CN109750635B - Ecological retaining wall structure that combines together with stereoplasm - Google Patents

Abstract

The invention discloses a retaining wall structure combining ecology and hardness, and relates to the field of river channel treatment. The retaining wall structure comprises a plurality of wall bodies which are sequentially spliced, wherein the upper end surface of each wall body is provided with a groove, the grooves are arranged along the length direction of the wall body, and the outer wall of the upper end of each wall body is provided with a row of water inlets communicated with the upper ends of the grooves; the wall body is internally provided with a water storage cavity below the groove, a plurality of through holes communicated with the water storage cavity are uniformly distributed on the bottom wall of the groove, a water absorption rope is embedded in each through hole, the upper end of each water absorption rope is located in the groove, and the lower end face of each water absorption rope is abutted against the bottom wall of the water storage cavity. The invention has the following advantages and effects: through planting the vegetation on the wall body to through the cooperation of water inlet and water absorption rope, realize the automatic watering of vegetation, continuously provide moisture for vegetation, maintained the material exchange between soil and the water, make the river course possess the vitality, maintain ecological environment's stability, reach the effect of protection ecological environment.

Description

Ecological retaining wall structure that combines together with stereoplasm

Technical Field

The invention relates to the field of river regulation, in particular to a retaining wall structure combining ecology and hardness.

Background

In urban river channel treatment, retaining walls are usually required to be arranged at the side slopes of the river channel to prevent the foundation on the two banks of the river channel from collapsing under the action of water flow scouring, so that serious consequences such as road interruption and building damage are caused.

Chinese patent CN205348098U discloses a retaining wall structure for river course, which comprises a first retaining wall main body formed by at least stacking gabions, wherein each gabion comprises a cage body, block-shaped materials filled in the cage body and a cementing material filled in the cage body, and the cementing material at least fills gaps between adjacent block-shaped materials to bond the block-shaped materials in the cage body into an integral structure.

The retaining wall structure utilizes the gabion filled with the gelled materials to block the impact of water flow so as to avoid the base collapse of the two banks of the river channel. But the retaining wall structure neglects the damage to the environment, reduces the material exchange between the soil and the water body, leads the originally vigorous river channel to lose the vitality, leads the plant to grow difficultly and destroys the ecological environment.

Disclosure of Invention

The invention aims to provide a retaining wall structure combining ecology and hardness, which has the effect of protecting the ecological environment.

The technical purpose of the invention is realized by the following technical scheme: the ecological and hard combined retaining wall structure comprises a plurality of wall bodies which are sequentially spliced, wherein a groove is formed in the upper end face of each wall body, the groove is formed in the length direction of each wall body, and a row of water inlets communicated with the upper ends of the grooves are formed in the outer wall of the upper end of each wall body; the wall body is internally provided with a water storage cavity below the groove, a plurality of through holes communicated with the water storage cavity are uniformly distributed on the bottom wall of the groove, a water absorption rope is embedded in each through hole, the upper end of the water absorption rope is positioned in the groove, and the lower end face of the water absorption rope is abutted against the bottom wall of the water storage cavity.

Through adopting above-mentioned technical scheme, when building above-mentioned barricade structure, splice together the polylith wall body in proper order, then make the wall body have one side of water inlet towards the upper reaches of river course, then pack soil in the recess, plant the vegetation in the recess at last. When the river course rises, the water level rises gradually, and when the water level rose to the water inlet position, the river water utilized the river water to water the vegetation in along the water inlet entering recess this moment to unnecessary water flows to retaining the intracavity along through-hole and water uptake rope, stores water. When the plant needs moisture, the capillary phenomenon principle of the water absorption rope is utilized to absorb the water into the groove again, and the water is continuously supplied to the plant for growth. Therefore, the material exchange between the soil and the water body is maintained, the riverway has vitality, the stability of the ecological environment is maintained, and the effect of protecting the ecological environment is achieved.

The invention is further provided with: and a water outlet is formed in one end of the wall body, which is far away from the water inlet, and is communicated with the upper end of the water storage cavity.

