CN112609635A - Energy-saving environment-friendly assembled flood control wall - Google Patents

Abstract

The utility model relates to an energy-concerving and environment-protective type assembled flood prevention wall, it includes a plurality of bases and a plurality of flood prevention boards that match with the base, set up the draw-in groove that matches with flood prevention board on the base, be equipped with first sealed pad in the draw-in groove, still set up the fixed slot that runs through first sealed pad in the draw-in groove, flood prevention is equipped with a plurality of and fixed slot assorted dead levers on the board, flood prevention board corresponds to peg graft in the draw-in groove, and a plurality of dead levers correspond respectively and peg graft in a plurality of fixed slots, still be equipped with a plurality of dead levers on the flood prevention board respectively, it is equipped with the steel ribbon to lie in tightly winding on two dead levers of same height between two adjacent flood prevention boards, be equipped with the second sealed pad on the terminal surface of base, be equipped with the third sealed pad on flood prevention board's the terminal surface, the base still is equipped with. The application has the technical effects that: the assembled flood control wall can be assembled or disassembled quickly, and can be recycled after flood conditions are over, so that the energy is saved and the environment is protected.

Description

Energy-saving environment-friendly assembled flood control wall

Technical Field

The application relates to the technical field of flood prevention and water blocking, in particular to an energy-saving and environment-friendly assembled flood prevention wall.

Background

The flood control wall is a concrete or masonry water retaining structure which is adopted to ensure flood control safety or other special requirements of towns along rivers and coastal areas; when emergency flood prevention is needed when a flood situation occurs on the river coasts, flood prevention walls need to be built on the river coasts quickly to prevent river water from spreading to control the flood situation.

Notice No. CN205662895U closes on emergent flood prevention wall of combination formula between dark major-child depressed place, it includes lower part gravity type plain concrete wall, plain concrete, top embedded connector, pre-buried board, bolt, anchor bar, upper portion steel construction flood prevention wall, shaped steel stand, angle steel skeleton, steel panels, anchor plate, stiffening plate, connecting bolt, passageway department steel construction flood prevention wall, bottom grade beam, shaped steel bracing.

The technical scheme has the following defects: the lower part of the emergency flood prevention wall is made by adopting a mode of plain concrete cast-in-place, the construction period of the concrete flood prevention wall is long, the concrete flood prevention wall is difficult to be recycled, and the concrete flood prevention wall is difficult to be suitable for the emergency flood prevention situation.

Disclosure of Invention

In order to solve the problems that the construction period of the concrete flood control wall is long and the concrete flood control wall is difficult to recycle, the application provides an energy-saving environment-friendly assembly type flood control wall, which adopts the following technical scheme: an energy-saving environment-friendly assembly type flood control wall comprises a plurality of bases and a plurality of flood control plates matched with the bases, wherein the bases are provided with clamping grooves matched with the flood control plates, first sealing gaskets are arranged in the clamping grooves, fixing grooves penetrating through the first sealing gaskets are further formed in the clamping grooves, a plurality of fixing rods matched with the fixing grooves are arranged on the flood control plates, the flood control plates are correspondingly inserted in the clamping grooves, the fixing rods are correspondingly inserted in the fixing grooves respectively, the first sealing gaskets are tightly abutted on the flood control plates, the flood control plates are also provided with a plurality of fastening rods respectively, a steel binding belt is tightly wound on two fastening rods positioned at the same height between every two adjacent flood control plates, the end faces of the bases are provided with second sealing gaskets, the end faces of the flood control plates are provided with third sealing gaskets, and the second sealing gaskets are tightly abutted between every two adjacent bases, the third sealing gasket is tightly abutted between two adjacent flood prevention plates, a limiting rod is further arranged on the end face, deviating from the flood prevention plates, of the base, a fourth sealing gasket is further arranged on the base, the limiting rod is connected with the ground in an inserted mode, and the fourth sealing gasket is tightly abutted between the base and the ground.

