CN115198694A - Be applicable to water conservancy water and electricity dyke heightening structure - Google Patents

Abstract

The invention provides a heightening structure suitable for a water conservancy and hydropower embankment, which relates to the technical field of water conservancy engineering and comprises the following components: a dam installation member; the utility model discloses a dam installation spare, including mounting panel, installation panel outer end slidable mounting has the mounting panel, install the increase subassembly through strengthening the subassembly installation between increase subassembly and the mounting panel, the mounting panel all is provided with the direction subassembly with increasing the board, it can float through the gasbag to increase the board, it slides to rise the back direction subassembly and can expand and carry out the manger plate to increase the board, it slides and reinforces through strengthening the subassembly to increase between board and the mounting panel, it is provided with the supporting component support to increase the board back, the last fixed part of supporting component has the effect of one-way chucking, the effect of increasing the subassembly has further been increased, the current ordinary dykes and dams of being difficult to block too high water level behind the torrential rain flood has been solved, the processing structure of installation on the ordinary dykes and dams simultaneously, do not possess the automatic rising, the problem of potential safety hazard easily appears when through manual operation.

Description

Be applicable to water conservancy water and electricity dyke heightening structure

Technical Field

The invention relates to the technical field of hydraulic engineering, in particular to a heightening structure suitable for a water conservancy and hydropower embankment.

Background

In recent years, with the continuous improvement of the living standard of people, hydraulic engineering buildings can be built near cities, usually, the hydraulic engineering buildings are built near riverways, both sides of the riverways at the places can be built with facilities such as waterproof dams, and the dams mainly play the role of preventing rainstorm and flood caused by extreme weather.

However, with current hydraulic engineering's partial equipment, all can be built in river course department to let hydraulic engineering press close to the river course, if heavy rainfall and some flood appear, the dykes and dams of ordinary river course both sides are difficult to effectively block the rising water level, lead to the river to overflow dykes and dams, let the river rush into hydraulic engineering building, suffer from unnecessary loss, and some increase structures on dykes and dams, then need the manual work to operate, carry out manual operation to extreme weather such as torrential rain, the potential safety hazard easily appears.

Disclosure of Invention

The invention provides a heightening structure suitable for a water conservancy and hydropower embankment, which specifically comprises: a dam installation member; sliding mounting has the mounting panel on the dykes and dams structure of dykes and dams installed part, mounting panel outer end sliding mounting has the increase subassembly, the increase board of increase subassembly is sliding mounting on the outer wall of mounting panel, sliding mounting has a top slide on the increase board top outer wall, be provided with three groups of gasbags on the outer wall of increase board, be provided with a set of gasbag on the top slide, through the installation of reinforcement subassembly between increase subassembly and the mounting panel, the mounting panel all is provided with the direction subassembly with the increase subassembly outer wall, increase subassembly back department and install supporting component, the supporting component upper end adds with increase subassembly junction and is equipped with the fixed part, the fixed part is sliding mounting on the increase subassembly, increase subassembly slidable mounting department and add and be equipped with contact assembly.

Optionally, the embankment mount comprises: the structure of dykes and dams, set up two sets of vertical recesses on the inclined plane of dykes and dams structure front end, be provided with the fastener in the recess, the projection joint at the mounting panel back is in the fastener, and the mounting panel directly contacts with the fastener.

A hydraulic and hydroelectric embankment heightening structure adapted for use in water conservancy and hydropower according to claim, wherein: the fixed subassembly including: the mounting groove, the mounting groove is seted up on the bottom outer wall of mounting panel, and the mounting groove is the recess form, and the fixed plate is installed to the embedding in the mounting groove, and the both sides position of fixed plate all is provided with the screw.

Optionally, the heightening plate and the mounting plate are integrally arranged side by side on an inclined plane of the dam structure, side stop strips are arranged at two sides of the heightening plate, the side stop strips are of a triangular strip structure, and left and right side stop strips of the heightening plate are matched with each other.

Optionally, the guiding assembly comprises: the connecting plate, the connecting plate is articulated to be installed in the outer wall upper end of mounting panel with increase the board, and the deflector is installed in the swing on the connecting plate, and deflector end-to-end connection has interior slider, and interior slider slidable mounting is equipped with the spring additional in the sliding groove of interior slider in the planar spout of connecting plate articulated position department.