By adopting the technical scheme, when the water level in the water storage cavity rises to the position of the water outlet, river water is discharged along the water outlet; and stopping water discharge until the water level is lower than the water discharge port. Thereby discharge unnecessary water through setting up the outlet, avoid retaining the intracavity water level too high and lead to the vegetation to appear rotten root phenomenon.

The invention is further provided with: and a sealing plate for covering the water outlet is arranged on the outer wall of the wall body, and the upper end of the sealing plate is hinged to the outer wall of the wall body.

Through adopting above-mentioned technical scheme, when retaining intracavity water level rose to the outlet position, the tension of river promoted the closing plate and upwards overturned along articulated department, and the outlet is opened this moment, and water flows along the outlet. When the water level drops to the lower end of the water outlet, the sealing plate turns downwards and gradually covers the water outlet, so that the water storage tank is sealed, and evaporation waste of water is reduced.

The invention is further provided with: the wall body is close to the inside rectangular shape sliding hole that is provided with of one side of water inlet, the sliding hole communicate in the water inlet, the vertical sliding connection in the sliding hole has the sliding plate, run through on the sliding plate have a plurality of respectively communicate the connecting hole of water inlet, the lower terminal surface of sliding plate evenly is provided with a plurality of reset spring that are fixed in the sliding hole diapire, be provided with on the wall body and be used for the drive the gliding drive division of sliding plate from top to bottom.

Through adopting above-mentioned technical scheme, when needs irrigate the vegetation in the recess, utilize drive division drive sliding plate upward movement, sliding plate pulling reset spring extension this moment, connecting hole on the sliding plate communicates the water inlet gradually simultaneously. When the water inlet is communicated with the connecting hole, river water can flow into the groove along the water inlet and irrigate along with the vegetation. When irrigation of vegetation is not required, the drive is released, at which time the return spring retracts and drives the slide plate downward. Until the sealing plate seals the water outlet, the river water can not enter the groove. Therefore, the watering times of the plants can be controlled according to the growth habits and water requirements of the plants, the root rot phenomenon of the plants caused by excessive watering times can be avoided, and the stability of the ecological environment can be maintained.

The invention is further provided with: the connecting holes are arranged in a strip shape and are arranged in a gradually expanding shape from top to bottom.

Through adopting above-mentioned technical scheme, when the connecting hole intercommunication water inlet, river discharges into in the recess along water inlet and connecting hole. When the water inflow in the groove is adjusted according to the demand of vegetation, the driving part is utilized to drive the sliding plate to move upwards or downwards, and the communication area of the water inlet and the connecting hole is gradually increased or reduced, so that the water inflow of the water inlet is gradually increased or reduced, and the control of the water inflow is realized. Therefore, the water inlet quantity of the water inlet can be controlled according to the requirements of the plants, the root rot phenomenon of the plants is avoided, and the stability of the ecological environment is further maintained.

The invention is further provided with: the driving part comprises a limiting rod vertically arranged on the upper end surface of the sliding plate, a limiting hole for the limiting rod to penetrate and slide is formed in the upper end surface of the wall body, and a driving plate is arranged at the upper end of the limiting rod; the upper end face of the wall body is provided with a pair of supporting seats, the supporting seats are distributed at two ends of the wall body, a pair of driving holes communicated with each other penetrate through the supporting seats, a pair of driving rods are rotatably connected in the driving holes, cams below the driving plates are arranged on the driving rods, and the two adjacent driving rods on the wall body are fixed together through couplers.

By adopting the technical scheme, when the sliding plate is driven to move upwards, the driving rod is rotated, the driving rod drives the cam to move synchronously, and the convex part of the cam is utilized to push the sliding plate to move upwards. When the sliding plate is driven to move downwards, the driving rod is rotated to move reversely, the driving rod drives the cam to synchronously move reversely, the convex part of the cam is gradually separated from the sliding plate, and meanwhile, the return spring is shortened and pulls the sliding plate to move downwards. The structure of the driving part is simple, and the operation is convenient, so that the up-and-down motion process of the sliding plate is easier and more convenient, and the opening and closing of the water inlet and the adjustment process of the water inflow are more convenient and faster.

The invention is further provided with: the lower end face of the driving plate is provided with a sliding groove for embedding the outer edge of the cam, and the inner walls of two sides of the sliding groove clamp two side walls of the cam.