Through the technical scheme, under the action of the self gravity of the flood prevention plate, the first sealing gasket is tightly abutted in the clamping groove, so that the effect of sealing a connecting gap between the flood prevention plate and the base is achieved; under the common gravity action of the base and the flood prevention plate, the fourth sealing gasket is tightly abutted against the ground, so that the gap between the base and the ground is sealed; under the action of the tensile force of the steel cable tie, the two third sealing gaskets can be abutted between the two flood prevention plates to seal a connecting gap between the two flood prevention plates, and the two fourth sealing gaskets can be abutted between the two bases to seal the connecting gap between the two bases, so that the plurality of bases and the flood prevention plates can stably block water flow; the arrangement that the baffle and the base are mutually inserted enables the flood control wall to be quickly installed in place during emergency flood control; after the flood situation is finished, the worker can detach the flood prevention plate and the base in a mode that the flood prevention plate is pulled out of the base, so that the flood prevention wall can be reused, and the flood prevention wall is energy-saving and environment-friendly.

Optionally, two positioning columns are arranged at one end of the base along the length of the base, and two positioning grooves matched with the positioning columns are correspondingly formed in the end face of the base, which is far away from the positioning columns; when the positioning column on one of the bases is correspondingly inserted into the positioning groove on the adjacent base, the clamping grooves on the two bases are aligned with each other.

Through above-mentioned technical scheme, the setting of reference column and constant head tank has the effect of instructing the location to when the staff is installing the base, the accessible corresponds the mode of pegging graft in the constant head tank with the locating lever, aligns the draw-in groove on two bases each other fast, thereby has promoted the efficiency when staff installs the flood prevention wall.

Optionally, a transverse plate is further arranged on the flood prevention plate, a first rubber pad is arranged on the end face, facing the base, of the transverse plate, and the first rubber pad abuts against the position between the transverse plate and the base.

Through the technical scheme, when the water level is submerged above the transverse plate, the water submerged above the transverse plate can provide a vertical downward pressure for the transverse plate, so that the first rubber pad can be tightly pressed between the transverse plate and the base under the action of water pressure, and the sealing property between the base and the flood prevention plate is further enhanced; and along with the continuous increase of water level, the pressure that the diaphragm applied to the rubber pad can constantly increase to make the leakproofness between base and the flood prevention board can constantly strengthen along with the water level increases.

Optionally, an inclined strut is hinged to the end face, away from the transverse plate, of the flood prevention plate, an extension plate is hinged to the base, and one end, away from the flood prevention plate, of the inclined strut is connected to the extension plate through a bolt.

Through the technical scheme, the triangular stable structure is formed among the inclined support rods, the extension plate, the base and the flood prevention plate, so that the structural strength of the flood prevention plate and the base is enhanced, the possibility that the flood prevention plate and the base topple under the action of water pressure is reduced, and the stability of the flood prevention wall is enhanced; meanwhile, the diagonal rods can be detached from the extension plate in a bolt detaching mode by workers, so that the flood prevention plate can be detached from the base by the workers to be respectively stored, and the storage space is saved.

Optionally, a plurality of annular grooves are formed in the extending plate along the periphery, rubber rings partially extending out of the annular grooves are respectively arranged in the annular grooves, and the rubber rings are tightly abutted to the ground.

Through the technical scheme, the rubber ring increases the frictional resistance between the extension plate and the ground, and reduces the possibility that the base deflects towards the direction of the extension plate under the action of water pressure, so that the stability of the flood prevention wall is further enhanced.

Optionally, the base is provided with a plurality of extending grooves matched with the extending plates; when the extension plate rotates into the extension groove along the hinged part, the rubber ring is tightly propped against the groove wall of the extension groove.

Through the technical scheme, after the flood prevention plate is detached from the base by workers, the rotatable extension plate is clamped in the extension groove, and the extension plate is not easy to separate from the extension groove in a rotating mode under the limitation of the rubber ring, so that the effect of stably accommodating the extension plate is achieved, and the accommodating space of the base is saved.

Optionally, a plurality of supporting blocks are arranged on the end face, facing the diagonal brace, of the flood prevention plate, diagonal brace grooves matched with the diagonal brace are formed in the end faces, facing away from the flood prevention plate, of the supporting blocks, and second rubber pads are arranged on the groove walls of the diagonal brace grooves; when the inclined strut rotates towards the direction of the supporting block along the hinged part to be in a state parallel to the flood prevention plate, the inclined strut is inserted into the inclined strut groove and is tightly propped against the first rubber pad.

