CN114753304A - Hydraulic engineering slope protection device with buffer gear - Google Patents

Abstract

The invention relates to the technical field of hydraulic engineering slope protection, in particular to a hydraulic engineering slope protection device with a buffer mechanism. According to the invention, the protection plate is installed through the fastener, the impeller is driven to rotate through water flow, the gear A and the chain are driven to rotate, the moving block and the shifting rod salvage sundries such as aquatic weeds and the like intercepted on the filter block, the inclined scraper plate scrapes the sundries such as the aquatic weeds and the like on the shifting rod into the collecting tank for collection, and through the use of the floating plate and the stop block, the impact of waves on the river bank main body and the protection plate is relieved. The impact of the water flow on the slope protection is effectively reduced, the slope protection quality is improved, the influence of the water flow speed on the water flow stacking is reduced, the long-time scouring of the waves on the slope protection is obviously reduced, the integrity of the slope protection is protected, the service life is prolonged, and the using effect is obviously improved.

Description

Hydraulic engineering slope protection device with buffer gear

Technical Field

The invention relates to the technical field of hydraulic engineering slope protection, in particular to a hydraulic engineering slope protection device with a buffer mechanism.

Background

The hydraulic engineering mainly researches basic knowledge and skills in the aspects of engineering hydrology, hydraulic engineering measurement, hydraulic reinforced concrete, hydraulic structures, engineering drawing and the like, and carries out engineering planning design, engineering site construction, engineering budget and hydraulic equipment maintenance and repair in the hydraulic engineering field. The hydraulic engineering has knowledge of surveying, planning, designing, constructing, scientific research and management of the hydraulic engineering, and can be used as advanced engineering technical talents for planning, designing, constructing, scientific research and management in departments of water conservancy, hydropower, water conservation and the like.

Slope protection refers to the general term of various paving and planting on a slope surface in order to prevent the slope from being washed. In the river section where the bridge site is located, the concave bank of the river bank is washed by water flow year by year, and the river bank can be continuously collapsed. In order to protect the safety of bridges and embankments, protective buildings need to be built on the concave bank. In addition, when the river flow direction changes due to the arrangement of bridges and the farmland and villages are endangered by scouring the river bank, protective buildings need to be built on the river bank. Such buildings are often also referred to as revetments. The form of the revetment has direct protection and indirect protection. The direct protection is to directly reinforce the river bank side slope to resist the washing and panning of water flow. It is usually built by flint, dry rubble, mortar rubble, gabion and tip bundle. The indirect protection is suitable for river sections with wider riverbeds or larger protection lengths, and can build spur dams, tailgates, check dams and the like to lift water flow away from river banks.

The function of slope protection can be divided into two categories: the slope protection device is only a slope protection device with wind resistance and scouring resistance, and the protection device does not bear lateral soil pressure, such as sprayed concrete slope protection, lattice frame plant protection slope protection, plant protection slope protection and the like, and is only suitable for gentle and stable slopes without slide risks. The retaining slope with anti-sliding capability can be roughly divided into: rigid dead weight retaining wall, flexible dead weight retaining wall, anchor pull type retaining wall.

Hydraulic engineering bank protection among the prior art is in the use, and the side slope can be constantly washed and reduce intensity by rivers, influences the bank protection quality, and debris such as pasture and water are very easily piled up at the bank protection simultaneously, influence water velocity, and wave is washed away the long-time of bank protection simultaneously, can cause certain damage to the bank protection equally, and the bank protection damages in the use and changes inconveniently, and the result of use is not good enough.

Disclosure of Invention

Aiming at the problems, the invention provides a hydraulic engineering slope protection device with a buffer mechanism.

In order to achieve the above object, the present invention adopts the following technical solutions:

the utility model provides a hydraulic engineering slope protection device with buffer gear, including the river levee main part, it is the align to grid structure and is equipped with a plurality of guard plates in the river levee main part, both ends are central symmetrical structure about the guard plate and have seted up two fixture blocks A, guard plate top surface rear end is bilateral symmetrical structure and has seted up two draw-in grooves, guard plate top surface front end is bilateral symmetrical structure and has set firmly two fixed blocks, there is adjusting handle at the fixed block middle part through screw hole threaded connection, river levee main part antetheca is bilateral symmetrical structure and installs two supports, both ends are central symmetrical structure and have set firmly two fixture blocks B about the support, the mounting hole has been seted up at guard plate top surface middle part, the inside fastener of pegging graft of mounting hole.