Optionally, the reinforcing component includes: the gib block, the gib block is long rod-shaped structure, and the gib block is fixed and is totally two sets ofly in the upper end of mounting panel outer wall, increases the board and passes through the gliding installation of gib block on the mounting panel, is provided with three groups between two sets of gib blocks and presss from both sides tight piece, and three groups press from both sides tight piece from bottom to upwards add thick gradually.

Optionally, the support assembly includes: the bracing piece, the bracing piece is stock column structure, and the bracing piece is articulated to be installed in the back position of increasing the board, and the extreme position department of bracing piece sets up three horn structures, is connected with the anchor strut between the upper end of the support bar position, and the anchor strut top is connected on the fixed part who increases the board.

Optionally, the fixing member includes: the fixed block, the fixed block is the rectangular plate device, installs three one-way pieces of group on the fixed block, and one-way piece is one-way set-square structure, adds between one-way piece and the fixed block and is equipped with the springboard.

Optionally, the contact assembly comprises: the magnetic block is of a rectangular block structure, is slidably mounted on the heightening plate and is of a magnetic structure, a contact rod is arranged on the magnetic block, the tail end of the magnetic block is of an inclined plane structure, and the tail end of the magnetic block is close to the fixing part.

Advantageous effects

According to the invention, the mounting plate is directly fixed on the inclined plane of the dam structure through the fixing component, the heightening plate is arranged at the outer end of the mounting plate in a sliding manner, the mounting plate and the heightening plate are both provided with the guide components, the heightening plate can float through the air bag, the guide components can be unfolded to retain water after the heightening plate slides and rises, the heightening plate and the mounting plate slide and are reinforced through the reinforcing component, the back of the heightening plate is provided with the support component for supporting, the fixing component on the support component has a one-way clamping effect, and the effect of the heightening component is further increased.

In addition, set up the fixed plate into direct embedding and install in the mounting groove of mounting panel, realized conveniently carrying out supplementary reinforced effect through fixed plate bottom mounting panel, set up the screw that is put in fixed plate both sides position simultaneously, realized installing additional the further reinforcing effect of realizing the mounting panel behind a bolt, increase the board on the mounting panel generally after rising, mainly play the effect that stops the rising water level, thereby generally increase and be difficult to accomplish stable sealed waterproof effect between the board, the side shelves strip of establishing on increasing the board, can make and increase and to carry out mutual sealing through the side shelves strip between the board, play stable sealed effect.

In addition, firstly, the guide assemblies are respectively arranged at the upper ends of the outer walls of the mounting plate and the heightening plate, the top sliding plate is arranged on the outer wall of the guide assembly at the heightening plate in a sliding mode, the protection effect of the top sliding plate on the guide assemblies on the heightening plate is achieved, the heightening plate is provided with three groups of air bags, when the water level rises, the heightening plate can be supported through the three groups of air bags, only one group of top sliding plates on the heightening plate is arranged, the same top sliding plate is small in whole, and the top sliding plate can be lifted by the group of air bags, so that the effect that the heightening plate and the top sliding plate stably rise after the water level is increased is achieved.

In addition, the connecting plate is hinged, the guide plate is arranged on the connecting plate in a swinging mode, the guide plate and the connecting plate are enabled to form a triangular shape, the integral shape of the guide assembly can assist in blocking water, the spring arranged at the mounting position of the inner slide block is added, when the heightening plate and the jacking slide plate are lifted, the inner slide block with the spring slides to jack up the guide plate and the connecting plate, and the auxiliary blocking effect on the rising water level is achieved.

In addition, set up the bracing piece into articulated the installation and increase the board back, let increase the board and rise the back in the slip, make things convenient for the bracing piece swing to stretch out and carry out the support to increasing the board, set up the end of bracing piece into three horn-shaped structure, let the bracing piece when with ground contact, the stable bracing piece of letting is fixed on ground, it stabilizes the supporting role to increasing the board to form the bracing piece, for the firm of increase bracing piece that can be further, connect the anchor strut on the bracing piece, let the anchor strut top fix again on the fixed part who increases the board, realize that the bracing piece plays further reinforcing effect through the anchor strut.