Through the technical scheme, after the flood prevention plate is detached from the base by workers, the diagonal rods can be rotated and clamped in the diagonal support grooves, and are not easy to rotate and separate from the diagonal support grooves under the limitation of the second rubber pads, so that the effect of stably accommodating the first diagonal rods is achieved, and the accommodating space of the flood prevention plate is saved.

Optionally, a plurality of push rods are hinged to the end face, away from the transverse plate, of the flood prevention plate, a push block is hinged to one end, away from the flood prevention plate, of each push rod, a plurality of fixing blocks are arranged on the base, and one end, away from each push rod, of each push block abuts against the corresponding fixing block tightly.

Through the technical scheme, the push block is difficult to continue to move in the direction away from the flood prevention plate under the limitation of the fixed block, so that the push rod can stably support the flood prevention plate; the arrangement of the push rod reduces the possibility that the flood prevention plate is bent and deformed relative to the base under the action of water pressure, so that the flood prevention plate can stably block water flow.

Optionally, the base is provided with a storage groove matched with the fixed block, the fixed block is hinged in the storage groove, the push block is inserted in the storage groove, and the fixed block is also provided with a third rubber pad; when the fixed block rotates into the accommodating groove, the third rubber pad is tightly propped against the groove wall of the accommodating groove.

Through the technical scheme, after the flood prevention plate is detached from the base by workers, the rotatable fixing block is clamped in the accommodating groove, and the fixing block is not easy to rotate away from the accommodating groove under the limitation of the third rubber pad, so that the effect of stably accommodating the fixing block in the accommodating groove is achieved, and the accommodating space of the base is further saved.

Optionally, a limiting groove which penetrates through the fourth sealing gasket and is matched with the limiting rod is formed in the end face, facing the limiting rod, of the base, and the limiting rod is hinged in the limiting groove; when the limiting rod rotates towards the direction of the limiting groove to a state parallel to the base, the limiting rod is integrally inserted in the limiting groove.

Through above-mentioned technical scheme, when meetting hard road surfaces such as concrete and lead to the gag lever post to be difficult to peg graft in the ground, the staff can rotate the gag lever post and accomodate the spacing inslot, directly supports the fourth sealed pad tightly subaerial, has reduced the damage of flood wall to hard road surfaces such as concrete to the suitability of flood wall has been promoted.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the baffle plates and the base which form the flood control wall are mutually inserted, so that the flood control wall can be quickly installed in place during emergency flood control; after the flood situation is over, workers can detach the flood prevention plate and the base in a mode of detaching the steel cable ties and then pulling the flood prevention plate out of the base, so that the flood prevention wall can be reused, and the flood prevention wall is energy-saving and environment-friendly;

2. a triangular stable structure is formed among the diagonal brace, the extension plate, the base and the flood prevention plate, so that the structural strength of the flood prevention plate and the base is enhanced, the possibility that the flood prevention plate and the base topple under the action of water pressure is reduced, and the stability of the flood prevention wall is enhanced.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic cross-sectional structure diagram for embodying a fixing column according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram for embodying the positioning groove in the embodiment of the present application.

Fig. 4 is an enlarged schematic view at a in fig. 3.

Reference numerals: 1. a base; 2. flood prevention plates; 3. a card slot; 4. a first gasket; 5. fixing grooves; 6. fixing the rod; 7. a fastening rod; 8. a steel band; 9. a second gasket; 10. a third gasket; 11. a limiting rod; 12. a fourth gasket; 13. a positioning column; 14. positioning a groove; 15. a transverse plate; 16. a first rubber pad; 17. a diagonal brace; 18. an extension plate; 19. an annular groove; 20. a rubber ring; 21. an extension groove; 22. a support block; 23. a diagonal bracing slot; 24. a second rubber pad; 25. a push rod; 26. a push block; 27. a fixed block; 28. a receiving groove; 29. a third rubber pad; 30. a limiting groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an energy-saving environment-friendly assembled flood control wall.