Preferably, the fastener includes the locating lever, and the locating lever top surface has set firmly the disk, and there is the tight pulley at the disk middle part through screw hole threaded connection, and tight pulley bottom surface cover is equipped with the lantern ring, is bilateral symmetry structure on the lantern ring and has set firmly two free bearings, and the free bearing bottom surface has set firmly the jack catch, and the spout has been seted up at jack catch antetheca middle part, and the inside sliding connection of spout has the round bar, and the locating lever lower extreme is bilateral symmetry structure and has seted up two logical grooves.

Preferably, fixture block A bottom surface is concave shape, and the fixture block A that is located the left end cooperates with the fixture block A joint that is located the right-hand member, and the fixture block A that is located the right-hand member cooperates with the fixture block B joint that is located the left end, and the fixture block A that is located the left end cooperates with the fixture block B joint that is located the right-hand member, and fixed block cooperates with the draw-in groove joint, and threaded connection and adjusting hand wheel are passed through to the draw-in groove middle part.

Preferably, locating lever and round block all with the mounting hole cooperation of pegging graft, the tight pulley rotates with the lantern ring to be connected, free bearing and jack catch all are located logical inslot portion, the round bar is connected fixedly with the locating lever.

Preferably, be located the solid arc piece that is equipped with in support top surface front end of left end, the inside rotation leaf that is equipped with of arc piece, the solid filter block that is equipped with in support top surface rear end that is located the left end, the filter block top surface has set firmly the supporting shoe, the supporting shoe top surface is front and back symmetrical structure and rotates and be connected with two pivots, gear A has all been cup jointed to the pivot upper end, the gear A that is located the front end passes through the chain and is connected with the gear A meshing that is located the rear end, the chain outer wall is the align to grid structure and has set firmly a plurality of movable blocks, it has set firmly a plurality of driving levers to be linear equidistant structure on the movable block.

Preferably, the front end of the top surface of the supporting block is fixedly provided with an L-shaped block, the top surface of the L-shaped block is in a front-back symmetrical structure and is rotationally connected with two gears B, belt wheels are sleeved at the upper ends of the gears B and the upper ends of the rotating blades which are positioned at the front end, the belt wheels positioned at the front end are in friction transmission with the belt wheels positioned at the rear end through a belt, and the bottom surface of the chain is in friction contact with the top surface of the supporting block.

Preferably, the rotating blade upper end passes through the arc block inner wall and extends to the outside, and the filter block is in a filter net shape, and L-shaped block rotates with the pivot that is located the front end to be connected, and the gear B that is located the front end is connected with the gear B meshing that is located the rear end, and the gear B that is located the rear end is connected with the pivot coaxial coupling that is located the front end, and the gear B that is located the front end and the band pulley that is located the rear end all rotate with L-shaped block to be connected.

Preferably, the left end of the top surface of the river levee main body is provided with a collecting groove, the top surface of the rear end of the river levee main body is fixedly provided with an inclined scraper, and the inclined scraper is in clearance fit with the deflector rod.

Preferably, the spacing groove has been seted up to the support top surface that is located the right-hand member, and spacing inslot portion sliding connection has the slider, and the kickboard is installed to the slider upper end, and kickboard top surface rear end is equipped with the dog admittedly, and the slider rear end is equipped with the ring admittedly, and river levee main part top surface right-hand member rotates and is connected with the winding pole, and winding pole top surface coaxial coupling has the rocker.

Preferably, the dog antetheca is linear equidistant structure and has set firmly a plurality of toper pieces, and kickboard and guard plate clearance fit roll up on the winding rod has the rope, and the rope front end is connected fixedly with the ring.