In addition, set up the fixed block into the rectangular plate structure, let the fixed block can be better slide at the increase board back, with the unidirectional piece of three groups of installations on the fixed block, let fixed part when sliding to the assigned position, let unidirectional piece can block in the assigned position of increasing the board, play the fixed of fixed block to the anchor strut, increase the support of supporting component overall stability to increasing the subassembly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

figure 1 shows a schematic view of the overall structure according to the invention;

FIG. 2 illustrates a schematic view of a heightening assembly in accordance with the present invention;

FIG. 3 shows a schematic view of the back of a raised panel according to the present invention;

FIG. 4 illustrates a schematic view of a section of a raised plate according to the present invention;

figure 5 shows a schematic view of a support bar according to the invention;

FIG. 6 shows a schematic view of a support assembly according to the present invention;

fig. 7 shows a schematic view of a fixing part and contact assembly according to the invention.

Fig. 8 shows a schematic view at a partial enlargement in fig. 2 according to the invention.

Fig. 9 shows a schematic diagram at B in fig. 2, partially enlarged, according to the present invention.

List of reference numerals

1. A dam installation member; 101. a dam structure; 102. a fastener; 103. mounting a plate; 2. a fixing assembly; 201. mounting grooves; 202. a fixing plate; 3. a heightening component; 301. heightening a plate; 302. a top slide plate; 303. an air bag; 304. a side stop bar; 4. a guide assembly; 401. a connecting plate; 402. a guide plate; 403. an inner slide block; 5. a reinforcement assembly; 501. a guide strip; 502. a clamping block; 6. a support assembly; 601. a support bar; 602. a reinforcing rod; 7. a fixing member; 701. a fixed block; 702. a unidirectional block; 703. a spring plate; 8. a contact assembly; 801. a magnetic block; 802. a contact rod.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference numerals in the drawings denote like elements.

Example (b): please refer to fig. 1 to fig. 9:

the invention provides a heightening structure suitable for a water conservancy and hydropower embankment, which comprises: a dike mounting member 1; the installing plate 103 is slidably installed on a dam structure 101 of a dam installing piece 1, the heightening component 3 is slidably installed at the outer end of the installing plate 103, the heightening plate 301 of the heightening component 3 is slidably installed on the outer wall of the installing plate 103, the top sliding plate 302 is slidably installed on the outer wall of the top of the heightening plate 301, the guide component 4 is respectively arranged at the upper ends of the installing plate 103 and the outer wall of the heightening plate 301, the top sliding plate 302 is slidably installed on the outer wall of the heightening plate 301, the protection effect of the guide component 4 on the heightening plate 301 by the top sliding plate 302 is realized, three groups of air bags 303 are arranged on the outer wall of the heightening plate 301, one group of air bags 303 are arranged on the top sliding plate 302, the heightening plate 301 is provided with the three groups of air bags 303, when the water level rises, the heightening plate 301 can be supported by the three groups of air bags 303, only one group of top sliding plates 302 on the heightening plate 301, the same top sliding plate 302 is small as a whole, the one group of air bags 303 are enough to lift the top sliding plate 302, the heightening plate 301 and the top sliding plate 302, the heightening component 3 is installed on the installing plate 103 by the heightening component 3, the fixing component 3, the back supporting component 6, the heightening component 6 is installed on the heightening component 3, and the heightening component 6, and the heightening component 3, and the back supporting component 3 are installed in sliding component 6, and the heightening component 3, and the supporting component 3, and the heightening component 6, and the heightening component 3, and the component 3 are connected with the component 6.

Further, according to the embodiment of the present invention, the embankment mount 1 includes: dyke structure 101, two sets of vertical recesses have been seted up on the inclined plane of dyke structure 101 front end, be provided with fastener 102 in the recess, the protruding strip joint at the mounting panel 103 back is in fastener 102, mounting panel 103 is direct to contact with fastener 102, set up two sets of vertical protruding strips with the back of mounting panel 103, it can stabilize the card and go into the recess of dyke structure 101 you to have realized mounting panel 103, install fastener 102 additional in the recess of the same dyke structure 101, can be stable with mounting panel 103 department protruding strip contact, let mounting panel 103 of installing on dyke installed part 1 more stable.