As shown in fig. 1 and 2, the flood prevention plate comprises a plurality of bases 1 and a plurality of flood prevention plates 2 matched with the bases 1, the length of each base 1 is equal to that of each flood prevention plate 2, a clamping groove 3 matched with each flood prevention plate 2 is formed in each base 1 in the vertical direction, the bases 1 extend out of two ends of each clamping groove 3, a first sealing gasket 4 made of rubber is bonded in each clamping groove 3, a fixing groove 5 penetrating through a first rubber gasket 16 is formed in the bottom of each clamping groove 3 in the vertical direction, a plurality of fixing rods 6 matched with the fixing grooves 5 are fixedly arranged on the end face, facing the base 1, of each flood prevention plate 2, when the fixing rods 6 on each flood prevention plate 2 are correspondingly inserted into the fixing grooves 5, each flood prevention plate 2 is correspondingly inserted into each clamping groove 3, the outer edge of each flood prevention plate contacts with the groove wall of each clamping groove 3, and each first sealing gasket 4 tightly supports against each flood prevention plate 2 under the self gravity of each flood prevention plate.

As shown in fig. 1, two end faces of a base 1 along the length direction of the base are respectively bonded with a second sealing gasket 9 made of rubber, two end faces of a flood prevention plate 2 along the length direction of the base are respectively bonded with a third sealing gasket 10 made of rubber, the end face of the flood prevention plate 2 departing from a water body is fixedly connected with a plurality of fastening rods 7, the fastening rods 7 are respectively located at two ends of the flood prevention plate 2 along the length direction of the flood prevention plate, two fastening rods 7 located at the same height between two adjacent flood prevention plates 2 are tightly wound with a steel ribbon 8, under the tensile force action of the steel ribbon 8, the second sealing gasket 9 is tightly abutted between the two adjacent bases 1 to seal a connecting gap between the bases 1, and the third sealing gasket 10 is tightly abutted between the two adjacent flood prevention plates 2 to seal a connecting gap between the flood prevention plates 2.

As shown in fig. 1 and 2, a fourth sealing gasket 12 made of rubber is bonded on an end surface of the base 1 departing from the clamping groove 3, a plurality of limiting grooves 30 penetrating through the fourth sealing gasket 12 simultaneously are further formed in the base 1 along the vertical direction, limiting rods 11 are respectively hinged in the plurality of limiting grooves 30, one ends of the limiting rods 11 far away from the hinged parts are set to be taper-shaped, the base 1 can be connected with the ground in an inserting manner by inserting the limiting rods 11 into the ground, the fourth sealing gasket 12 is abutted against the ground, meanwhile, the limiting rods 11 can be rotatably accommodated in the limiting grooves 30, and then the base 1 is directly erected on hard roads such as concrete roads; the fourth sealing gasket 12 is tightly pressed against the ground under the pressure action of the base 1 and the flood prevention plate 2 to seal the bottom of the base 1, so that the base 1 and the flood prevention plate 2 can stably block a water body; the bases 1 and the flood control plates 2 forming the flood control wall are connected in an inserted manner, the adjacent flood control plates 2 are tightly connected in a drawing-close manner through steel ties 8, and the adjacent bases 1 are tightly abutted with each other under the driving of the flood control plates 2, so that the flood control wall can be quickly installed when needed; and after the flood situation is finished, the worker can cut off the steel bandage 8, and then the flood prevention wall is dismantled in a mode of detaching the flood prevention plate 2 from the base 1, so that the flood prevention wall can be reused, and the method is energy-saving and environment-friendly.

As shown in fig. 1 and fig. 3, two positioning columns 13 are fixedly arranged on one end face of the base 1 along the length direction of the base, the two positioning columns 13 are arranged along the horizontal direction, two positioning grooves 14 matched with the positioning columns 13 are correspondingly arranged on the end face of the base 1 departing from the positioning columns 13, and when the positioning columns 13 on one base 1 are correspondingly inserted into the positioning grooves 14 on the adjacent bases 1, the clamping grooves 3 on the two bases 1 are aligned with each other. Therefore, the positioning columns 13 and the positioning grooves 14 have the function of indicating and positioning, so that workers can quickly install the base 1 according to the indication of the positioning columns 13 and the positioning grooves 14, and the efficiency of installing the flood control wall by the workers is improved; meanwhile, under the limitation of the positioning columns 13, the two adjacent bases 1 are not prone to moving and misplacing under the action of external force, so that the connection strength among the bases 1 is enhanced, and the stability of the flood control wall is enhanced.