A use method of a hydraulic engineering slope protection device with a buffer mechanism comprises the following steps:

installation: the guard plate that will need to install on the river levee main part is fixed a position, pass the locating lever mounting hole and insert and install to river levee main part inside, then rotatory tight pulley is rotatory along the circle piece, and promote jack catch looks both sides through the lantern ring and open, the jack catch passes through the spout and rotates and open along the pole this moment, tight pulley bottom surface and the friction contact of circle piece top surface after installing completely, repeat above-mentioned operation and install a plurality of guard plates, make two adjacent guard plates pass through fixture block A, fixed block and draw-in groove are connected fixedly, the fixed block inserts inside the draw-in groove, fix through adjusting handle, install the support through fixture block A and fixture block B, when needing to dismantle the guard plate of damage, the above-mentioned step of reverse operation can.

Fishing: flow from left to right through rivers, promote the rotating vane anticlockwise rotation, make the band pulley that is located the front end rotatory and through belt friction transmission to the synchronous anticlockwise rotation of band pulley that is located the rear end, make the gear B that is located the front end rotatory and mesh transmission to the gear B clockwise rotation that is located the rear end, drive the pivot that is located the front end and the gear A synchronous revolution that is located the front end, and drive chain synchronous clockwise rotation, movable block and driving lever synchronous motion this moment, the driving lever salvages debris such as pasture and water that the blocking on the left wall of filter block and moves to the upper end, when debris such as pasture and water on the poker rod moved to the position of slope scraper blade, debris such as pasture and water on the poker rod of slope scraper blade scraped and falls to the collecting vat inside and collect.

Buffering: install slider, kickboard and dog through the spacing groove, make kickboard middle part suspension on the surface of water, the wave is patted to kickboard and dog antetheca, and the dog antetheca has reduced the impact force of wave through the conical block, has avoided the wave to pat on river levee main part and guard plate, and rotatory rocker makes the winding rod rotate carries out the rolling to the rope, has made things convenient for and has changed kickboard and the baffle of damage.

Due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the protection plates are installed through the fasteners, the plurality of protection plates are connected through the clamping blocks and the fixing blocks, the plurality of supports are installed through the clamping of the clamping blocks A and the clamping blocks B, the impeller is driven to rotate through water flow, the two gears B are meshed through the use of the belt wheel and the belt to drive the gear A and the chain to rotate, so that the moving block and the shifting rod salvage sundries such as aquatic weeds and the like intercepted on the filter block, the inclined scraper plate scrapes the sundries such as the aquatic weeds and the like on the shifting rod into the collecting tank to be collected, and the impact of waves on the river bank main body and the protection plates is relieved through the use of the floating plate and the stopping blocks. The side slope can be constantly erodeed and the reduction in strength by rivers, influence the bank protection quality, debris such as pasture and water are very easily piled up at the bank protection simultaneously, influence the velocity of water, the wave erodees the long-time of bank protection simultaneously, can cause certain damage to the bank protection equally, the bank protection damages to change inconveniently in the use, the not good enough problem of result of use, the impact of effectual reduction rivers to the bank protection has been realized, the quality of the bank protection has been improved, it piles up the influence to the velocity of water to have reduced the pasture and water, showing and reduced the long-time washing of wave to the bank protection, the integrality of bank protection has been protected, the service life is prolonged, the use effect is showing and is promoting.

2. According to the method, the protection plates needing to be installed on the river bank main body are located, the locating rods penetrate through the installation holes and are inserted into the river bank main body to be installed, then the fastening wheels are rotated along the round blocks, the clamping claws are pushed through the lantern rings to open the two sides of the clamping claws, the operation is repeated to install the protection plates, the support is installed through the clamping blocks A and the clamping blocks B, and when the damaged protection plates need to be disassembled, the steps are operated reversely. The bottom surface indent design of guard plate has effectively alleviateed the weight of guard plate, and the installation has lightly improved the installation effectiveness, has improved the installation stability through the use of fastener, has reduced the emergence that drops and the landing after the installation, and easy to assemble and change have improved the protecting effect.