Further, according to the embodiment of the present invention, the fixing member 2 includes: mounting groove 201, mounting groove 201 is seted up on the bottom outer wall of mounting panel 103, mounting groove 201 is the recess form, fixed plate 202 is installed to the embedding in mounting groove 201, the both sides position of fixed plate 202 all is provided with the screw, set up fixed plate 202 into direct embedding and install in mounting groove 201 of mounting panel 103, the effect of conveniently carrying out supplementary reinforcement through mounting panel 103 at the bottom of fixed plate 202 has been realized, set up the screw that puts in fixed plate 202 both sides simultaneously, realized installing the further reinforcing effect of realizing mounting panel 103 after a bolt additional.

In addition, according to the embodiment of the present invention, the heightening plate 301 and the mounting plate 103 are integrally arranged side by side on the inclined surface of the dam structure 101, the side bars 304 are arranged at both sides of the heightening plate 301, the side bars 304 are triangular bar structures, the left and right side bars 304 of the heightening plate 301 are matched with each other, and after the heightening plate 301 on the mounting plate 103 is raised, the heightening plate 301 mainly functions to block the rising water level, so that it is difficult to stably seal and waterproof the heightening plates 301, and the side bars 304 arranged on the heightening plate 301 can make the heightening plates 301 sealed with each other through the side bars 304 to stably seal.

Further, according to an embodiment of the present invention, the guiding assembly 4 comprises: the guide assembly 4 is characterized by comprising a connecting plate 401, the connecting plate 401 is hinged to the upper ends of the outer walls of the mounting plate 103 and the heightening plate 301, a guide plate 402 is arranged on the connecting plate 401 in a swinging mode, the connecting plate 401 is arranged in a hinged mode, the guide plate 402 is arranged on the connecting plate 401 in a swinging mode to form a triangular shape, the guide assembly 4 is enabled to have an auxiliary blocking effect on water integrally, an inner sliding block 403 is connected to the tail end of the guide plate 402, the inner sliding block 403 is arranged in a sliding groove in the plane of the hinged position of the connecting plate 401 in a sliding mode, a spring is additionally arranged in a sliding groove of the inner sliding block 403, the spring is arranged at the mounting position of the inner sliding block 403, when the heightening plate 301 and the top sliding plate 302 are lifted, the inner sliding block with the spring pushes up the guide plate 402 and the connecting plate 401 to form the auxiliary blocking effect on the rising water level 403.

Further, according to the embodiment of the present invention, the reinforcing member 5 includes: the guide strip 501, the guide strip 501 is a long rod-shaped structure, the guide strip 501 is fixed on two sets of the upper end of the outer wall of the mounting plate 103, the heightening plate 301 is installed on the mounting plate 103 through the guide strip 501 in a sliding manner, the guide strip 501 is arranged into two sets of long strips, the heightening plate 301 can slide more stably, the problem that the heightening plate 301 is blocked is avoided, three sets of clamping blocks 502 are arranged between the two sets of guide strips 501, the three sets of clamping blocks 502 are gradually thickened from bottom to top, the clamping blocks 502 are arranged into three sets, the size of each set of clamping blocks 502 is increased once, the heightening plate 301 is clamped by the clamping blocks 502 after being lifted to a specified height, the heightening plate 301 and the clamping blocks 502 are strengthened, the clamping blocks 502 with different sizes are formed to strengthen the heightening plate 301, and the water retaining of the whole heightening plate 301 is more stable.

Further, according to the embodiment of the present invention, the supporting member 6 includes: the support rod 601 is of a long rod-shaped structure, the support rod 601 is hinged to the back of the heightening plate 301, the heightening plate 301 is lifted in a sliding mode, the support rod 601 can conveniently swing and extend out to support the heightening plate 301, a triangular structure is arranged at the tail end of the support rod 601, the tail end of the support rod 601 is of the triangular structure, the support rod 601 is stably fixed on the ground when contacting with the ground, the support rod 601 is stably fixed on the ground, the support effect of the support rod 601 on the heightening plate 301 is formed, a reinforcing rod 602 is connected between the upper end positions of the support rod 601, the top of the reinforcing rod 602 is connected to a fixing part 7 of the heightening plate 301, in order to further increase the stability of the support rod 601, the reinforcing rod 602 is connected to the support rod 601, the top of the reinforcing rod 602 is fixed to the fixing part 7 of the heightening plate 301, and the support rod 601 can further reinforce the effect through the reinforcing rod 602.

