with of tip of bracing piece 401, the clamping hole 407 that is L type has been seted up to the one end that direction pore 405 is located flood control plate 1 middle part position, flood control plate 1 is close to clamping hole 407 position department threaded connection has the screens bolt 408 that is used for realizing that guiding axle 406 is blocked in clamping hole 407. In practical application, the support rod 401 can be retracted in the embedded rod groove 409, at this time, the connection and fixation of the support rod 401 and the flood control plate 1 can be realized by the connecting bolt 404, so that the whole support rod assembly 4 is retracted and folded on the flood control plate 1, in the folded and retracted state, the guide shaft 406 slides to the upper end position of the guide hole 405, and when the support rod 401 is extended, the support rod 401 is pulled out of the embedded rod groove 409 and moves downwards in the guide hole 405 by the guide shaft 406 until the guide shaft 406 is clamped in the clamping hole 407, and then the clamping bolt 408 realizes the position clamping of the guide shaft 406 in the clamping hole 407, so that the guide shaft 406 is prevented from falling out of the clamping hole 407.

As shown in fig. 6 and 9 of the specification, the positioning latch structure 5 comprises an adjusting groove 504 formed in the middle of the upper side of the flood control plate 1, an adjusting rotary drum 501 is rotationally arranged in the adjusting groove 504, two ends of the central axis of the adjusting rotary drum 501 are fixedly provided with adjusting rotary shafts 502, the adjusting rotary shafts 502 are connected with the flood control plate 1 through torsion springs 503, latches 505 in a straight triangle shape are fixedly arranged on the outer side wall of the adjusting rotary drum 501, a plurality of tooth grooves 506 matched with the latches 505 are formed in the upper and lower directions of the upper extension plate 201, and a pressing handle 507 is fixedly arranged on the outer side wall of the adjusting rotary drum 501. Through the above-mentioned specific structural design, when pulling and going up extension board 201 and upwards moving, go up extension board 201 and dial up latch 505 through tooth's socket 506, torsional spring 503 is in the state of tightening up this moment, with go up extension board 201 and pull to the back of certain altitude position, latch 505 realizes the card with tooth's socket 506 under the elastic force effect of torsional spring 503, and when needs are with going up extension board 201 down regulation, push down handle 507 and carry out the perk to adjustment rotary drum 501 and latch 505 to realize the separation of latch 505 and tooth's socket 506, with go up extension board 201 down regulation can this moment.

Referring to fig. 8 and 11 of the specification, the nail treading assembly 6 includes a lifting chute 601 formed on one side of the bottom of the flood control plate 1, a pedal 603 is provided in the lifting chute 601 in a vertically sliding manner, two second guide rods 602 distributed in parallel are fixedly provided in the lifting chute 601, the second guide rods 602 are vertically arranged in the axial direction, one end of the pedal 603 located in the lifting chute 601 is provided with a second guide sliding hole matched with the second guide rods 602 in a penetrating manner, one end of the pedal 603 located outside the lifting chute 601 is provided with a plurality of second nail inserting holes in a penetrating manner, each second nail inserting hole is provided with a second nail inserting 605 in a detachable manner, the upper ends of the second nails 605 are fixedly connected with each other through connecting rods 606, a plurality of anti-slip strips 604 are uniformly distributed on the upper side surface of the pedal 603, and a plug 7 for inserting the second nails 605 is provided on the flood control plate 1. In practical application, when the flood control plate 1 is placed on the soil surface for flood control, in order to keep the flood control plate 1 resistant to flood, the pedal 603, the second plug pins 605 and the connecting rods 606 are stepped on, so that the second plug pins 605 are inserted into the ground, and the sealing gasket 104 is also indirectly guaranteed to be tightly attached to the ground.

As shown in fig. 5, 10, 12 and 13 of the specification, the connection structure 3 comprises a connection plate 304 and sealing insertion cylinders 302 connected to two sides of the connection plate 304, hanging holes 301 matched with the sealing insertion cylinders 302 are formed in two sides of the flood control plate 1 and the upper extension plate 201, a plurality of sealing strips 303 uniformly distributed at equal angles with the central axis of the sealing insertion cylinders 302 are fixedly arranged on the outer side wall of the sealing insertion cylinders 302, and the sealing insertion cylinders 302, the sealing strips 303 and the connection plate 304 are integrally formed and made of rubber materials. The upper and lower ends of the connecting plate 304 are respectively fixedly provided with an arc-shaped sealing baffle 305, and when the extension plate structure 2 moves along the up-down direction relative to the flood control plate 1, the arc-shaped sealing baffle 305 can realize sealing between the two corresponding connecting structures 3. Through the above-mentioned concrete structural design, connection structure 3 can realize the soft sealing connection between two flood control boards 1, can realize being the put of certain angle between two flood control boards 1 from this, when entrance such as subway passageway from this, in order to adapt to different passageway width dimensions and carry out flood control, can be as shown in fig. 13, be the setting of certain angle of slope with two flood control boards 1, adapt to different passageway width from this.