3. According to the invention, water flows from left to right, the rotating blade is pushed to rotate anticlockwise, the belt wheel at the front end is driven to rotate anticlockwise synchronously through belt friction, the two gears B are meshed with each other and drive the rotating shaft at the front end and the gear A at the front end to rotate synchronously, and the chain is driven to rotate clockwise synchronously, at the moment, the moving block and the deflector rod move synchronously, the deflector rod salvages sundries such as aquatic weeds and the like intercepted on the left wall of the filter block and moves to the upper end, and when the sundries such as the aquatic weeds and the like on the poke rod move to the position of the inclined scraper plate, the inclined scraper plate scrapes the sundries such as the aquatic weeds and the like on the poke rod into the collecting tank for collection. Have made things convenient for debris such as pasture and water to the interception on the filter block to salvage and collect, reduced the pasture and water and piled up the emergence that influences the velocity of flow, labour saving and time saving has improved salvage effect.

4. According to the invention, the sliding block, the floating plate and the stop block are installed through the limiting groove, so that the middle part of the floating plate is suspended on the water surface, waves are beaten to the front walls of the floating plate and the stop block, the impact force of the waves is reduced by the tapered block on the front wall of the stop block, the waves are prevented from being beaten on the river bank main body and the protection plate, the winding rod is rotated by rotating the rocker to wind the rope, and the damaged floating plate and the stop plate are convenient to replace. Impact to the wave is effectively cushioned, the scouring of the wave to the bank protection is reduced, the integrity of the bank protection is protected, the use of the rope and the sliding block facilitates the installation and the replacement of the floating plate and the stop dog, and the structure is simple and convenient to operate.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only for the present invention and protect some embodiments, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

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

FIG. 2 is a cross-sectional view of the fender structure of the present invention;

FIG. 3 is a cross-sectional view of a positioning rod configuration of the present invention;

FIG. 4 is a schematic view of the filter block of the present invention;

FIG. 5 is an enlarged view of the structure at the point A;

FIG. 6 is a cross-sectional view of a collection trough configuration of the present invention;

FIG. 7 is a cross-sectional view of the floating plate structure of the present invention;

fig. 8 is a schematic view of the winding rod structure of the present invention.

The reference numbers in the figures illustrate: 1. a river levee body; 2. a protection plate; 3. a clamping block A; 4. a card slot; 5. a fixed block; 6. adjusting a hand wheel; 7. a support; 701. an arc-shaped block; 702. rotating the blades; 703. a filter block; 704. a support block; 705. a rotating shaft; 706. a gear A; 707. a chain; 708. a moving block; 709. a deflector rod; 710. an L-shaped block; 711. a gear B; 712. a pulley; 713. a belt; 8. a clamping block B; 9. mounting holes; 10. a fastener; 101. positioning a rod; 102. a round block; 103. a fastening wheel; 104. a collar; 105. hinging seat; 106. a claw; 107. a chute; 108. a round bar; 109. a through groove; 11. collecting tank; 12. an inclined scraper; 13. a limiting groove; 14. a slider; 15. a floating plate; 16. a stopper; 17. a circular ring; 18. winding the rod; 19. a rocker; 20. a conical block; 21. a rope.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

Example 1

As shown in fig. 1-3, a hydraulic engineering slope protection device with buffer gear, including river levee main part 1, it is equipped with a plurality of guard plates 2 to be the align to grid structure on the river levee main part 1, both ends are central symmetrical structure and have seted up two fixture blocks a3 about the guard plate 2, 2 top surfaces rear ends of guard plate are bilateral symmetrical structure and have seted up two draw-in grooves 4, 2 top surfaces front end of guard plate is bilateral symmetrical structure and has set firmly two fixed blocks 5, there is adjusting hand wheel 6 at the middle part of fixed block 5 through screw hole threaded connection, 1 antetheca of river levee main part is bilateral symmetrical structure and installs two supports 7, both ends are central symmetrical structure and have set firmly two fixture blocks B8 about support 7, mounting hole 9 has been seted up at 2 top surfaces of guard plate middle part, inside the pegging graft of mounting hole 9 has fastener 10.

Fastener 10 includes locating lever 101, locating lever 101 top surface has set firmly circle piece 102, there is fastening wheel 103 circle piece 102 middle part through screw hole threaded connection, fastening wheel 103 bottom surface cover is equipped with lantern ring 104, it has set firmly two free bearings 105 to be bilateral symmetry structure on the lantern ring 104, free bearing 105 bottom surface has set firmly jack catch 106, spout 107 has been seted up at jack catch 106 antetheca middle part, the inside sliding connection of spout 107 has round bar 108, locating lever 101 lower extreme is bilateral symmetry structure and has seted up two logical grooves 109.