As shown in fig. 1, a transverse plate 15 is fixedly arranged on the end surface of the flood prevention plate 2 facing the water body along the horizontal direction, a first rubber pad 16 is bonded on the end surface of the transverse plate 15 facing the base 1, and when the flood prevention plate 2 is correspondingly inserted into the clamping groove 3, the first rubber pad 16 is tightly abutted between the transverse plate 15 and the base 1. Therefore, when the water level of the water body blocked by the flood prevention plate 2 submerges the cross plate 15, the cross plate 15 can drive the flood prevention plate 2 to move downwards together under the pressure of the water body above, so that the first rubber gasket 16, the first sealing gasket 4 and the fourth sealing gasket 12 can be further extruded and contracted under the pressure of the cross plate 15 and the flood prevention plate 2, the sealing performance between the flood prevention plate 2 and the base 1 and between the base 1 and the ground is further improved, the possibility of water leakage of the flood prevention wall under the pressure action of high water level when the water level is heightened is reduced, and the sealing performance of the flood prevention wall is enhanced; and along with the continuous increase of water level, the water pressure that diaphragm 15 received also can increase thereupon, and the leakproofness between flood prevention board 2 and base 1 to and between base 1 and the ground can be along with the increase of water level and continuously strengthened, and the sealing performance of flood prevention wall can be along with the automatic enhancement of water level increase promptly.

As shown in fig. 3, an inclined strut 17 is hinged to an end face of the flood prevention plate 2, which is far away from the transverse plate 15, an extension groove 21 is formed in the end face of the base 1, which is far away from the transverse plate 15, in the vertical direction, an extension plate 18 matched with the extension groove 21 is hinged to the extension groove 21, one end of the inclined strut 17, which is far away from the flood prevention plate 2, is connected to an end portion, which is far away from the base 1, of the extension plate 18 through a bolt, and a right triangle stable structure is formed among the flood prevention plate 2, the base 1, the inclined strut 17. Therefore, under the limitation of the extension plate 18, the diagonal brace 17 can stably support the flood prevention plate 2, so that the possibility that the flood prevention plate 2 drives the base 1 to tilt backwards under the action of water pressure is reduced, and the stability of the flood prevention plate 2 and the base 1 is enhanced.

As shown in fig. 3, a plurality of annular grooves 19 are uniformly formed in the outer edge of the extension plate 18, rubber rings 20 which are matched with the annular grooves 19 and partially extend out of the annular grooves 19 are respectively bonded in the annular grooves 19, the outer edge of each rubber ring 20 is in contact with the groove wall of the annular groove 19, and the part of each rubber ring 20 extending out of the annular groove 19 is tightly pressed against the ground under the pressure action of the extension plate 18; the arrangement of the rubber ring 20 increases the friction force between the extension plate 18 and the ground, and reduces the possibility that the base 1 drives the extension plate 18 to move under the impact of water flow, thereby further enhancing the stability of the base 1; meanwhile, with the increasing of the water level, the pressure of the water above the transverse plate 15 is also transmitted to the extension plate 18, so that the pressure between the extension plate 18 and the rubber ring 20 is increased, the frictional resistance between the extension plate 18 and the ground is further improved, and the stability of the base 1 is also automatically enhanced with the increasing of the water level.

As shown in fig. 3, when the extension plate 18 rotates along the hinge toward the base 1 to a state parallel to the flood prevention plate 2, the extension plate 18 is inserted into the extension groove 21 and the rubber ring 20 abuts against the groove wall of the extension groove 21; the end face, facing the diagonal brace 17, of the flood prevention plate 2 is also fixedly connected with a plurality of supporting blocks 22, one end, facing the base 1, of each supporting block 22 is in contact with the upper end face of the base 1, the supporting blocks 22 strengthen the structural strength of the flood prevention plate 2, and the possibility that the flood prevention plate 2 is bent and deformed under the action of water body pressure is reduced, so that the flood prevention plate 2 can stably block water bodies; the end face, away from the flood prevention plate 2, of the support block 22 is provided with an inclined strut groove 23 matched with the inclined strut 17, two groove walls of the inclined strut groove 23 in the width direction of the inclined strut groove 23 are respectively bonded with a second rubber pad 24, and when the inclined strut 17 rotates towards the direction of the base 1 along the hinged part to be in a state parallel to the flood prevention plate 2, the inclined strut 17 is correspondingly inserted into the inclined strut groove 23 and is mutually abutted against the second rubber pads 24. Therefore, after the flood season is over, the staff can firstly detach the inclined strut 17 from the extension plate 18 through the bolts, then detach the flood prevention plate 2 from the base 1, rotate the inclined strut 17 to be tightly abutted and accommodated in the inclined strut groove 23, and rotate the extension plate 18 to be tightly abutted and accommodated in the extension groove 21, so that the accommodating space of the flood prevention plate 2 and the base 1 is reduced.