Through adopting above-mentioned technical scheme, through setting up spout centre gripping cam, realize the spacing of cam to realize the spacing of whole drive division, increased the stability when drive division uses.

The invention is further provided with: the vertical dovetail strip that is provided with of one end lateral wall of wall body, and other end lateral wall are provided with the confession draw-in groove, the intercommunication of dovetail strip embedding the draw-in groove lower extreme just supplies the dovetail that the dovetail strip slided the embedding, the lateral wall of wall body runs through there are two rows of edges the locking hole that the direction of height of wall body set up, and two rows the locking hole distribute in the both ends of recess, it has the sticking department that is used for with adjacent two to peg graft in the locking hole the wall body is fixed in together.

Through adopting above-mentioned technical scheme, when splicing the wall body, hang up one of them wall body to make the dovetail strip of its lateral wall aim at the draw-in groove of another wall body lateral wall, then drive two blocks of wall bodies and be close to each other, make in the dovetail strip embedding draw-in groove. Then the wall bodies are driven to move downwards, at the moment, the dovetail strip is embedded into the dovetail groove in a sliding mode, then the two adjacent wall bodies are fixed together through the locking portion, and therefore the wall bodies can be spliced. The retaining wall structure is built by arranging the wall bodies convenient to splice and install, and therefore the building process of the whole retaining wall structure is easier and more convenient.

The invention is further provided with: the locking part comprises a pair of locking plates distributed on two sides of the wall body, one side, close to each other, of each locking plate is provided with a pair of locking rods, each locking rod is used for being inserted into two adjacent locking holes, close to each other, in the wall body, one end, deviating from each locking plate, of each locking rod is provided with an elastic clamping hook, and the inner walls of the two ends of each locking hole are provided with locking grooves for the elastic clamping hooks to be embedded into.

By adopting the technical scheme, when the locking part is locked, the pair of locking rods are respectively inserted into the locking holes in the two adjacent wall bodies, then the locking plates are knocked to be close to the wall bodies, and at the moment, the locking rods and the elastic clamping hooks slide along the inner wall of the locking holes. When the lockplate contradicts the wall body outer wall, the elasticity pothook moves to locking groove position to in the embedding locking groove is opened to the bullet, realize the locking of lockage portion, realize simultaneously that the locking of wall body is fixed. The locking part is simple in structure and high in stability, so that the wall body can be stably fixed together, and the use stability of the wall body is improved.

In conclusion, the invention has the following beneficial effects:

1. by planting the vegetation on the wall body and matching the water inlet and the water absorption rope, the automatic irrigation of the vegetation is realized, the water is continuously provided for the growth of plants, the material exchange between soil and a water body is maintained, the river has vitality, the stability of the ecological environment is maintained, and the effect of protecting the ecological environment is achieved;

2. the sliding plate is arranged to control the opening and closing of the water inlet, so that the watering times of the plants are controlled, the root rot phenomenon of the plants caused by excessive watering times is avoided, and the stability of the ecological environment is maintained;

3. the gradually-reduced connecting holes are arranged to control the water inflow of the water inlet, so that the root rot phenomenon of plants is further avoided, and the stability of the ecological environment is maintained;

4. the driving part with simple structure and convenient operation is arranged, so that the up-and-down movement process of the sliding plate is easier and more convenient, and the opening and closing of the water inlet and the adjustment process of the water inflow are more convenient and faster;

5. the retaining wall structure is built by arranging the wall bodies convenient to splice and install, and therefore the building process of the whole retaining wall structure is easier and more convenient.

Drawings

FIG. 1 is a schematic structural view of an embodiment;

FIG. 2 is a schematic diagram of the connection between walls according to the embodiment;

FIG. 3 is a schematic view of the connection of the locking part of the embodiment with the wall;

FIG. 4 is a schematic view of the internal structure of the wall according to the embodiment;

FIG. 5 is a schematic structural view of a drain opening and a sealing plate of the embodiment;

FIG. 6 is a schematic structural view of a sliding hole and a sliding plate according to an embodiment;

FIG. 7 is a schematic structural view of a driving section of the embodiment;

fig. 8 is a partially enlarged view of a portion a in fig. 7.