The bottom surface of the clamping block A3 is concave, the clamping block A3 at the left end is matched with the clamping block A3 at the right end in a clamping mode, the clamping block A3 at the right end is matched with the clamping block B8 at the left end in a clamping mode, the clamping block A3 at the left end is matched with the clamping block B8 at the right end in a clamping mode, the fixing block 5 is matched with the clamping groove 4 in a clamping mode, and the middle of the clamping groove 4 is in threaded connection with the adjusting hand wheel 6 through a threaded hole.

The positioning rod 101 and the round block 102 are inserted and matched with the mounting hole 9, the fastening wheel 103 is rotatably connected with the lantern ring 104, the hinged support 105 and the claw 106 are positioned in the through groove 109, and the round rod 108 is fixedly connected with the positioning rod 101.

The working principle of the invention is that when the invention is used, firstly, the protection board 2 which needs to be installed on the river bank main body 1 is positioned, the positioning rod 101 is inserted into the river bank main body 1 through the installation hole 9 for installation, then the rotary fastening wheel 103 rotates along the round block 102, the clamping claws 106 are pushed by the lantern rings 104 to open the two sides, the clamping claws 106 rotate and open along the round rods 108 through the sliding grooves 107, the bottom surface of the completely installed fastening wheel 103 is in friction contact with the top surface of the round block 102, the operations are repeated to install a plurality of protection plates 2, two adjacent protection plates 2 are connected and fixed through the clamping blocks A3, the fixing blocks 5 and the clamping grooves 4, the fixing blocks 5 are inserted into the clamping grooves 4, fix through adjusting hand wheel 6, install support 7 through fixture block A3 and fixture block B8, when needing to dismantle the guard plate 2 of damage, the above-mentioned step of reverse operation can.

Example 2

As shown in fig. 4-6, on the basis of embodiment 1, an arc block 701 is fixedly arranged at the front end of the top surface of the support 7 at the left end, a rotating vane 702 is arranged inside the arc block 701, a filtering block 703 is fixedly arranged at the rear end of the top surface of the support 7 at the left end, a supporting block 704 is fixedly arranged on the top surface of the filtering block 703, the top surfaces of the supporting blocks 704 are rotationally connected with two rotating shafts 705 in a front-back symmetrical structure, gears a706 are sleeved on the upper ends of the rotating shafts 705, the gears a706 at the front end are meshed with the gears a706 at the rear end through chains 707, a plurality of moving blocks 708 are fixedly arranged on the outer walls of the chains 707 in a uniform arrangement structure, and a plurality of shift rods 709 are fixedly arranged on the moving blocks 708 in a linear equidistant structure.

An L-shaped block 710 is fixedly arranged at the front end of the top surface of the supporting block 704, the top surface of the L-shaped block 710 is in a front-back symmetrical structure and is rotatably connected with two gears B711, belt wheels 712 are sleeved at the upper ends of the gears B711 and the upper ends of the rotating blades 702 at the front end, the belt wheels 712 at the front end are in friction transmission with the belt wheels 712 at the rear end through a belt 713, and the bottom surface of the chain 707 is in friction contact with the top surface of the supporting block 704.

The upper end of the rotating blade 702 penetrates through the inner wall of the arc-shaped block 701 and extends to the outside, the filter block 703 is in a filter net shape, the L-shaped block 710 is rotatably connected with a rotating shaft 705 positioned at the front end, a gear B711 positioned at the front end is meshed with a gear B711 positioned at the rear end and is coaxially connected with the rotating shaft 705 positioned at the front end, and the gear B711 positioned at the front end and a belt wheel 712 positioned at the rear end are both rotatably connected with the L-shaped block 710.

The left end of the top surface of the river levee main body 1 is provided with a collecting groove 11, the top surface of the rear end of the river levee main body 1 is fixedly provided with an inclined scraper 12, and the inclined scraper 12 is in clearance fit with a deflector rod 709.