As shown in fig. 3 and 4, a plurality of push rods 25 are further hinged to the end surface of the flood prevention plate 2 away from the transverse plate 15, the push rods 25 and the inclined stay bars 17 are arranged in a staggered manner, and the push rods 25 have a storage structure identical to that of the inclined stay bars 17, so that the push rods 25 can be stably stored in the flood prevention plate 2 after the flood prevention plate 2 is detached; the end, far away from the flood control plate 2, of the push rod 25 is hinged with a push block 26, the end face, facing the push rod 25, of the base 1 is provided with an accommodating groove 28 matched with the push block 26, the push block 26 abuts against the inside of the accommodating groove 28, the outer edge of the push block contacts with the groove wall of the accommodating groove 28, the end, far away from the flood control plate 2, of the accommodating groove 28 is hinged with a fixed block 27 matched with the accommodating groove 28, the two sides of the fixed block 27 in the width direction of the fixed block are respectively provided with a third rubber pad 29, the third rubber pads 29 abut against the groove wall of the accommodating groove 28, the fixed block 27 is in an upright state with a part extending out of the accommodating groove 28 in an initial state, and the end, far away from the push rod. Therefore, under the restriction of the fixing block 27, the push block 26 is difficult to continue to move in the direction away from the flood prevention plate 2, and under the restriction of the accommodating groove 28, the push block 26 is difficult to laterally shift, so that the push rod 25 can stably support the flood prevention plate 2, the possibility of bending deformation of the flood prevention plate 2 under the action of water pressure is reduced, and the stability of the flood prevention plate 2 is further enhanced.

The implementation principle of the embodiment of the application is as follows: after the flood season is over, workers can firstly cut off the steel bandages 8, then detach the inclined stay bars 17 from the extension plates 18 through bolts, lift the flood prevention plates 2 up and detach the flood prevention plates from the base 1, and respectively rotate the inclined stay bars 17 and the push rods 25 to store the inclined stay bars and the push rods on the flood prevention plates 2; the extension plate 18 and the limiting rod 11 are respectively rotated to be stored on the base 1, so that the storage space of the base 1 and the flood prevention plate 2 is reduced, and workers can conveniently store and transport the base 1 and the flood prevention plate 2 respectively; meanwhile, the base 1 and the flood prevention plates 2 can be assembled again, so that the flood prevention wall can be reused, and the flood prevention wall is energy-saving and environment-friendly.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective type assembled flood prevention wall which characterized in that: the flood prevention plate comprises a plurality of bases (1) and a plurality of flood prevention plates (2) matched with the bases (1), wherein the bases (1) are provided with clamping grooves (3) matched with the flood prevention plates (2), first sealing gaskets (4) are arranged in the clamping grooves (3), fixing grooves (5) penetrating through the first sealing gaskets (4) are further formed in the clamping grooves (3), a plurality of fixing rods (6) matched with the fixing grooves (5) are arranged on the flood prevention plates (2), the flood prevention plates (2) are correspondingly inserted in the clamping grooves (3), the fixing rods (6) are correspondingly inserted in the fixing grooves (5), the first sealing gaskets (4) are tightly abutted against the flood prevention plates (2), a plurality of fastening rods (7) are further arranged on the flood prevention plates (2), and steel ties (8) are tightly wound on the two fastening rods (7) which are located at the same height between every two adjacent flood prevention plates (2), be equipped with the sealed pad of second (9) on the terminal surface of base (1), be equipped with the sealed pad of third (10) on the terminal surface of flood prevention board (2), the sealed pad of second (9) supports tightly between two adjacent bases (1), the sealed pad of third (10) supports tightly between two adjacent flood prevention boards (2), still be equipped with gag lever post (11) on the terminal surface that base (1) deviates from flood prevention board (2), still be equipped with the sealed pad of fourth (12) on base (1), gag lever post (11) are pegged graft subaerial just the sealed pad of fourth (12) is supported tightly between base (1) and ground.