The connection structure 3 has triple effects in practical application, firstly, the splicing connection between a plurality of flood control plates 1 is realized, combined flood control under multiple environments is adapted, the tightness of the joint between two adjacent flood control plates 1 is guaranteed, secondly, the splicing connection between the extension plate structures 2 is realized, the connection tightness between the extension plate structures 2 can be realized when the flood control plates 1 are combined and spliced, secondly, the butt joint sealing between the corresponding extension plate structures 2 is realized when the butt joint sealing between the two adjacent flood control plates 1 is realized, and the butt joint sealing under the relative displacement can be realized by the arc-shaped sealing baffle 305 at the butt joint sealing joint between the two positions, so that the integral sealing water blocking performance is realized.

Working principle:

when the flood control plate is used, the support rod 401 is taken out of the rod embedding groove 409, so that the flood control plate 1 is supported, the mounting seat plate 402 can be fixed on a road surface through the first pin inserting holes by the first pin inserting holes, the second pin inserting 605 and the pedal 603 can be inserted on the ground, the flood control plate 1 is stably supported on the ground by the cooperation of the first pin inserting 403 and the second pin inserting 605, the flood control performance of the flood control plate 1 is improved, an anti-skid pad can be arranged on the cement ground where the first pin inserting 403 and the second pin inserting 605 cannot be inserted, the flood control plate 1 can be supported in a triangular shape by the mounting seat plate 402 and the anti-skid pad, and the impact force of water is resisted;

in the flood prevention process, if the water level is found to be rising all the time or the expected water level height exceeds the upper side height of the flood prevention plate 1, the extension plate structure 2 can be extended upwards to extend out, so that the flood prevention height of the water level is improved;

in the flood prevention process, if the flood prevention process is found to have larger flood prevention width, more than two flood prevention plates 1 can be in sealing connection with each other through the connecting structure 3, and the extension plate structures 2 are in sealing connection with each other through the connecting structure 3, so that when the upper and lower heights of the extension plate structures 2 are adjusted, the connection sealing performance between the two adjacent extension plate structures 2 can be ensured, and when the two adjacent connection structures 3 are adjusted in a vertical moving mode, the sealing performance between the two connection structures 3 can be ensured.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. Flood prevention subassembly for hydraulic engineering, its characterized in that: the novel flood prevention plate comprises a flood prevention plate (1), wherein an extension plate structure (2) capable of moving upwards to improve the flood prevention height is arranged on the flood prevention plate (1), a positioning latch structure (5) capable of clamping the extension plate structure (2) at a certain height position is arranged between the flood prevention plate (1) and the extension plate structure (2), and two sides of the flood prevention plate (1) and two sides of the extension plate structure (2) are respectively and detachably connected with a connecting structure (3);

the two flood prevention plates (1) and the two extension plate structures (2) which are close to each other are in sealing connection with each other through a connecting structure (3) and can be obliquely arranged at a certain angle through the connecting structure (3), and under the condition that the two flood prevention plates (1) are connected with each other through the connecting structure (3) and the two extension plate structures (2) are connected with each other through the connecting structure (3), the connecting structure (3) on the flood prevention plates (1) and the connecting structure (3) on the extension plate structures (2) are in sealing butt joint with each other;

the flood prevention plate (1) is also respectively provided with a support rod assembly (4) and a nail treading assembly (6) which can stably support the flood prevention plate.

2. The flood control assembly for hydraulic engineering according to claim 1, wherein: the appearance of flood control board (1) is cuboid shape, jack (102) have been seted up along its border to the bottom side of flood control board (1), and the downside of jack (102) runs through and has seted up the breach, the cross sectional shape of breach is narrow down wide V type, can dismantle in jack (102) and be provided with in the appearance and be cylindric cartridge (103), the downside of cartridge (103) is fixed and is provided with sealing gasket (104), the bottom side border of sealing gasket (104) bottom side protrusion flood control board (1), the bottom side border of flood control board (1) still is provided with sealing baffle (101), and sealing baffle (101) cross sectional shape is the wavy.