When the filter is used, water flows from left to right, the rotating blades 702 are pushed to rotate anticlockwise, the belt wheel 712 at the front end is rotated and is in friction transmission to the belt wheel 712 at the rear end through the belt 713 to rotate anticlockwise synchronously, the gear B711 at the front end is rotated and is in meshing transmission to the gear B711 at the rear end to rotate clockwise, the rotating shaft 705 at the front end and the gear A706 at the front end are driven to rotate synchronously, the chain 707 is driven to rotate clockwise synchronously, the moving blocks 708 and the shifting rods 709 move synchronously at the moment, the shifting rods 709 salvage and move sundries such as aquatic weeds and the like intercepted on the left wall of the filter block 703 to the upper end, and when the sundries such as the aquatic weeds and the like on the shifting rods 709 move to the position of the inclined scraper 12, the inclined scraper 12 scrapes the sundries such as the aquatic weeds and the like on the shifting rods 709 into the collecting tank 11 to be collected.

Example 3

As shown in fig. 7-8, in embodiment 2, a limiting groove 13 is formed on the top surface of the support 7 at the right end, a sliding block 14 is slidably connected inside the limiting groove 13, a floating plate 15 is installed at the upper end of the sliding block 14, a stopper 16 is fixedly arranged at the rear end of the top surface of the floating plate 15, a circular ring 17 is fixedly arranged at the rear end of the sliding block 14, a reeling rod 18 is rotatably connected to the right end of the top surface of the river levee body 1, and a rocking rod 19 is coaxially connected to the top surface of the reeling rod 18.

The front wall of the stop block 16 is provided with a plurality of conical blocks 20 in a linear equidistant structure, the floating plate 15 is in clearance fit with the protection plate 2, a rope 21 is wound on the winding rod 18, and the front end of the rope 21 is fixedly connected with the circular ring 17.

During the use, install slider 14, kickboard 15 and dog 16 through spacing groove 13, make kickboard 15 middle part suspension on the surface of water, the wave is patted to kickboard 15 and dog 16 antetheca, and 16 antethecas of dog have reduced the impact force of wave through tapered block 20, have avoided the wave to pat on river levee main part 1 and guard plate 2, and rotatory rocker 19 makes the winding rod 18 rotatory carry out the rolling to rope 21, has made things convenient for and has changed the kickboard 15 and the baffle 16 of damage.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a hydraulic engineering bank protection device with buffer gear which characterized in that: comprises a river levee main body (1), a plurality of protection plates (2) are arranged on the river levee main body (1) in a uniform arrangement structure, the left end and the right end of the protection plate (2) are provided with two clamping blocks A (3) in a centrosymmetric structure, the rear end of the top surface of the protection plate (2) is provided with two clamping grooves (4) in a bilateral symmetry structure, the front end of the top surface of the protection plate (2) is provided with two fixed blocks (5) which are arranged in a left-right symmetrical structure, the middle part of the fixed block (5) is connected with an adjusting hand wheel (6) through a threaded hole, the front wall of the river levee main body (1) is provided with two brackets (7) in a bilateral symmetry structure, two clamping blocks B (8) are fixedly arranged at the left end and the right end of the bracket (7) in a centrosymmetric structure, the middle of the top surface of the protection plate (2) is provided with a mounting hole (9), and a fastening piece (10) is inserted into the mounting hole (9).

2. The hydraulic engineering slope protection device with buffer gear of claim 1, characterized in that: fastener (10) are including locating lever (101), locating lever (101) top surface has set firmly circle piece (102), circle piece (102) middle part has tight pulley (103) through screw hole threaded connection, tight pulley (103) bottom surface cover is equipped with lantern ring (104), it has set firmly two free bearings (105) to be bilateral symmetry structure on lantern ring (104), jaw (106) bottom surface has set firmly, spout (107) have been seted up at jaw (106) antetheca middle part, spout (107) inside sliding connection has round bar (108), locating lever (101) lower extreme is bilateral symmetry structure and has seted up two and lead to groove (109).