2. The energy-saving environment-friendly fabricated flood control wall according to claim 1, is characterized in that: two positioning columns (13) are arranged at one end of the base (1) along the length of the base, and two positioning grooves (14) matched with the positioning columns (13) are correspondingly formed in the end face of the base (1) deviating from the positioning columns (13); when the positioning column (13) on one of the bases (1) is correspondingly inserted into the positioning groove (14) on the adjacent base (1), the clamping grooves (3) on the two bases (1) are aligned with each other.

3. The energy-saving environment-friendly fabricated flood control wall according to claim 1, is characterized in that: still be equipped with diaphragm (15) on flood prevention board (2), be equipped with first rubber pad (16) on diaphragm (15) the terminal surface towards base (1), first rubber pad (16) support tightly between diaphragm (15) and base (1).

4. The energy-saving environment-friendly assembled flood prevention wall according to claim 3, is characterized in that: an inclined stay bar (17) is hinged to the end face, deviating from the transverse plate (15), of the flood prevention plate (2), an extension plate (18) is hinged to the base (1), and one end, far away from the flood prevention plate (2), of the inclined stay bar (17) is connected to the extension plate (18) through a bolt.

5. The energy-saving environment-friendly assembled flood prevention wall according to claim 4, is characterized in that: a plurality of annular grooves (19) are formed in the extending plate (18) along the periphery, rubber rings (20) partially extending out of the annular grooves (19) are arranged in the annular grooves (19), and the rubber rings (20) are tightly abutted to the ground.

6. The energy-saving environment-friendly assembled flood prevention wall according to claim 5, is characterized in that: a plurality of extension grooves (21) matched with the extension plates (18) are formed in the base (1); when the extension plate (18) rotates into the extension groove (21) along the hinge joint, the rubber ring (20) abuts against the groove wall of the extension groove (21).

7. The energy-saving environment-friendly assembled flood prevention wall according to claim 4, is characterized in that: a plurality of supporting blocks (22) are arranged on the end face, facing the diagonal brace (17), of the flood prevention plate (2), diagonal brace grooves (23) matched with the diagonal brace (17) are formed in the end faces, facing away from the flood prevention plate (2), of the supporting blocks (22), and second rubber pads (24) are arranged on the groove walls of the diagonal brace grooves (23); when the inclined strut (17) rotates along the direction of the hinge joint towards the supporting block (22) to a state parallel to the flood prevention plate (2), the inclined strut (17) is inserted in the inclined strut groove (23) and the inclined strut (17) is tightly abutted to the first rubber pad (16).

8. The energy-saving environment-friendly fabricated flood control wall according to claim 2, is characterized in that: still articulated on the terminal surface that flood prevention board (2) deviate from diaphragm (15) have a plurality of push rods (25), the one end that flood prevention board (2) were kept away from in push rod (25) articulates there is ejector pad (26), be equipped with a plurality of fixed blocks (27) on base (1), the one end that push rod (25) were kept away from in ejector pad (26) supports tightly on fixed block (27).

9. The energy-saving environment-friendly fabricated flood control wall according to claim 8, is characterized in that: the base (1) is provided with a containing groove (28) matched with the fixed block (27), the fixed block (27) is hinged in the containing groove (28), the push block (26) is inserted in the containing groove (28), and the fixed block (27) is also provided with a third rubber pad (29); when the fixed block (27) rotates into the accommodating groove (28), the third rubber pad (29) is tightly propped against the wall of the accommodating groove (28).

10. The energy-saving environment-friendly fabricated flood control wall according to claim 1, is characterized in that: a limiting groove (30) which penetrates through the fourth sealing gasket (12) and is matched with the limiting rod (11) is formed in the end face, facing the limiting rod (11), of the base (1), and the limiting rod (11) is hinged in the limiting groove (30); when the limiting rod (11) rotates towards the direction of the limiting groove (30) to a state parallel to the base (1), the limiting rod (11) is integrally inserted in the limiting groove (30).

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