Further, according to the embodiment of the present invention, the fixing member 7 includes: fixed block 701, fixed block 701 is the rectangular plate device, set up fixed block 701 into the rectangular plate structure, let fixed block 701 can be better increase board 301 back slip, install the one-way piece 702 of three groups on the fixed block 701, one-way piece 702 is one-way set-square structure, it is equipped with diving board 703 to add between one-way piece 702 and the fixed block 701, with the one-way piece 702 of three groups of installation on the fixed block 701, let fixed part 7 when sliding the assigned position, let one-way piece 702 can block the assigned position of increasing board 301, play fixed block 701 fixed to anchor strut 602, increase 6 overall stability of supporting component to the support of increasing subassembly 3.

Further, according to an embodiment of the present invention, the contact assembly 8 comprises: the magnetic block 801 is made of a magnetic material, the magnetic block 801 can be close to a designated position of the mounting plate 103, the magnetic block 801 is in the designated position of the mounting plate 103 when the heightening plate 301 is pressed down, the magnetic block 801 stops sliding along the heightening plate 301, a contact rod 802 on the magnetic block 801 is abutted against the fixing part 7, the contact rod 802 is arranged on the magnetic block 801, the tail end of the magnetic block 801 is in an inclined plane structure, the tail end of the magnetic block 801 is close to the fixing part 7, the tail end of the contact rod 802 is provided with an inclined plane, the tail end of the contact rod 802 is close to the fixing part 7, the contact rod 802 can be abutted against the fixing part 7 in a sliding mode, the one-way block 702 of the fixing part 7 is separated from a clamping position, and the supporting component 6 can be conveniently folded.

The specific use mode and function of the embodiment are as follows: in the invention, two groups of vertical protruding strips are arranged on the back surface of the mounting plate 103, so that the mounting plate 103 can be stably clamped into a groove of a dam structure 101, the same fastener 102 which is additionally arranged in the groove of the dam structure 101 can be stably contacted with the protruding strip at the mounting plate 103, so that the mounting plate 103 arranged on the dam mounting piece 1 is more stable, the guide assemblies 4 are respectively arranged at the upper ends of the mounting plate 103 and the outer wall of the heightening plate 301, the top sliding plate 302 is slidably arranged on the outer wall of the guide assembly 4 at the heightening plate 301, so that the protection effect of the top sliding plate 302 on the guide assembly 4 on the heightening plate 301 is realized, the heightening plate 301 is provided with three groups of air bags 303, when the water level rises, the heightening plate 301 can be supported by the three groups of air bags 303, only one group of top sliding plates 302 on the heightening plate 301 is provided, the same top sliding plate 302 is smaller as a whole, and one group of air bags 303 is enough to lift the top sliding plate 302, the function of stably lifting the heightening plate 301 and the top sliding plate 302 after the water level is increased is realized, the supporting rod 601 is arranged to be hinged and installed on the back of the heightening plate 301, the heightening plate 301 is conveniently supported by the supporting rod 601 through swinging and extending after the heightening plate 301 is lifted in a sliding manner, the tail end of the supporting rod 601 is arranged to be of a triangular structure, the supporting rod 601 is stably fixed on the ground when the supporting rod 601 is in contact with the ground, the supporting function of the supporting rod 601 on the heightening plate 301 is formed, in order to further increase the stability of the supporting rod 601, the reinforcing rod 602 is connected to the supporting rod 601, the top of the reinforcing rod 602 is fixed on the fixing part 7 of the heightening plate 301, the supporting rod 601 plays a further reinforcing function through the reinforcing rod 602, the fixing block 701 is arranged to be rectangular, the fixing block 701 can better slide on the back of the heightening plate 301, three sets of unidirectional blocks 702 are installed on the fixing block 701, when the fixing component 7 slides to a specified position, the one-way block 702 can be clamped at the specified position of the heightening plate 301, so that the fixing block 701 can fix the reinforcing rod 602, and the support of the supporting assembly 6 to the heightening assembly 3 is increased.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (9)