3. The hydraulic engineering slope protection device with buffer gear of claim 1, characterized in that: fixture block A (3) bottom surface is concave shape, is located the left end fixture block A (3) and the fixture block A (3) joint cooperation that is located the right-hand member be located the right-hand member fixture block A (3) and the fixture block B (8) joint cooperation that is located the left end fixture block A (3) and the fixture block B (8) joint cooperation that is located the right-hand member, fixed block (5) and draw-in groove (4) joint cooperation, draw-in groove (4) middle part is through screw hole and adjusting hand wheel (6) threaded connection.

4. The hydraulic engineering slope protection device with buffer gear of claim 2, characterized in that: the positioning rod (101) and the round block (102) are matched with the mounting hole (9) in an inserted manner, the fastening wheel (103) is rotatably connected with the lantern ring (104), the hinged support (105) and the clamping jaw (106) are located inside the through groove (109), and the round rod (108) is fixedly connected with the positioning rod (101).

5. The hydraulic engineering slope protection device with buffer gear of claim 1, characterized in that: the automatic water-saving filter is characterized in that an arc-shaped block (701) is fixedly arranged at the front end of the top surface of the support (7) at the left end, a rotating vane (702) is arranged inside the arc-shaped block (701), a filter block (703) is fixedly arranged at the rear end of the top surface of the support (7) at the left end, a support block (704) is fixedly arranged on the top surface of the filter block (703), the top surface of the support block (704) is in a front-back symmetrical structure and is rotatably connected with two rotating shafts (705), a gear A (706) is sleeved at the upper end of each rotating shaft (705), the gear A (706) at the front end is meshed with a gear A (706) at the rear end through a chain (707), the outer wall of the chain (707) is in an evenly-arranged structure and is fixedly provided with a plurality of moving blocks (708), and a plurality of shift levers (709) are fixedly arranged on the moving blocks (708) in a linear and equidistant structure.

6. The hydraulic engineering slope protection device with buffer gear of claim 5, characterized in that: the front end of the top surface of the supporting block (704) is fixedly provided with an L-shaped block (710), the top surface of the L-shaped block (710) is rotationally connected with two gears B (711) in a front-back symmetrical structure, belt wheels (712) are sleeved at the upper ends of the gears B (711) and the upper ends of the rotating blades (702) at the front end, the belt wheels (712) at the front end are in friction transmission with the belt wheels (712) at the rear end through belts (713), and the bottom surface of the chain (707) is in friction contact with the top surface of the supporting block (704).

7. The hydraulic engineering slope protection device with buffer gear of claim 6, characterized in that: the upper end of the rotating blade (702) penetrates through the inner wall of the arc-shaped block (701) and extends to the outside, the filtering block (703) is in a filtering net shape, the L-shaped block (710) is rotatably connected with a rotating shaft (705) at the front end, the gear B (711) at the front end is meshed with the gear B (711) at the rear end, the gear B (711) at the rear end is coaxially connected with the rotating shaft (705) at the front end, and the gear B (711) at the front end and the belt wheel (712) at the rear end are both rotatably connected with the L-shaped block (710).

8. The hydraulic engineering slope protection device with buffer gear of claim 1, characterized in that: the left end of the top surface of the river levee main body (1) is provided with a collecting groove (11), the top surface of the rear end of the river levee main body (1) is fixedly provided with an inclined scraper (12), and the inclined scraper (12) is in clearance fit with a deflector rod (709).

9. The hydraulic engineering slope protection device with buffer gear of claim 1, characterized in that: be located the right-hand member spacing groove (13) have been seted up to support (7) top surface, spacing groove (13) inside sliding connection has slider (14), kickboard (15) are installed to slider (14) upper end, kickboard (15) top surface rear end is equipped with dog (16) admittedly, slider (14) rear end is equipped with ring (17) admittedly, river levee main part (1) top surface right-hand member rotates and is connected with coiling pole (18), coiling pole (18) top surface coaxial coupling has rocker (19).

10. The hydraulic engineering slope protection device with buffer gear of claim 9, characterized in that: dog (16) antetheca is linear equidistant structure and has set firmly a plurality of toper pieces (20), kickboard (15) and guard plate (2) clearance fit, the rolling has rope (21) on coiling pole (18), rope (21) front end is connected fixedly with ring (17).

Images