3. The flood control assembly for hydraulic engineering according to claim 1, wherein: extending plate structure (2) is including seting up caulking groove (206) in flood control board (1) one side, it is provided with in caulking groove (206) reciprocates to be provided with and extends board (201), and the fixed overhead guard (202) that are used for spacing with flood control board (1) top side butt that are provided with of top side of going up extension board (201), a plurality of first guide bar (204) of evenly distributed are fixedly connected with in caulking groove (206) interior bottom surface, the lower extreme fixedly connected with of every first guide bar (204) is to caulking groove (206) interior bottom surface, in first guiding hole (205) that the upper end sliding connection of every first guide bar (204) was offered to upper extension board (201) corresponding position, the bottom side edge of going up extension board (201) is provided with and is used for sealing up sealing fin (203) of sealing butt with flood control board (1).

4. The flood control assembly for hydraulic engineering according to claim 1, wherein: the utility model discloses a flood control system, including bracing piece subassembly (4), bracing piece subassembly (4) are provided with more than two, bracing piece subassembly (4) include bracing piece (401), and the one end of bracing piece (401) is connected to on flood control board (1), the other end of bracing piece (401) articulates there is mounting plate (402), two first plug pin holes have been seted up on mounting plate (402), all can dismantle in every first plug pin hole and be provided with first plug pin (403), threaded connection has connecting bolt (404) on bracing piece (401), be provided with the connecting screw hole that is used for being connected with connecting bolt (404) cooperation on flood control board (1).

5. The flood control assembly for hydraulic engineering according to claim 4, wherein: the utility model discloses a flood control plate, including flood control plate (1), including support rod (401), support rod (401) and support rod (405), the outside surface of flood control plate (1) has been seted up and has been used for carrying out embedded pole groove (409) of establishing on the both sides wall in embedded pole groove (409), the tip fixed of support rod (401) is provided with and is used for cooperating gliding guiding axle (406) with guiding duct (405), clamping hole (407) that are L type are offered to one end that guiding duct (405) are located flood control plate (1) middle part position, flood control plate (1) is close to clamping hole (407) position department threaded connection has clamping bolt (408) that are used for realizing guiding axle (406) card in clamping hole (407).

6. The flood control assembly for hydraulic engineering according to claim 1, wherein: the utility model provides a location latch structure (5) is including seting up at regulation recess (504) of flood control board (1) upside middle part position, and regulation recess (504) internal rotation is provided with adjusts rotary drum (501), and the axis department both ends of adjusting rotary drum (501) are fixed to be provided with and are adjusted pivot (502), adjust pivot (502) and be connected each other through torsional spring (503) and flood control board (1), it is fixed to be provided with latch (505) that are straight triangle-shaped on the lateral wall of adjusting rotary drum (501), a plurality of and latch (505) matched with tooth's socket (506) of evenly distributed have been seted up along upper and lower direction to go up extension board (201), it is fixed to be provided with according to handle (507) on the lateral wall of adjusting rotary drum (501).

7. The flood control assembly for hydraulic engineering according to claim 1, wherein: nail subassembly (6) are stepped on including seting up in lifting chute (601) of flood control board (1) bottom one side, it is provided with pedal (603) to slide from top to bottom in lifting chute (601), lifting chute (601) internal fixation is provided with two parallel distribution's second guide bar (602), and the axial of second guide bar (602) is vertical setting, pedal (603) are located lifting chute (601) one end and run through and set up be used for with second guide bar (602) complex second direction slide hole, pedal (603) are located lifting chute (601) outer one end and run through and set up a plurality of second plug pin hole, all can dismantle in every second plug pin hole and be provided with second plug pin (605), through connecting rod (606) each other fixed connection between the upper end of second plug pin (605), the upside surface of pedal (603) is provided with a plurality of slide bar (604) of evenly distributed, be provided with on flood control board (1) and be used for carrying out plug bush (7) to second plug pin (605).

8. A flood control assembly for hydraulic engineering according to claim 3, wherein: the connecting structure (3) comprises a connecting plate (304) and sealing inserting cylinders (302) connected with two sides of the connecting plate (304), hanging holes (301) matched with the sealing inserting cylinders (302) are formed in two sides of the flood control plate (1) and the upper extension plate (201), a plurality of sealing strips (303) uniformly distributed at equal angles with the axis as the center are fixedly arranged on the outer side wall of the sealing inserting cylinders (302), and the sealing inserting cylinders (302), the sealing strips (303) and the connecting plate (304) are integrally formed and made of rubber materials.

9. The flood control assembly for hydraulic engineering according to claim 8, wherein: the upper end and the lower end of the connecting plate (304) are respectively fixedly provided with an arc-shaped sealing baffle (305), and when the extension plate structure (2) moves along the up-down direction relative to the flood prevention plate (1), the arc-shaped sealing baffle (305) can realize sealing between the two corresponding connecting structures (3).

10. A flood control assembly for hydraulic engineering according to claim 3, wherein: handles (105) are fixedly arranged in the middle of the top side of the flood control plate (1), and an opening groove for passing through the handles (105) is formed in the upper baffle (202).