1. A heightening structure suitable for water conservancy and hydropower embankment is characterized by comprising an embankment mounting piece (1); the utility model discloses a dykes and dams structure (101) of dykes and dams installed part (1) go up slidable mounting has mounting panel (103), mounting panel (103) outer end slidable mounting has heightening subassembly (3), heightening board (301) of heightening subassembly (3) are slidable mounting on the outer wall of mounting panel (103), slidable mounting has top slide (302) on heightening board (301) top outer wall, be provided with three groups of gasbag (303) on heightening the outer wall of board (301), be provided with a set of gasbag (303) on top slide (302), heighten through consolidating subassembly (5) installation between subassembly (3) and mounting panel (103), mounting panel (103) and heightening subassembly (3) outer wall all are provided with direction subassembly (4), heightening subassembly (3) back department installs supporting component (6), supporting component (6) upper end adds with heightening subassembly (3) junction and is equipped with fixing component (7), fixing component (7) are slidable mounting on heightening subassembly (3), heightening subassembly (3) interior slidable mounting department is equipped with contact assembly (8).

2. A water conservancy and hydropower embankment heightening structure suitable for use according to claim 1, wherein: the dike mounting member (1) comprises: the structure comprises a dam structure (101), wherein two groups of vertical grooves are formed in the inclined plane at the front end of the dam structure (101), fastening pieces (102) are arranged in the grooves, protruding strips on the back face of a mounting plate (103) are clamped in the fastening pieces (102), and the mounting plate (103) is directly contacted with the fastening pieces (102).

3. A hydraulic and hydroelectric levee heightening structure as defined in claim 2, wherein: the fixing component (2) comprises: mounting groove (201), set up on the bottom outer wall of mounting panel (103) mounting groove (201), mounting groove (201) are the recess form, and fixed plate (202) are installed to embedding in mounting groove (201), and the both sides position of fixed plate (202) all is provided with the screw.

4. A hydraulic and hydroelectric embankment heightening structure suitable for use according to claim 2, wherein: the heightening plate (301) and the mounting plate (103) are integrally arranged on the inclined plane of the dam structure (101) side by side, side stop bars (304) are arranged at the two sides of the heightening plate (301), the side stop bars (304) are of a triangular bar structure, and the left side stop bar (304) and the right side stop bar (304) of the heightening plate (301) are mutually matched.

5. A hydraulic and hydroelectric embankment heightening structure suitable for use according to claim 2, wherein: the guide assembly (4) comprises: connecting plate (401), connecting plate (401) are articulated to be installed in mounting panel (103) and the outer wall upper end of adding high board (301), and deflector (402) are installed in the swing on connecting plate (401), and deflector (402) end-to-end connection has interior slider (403), and interior slider (403) slidable mounting is equipped with the spring in the sliding groove of interior slider (403) in the planar spout of connecting plate (401) articulated position department additional.

6. A hydraulic and hydroelectric embankment heightening structure suitable for use according to claim 2, wherein: the reinforcing component (5) comprises: the gib block (501), gib block (501) are long rod-shaped structure, and gib block (501) are fixed in the upper end of mounting panel (103) outer wall two sets of altogether, increase board (301) and install on mounting panel (103) through gib block (501) gliding, are provided with three groups between two sets of gib block (501) and press from both sides tight piece (502), and three groups press from both sides tight piece (502) and add thick from bottom to top gradually.

7. A water conservancy and hydropower embankment heightening structure suitable for use according to claim 1, wherein: the supporting component (6) comprises: bracing piece (601), bracing piece (601) are long rod-shaped structure, and bracing piece (601) articulated the installing in the back position of increasing board (301), and the extreme position department of bracing piece (601) sets up three horn-shaped structure, is connected with stiffener (602) between bracing piece (601) upper end position, and stiffener (602) top is connected on fixed part (7) of increasing board (301).

8. A water conservancy and hydropower embankment heightening structure suitable for use according to claim 1, wherein: the fixing member (7) includes: fixed block (701), fixed block (701) are the rectangular plate device, install three sets of one-way blocks (702) on fixed block (701), and one-way block (702) are one-way set-square structure, add between one-way block (702) and fixed block (701) and are equipped with springboard (703).

9. A water conservancy and hydropower embankment heightening structure suitable for use according to claim 1, wherein: the contact assembly (8) comprises: the magnetic block (801) is of a rectangular block structure, the magnetic block (801) is slidably mounted on the heightening plate (301), the magnetic block (801) is of a magnetic structure, a contact rod (802) is arranged on the magnetic block (801), the tail end of the magnetic block (801) is of an inclined plane structure, and the tail end of the magnetic block (801) is close to the fixing component (7).

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