Reference numerals: 1. a wall body; 11. a dovetail strip; 12. a card slot; 13. a dovetail groove; 14. a locking hole; 15. a locking groove; 16. a water inlet; 17. a water outlet; 18. a sealing plate; 19. a limiting hole; 2. a groove; 21. a through hole; 22. a water absorption rope; 3. a locking portion; 31. a locking plate; 32. a locking lever; 33. an elastic hook; 4. a water storage cavity; 5. a slide hole; 6. a sliding plate; 61. connecting holes; 62. a return spring; 7. a drive section; 71. a limiting rod; 72. a drive plate; 73. a chute; 8. a supporting seat; 81. a drive aperture; 82. a drive rod; 83. a coupling; 84. a cam.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the retaining wall structure combining ecology and hardness comprises a plurality of wall bodies 1 which are sequentially spliced, wherein a groove 2 is formed in the upper end face of each wall body 1, the groove 2 is formed in the length direction of each wall body 1, soil is filled in each groove 2, and vegetation is planted in the soil.

When the retaining wall structure is built, the wall bodies 1 are sequentially spliced together to intercept river water in the river channel so as to prevent the bases at two sides of the river channel from collapsing. And through planting the vegetation in recess 2, when satisfying retaining wall structure, keep the vitality and the aesthetic property of river course, maintain ecological environment's stability.

As shown in fig. 1 and 2, a dovetail strip 11 is vertically arranged on a side wall of one end of the wall 1, and a slot 12 for the dovetail strip 11 to be embedded into and a dovetail groove 13 communicated with a lower end of the slot 12 are arranged on a side wall of the other end. Two rows of locking holes 14 penetrate through the side wall of the wall body 1, and the locking holes 14 are arranged along the height direction of the wall body 1 and distributed at two ends of the groove 2. The locking part 3 is inserted into the locking hole 14, and the locking part 3 is used for fixing two adjacent wall bodies 1 together.

When the wall bodies 1 are spliced, one of the wall bodies 1 is lifted, the dovetail strip 11 on the side wall of the wall body is aligned to the clamping groove 12 on the side wall of the other wall body 1, then the wall body 1 is driven to be close to the other wall body 1, and the dovetail strip 11 is embedded into the clamping groove 12.

Then the wall body 1 is driven to move downwards, the wall body 1 drives the dovetail strip 11 to slide and be embedded into the dovetail groove 13, and the lower end faces of the two wall bodies 1 are parallel and level after the dovetail strip 11 is completely embedded into the dovetail groove 13. And finally, fixing the two adjacent wall bodies 1 together by using the locking part 3, so that the wall bodies 1 can be spliced.

As shown in fig. 2 and 3, the locking portion 3 includes a pair of locking plates 31 distributed on two sides of the wall 1, one side of each locking plate 31 close to the other side is provided with a pair of locking rods 32, and the locking rods 32 are used for being inserted into the locking holes 14 on two adjacent walls 1. And one end of the locking lever 32, which is far away from the locking plate 31, is provided with an elastic hook 33, and the inner walls of the two ends of the locking hole 14 are provided with locking grooves 15 into which the elastic hooks 33 are inserted.

When the locking part 3 is installed, a pair of locking rods 32 are respectively inserted into the locking holes 14 on two adjacent wall bodies 1, then the locking plate 31 is knocked to be close to the wall body 1, at the moment, the locking plate 31 drives the locking rods 32 to move synchronously, and the locking rods 32 drive the elastic hooks 33 to slide along the inner wall of the locking holes 14.

Until locking plate 31 contradicts the wall body 1 outer wall, elasticity pothook 33 moves to locking groove 15 position just, and elasticity pothook 33 is bounced open and is imbedded in locking groove 15 this moment, realizes locking plate 31 spacing to realize locking portion 3's locking, and wall body 1's locking is fixed.

As shown in fig. 4, a water storage cavity 4 located below the groove 2 is arranged in the wall body 1, a plurality of through holes 21 communicated with the water storage cavity 4 are uniformly distributed on the bottom wall of the groove 2, a water absorption rope 22 is embedded in the through holes 21, the upper end of the water absorption rope 22 is located in the groove 2, and the lower end face of the water absorption rope abuts against the bottom wall of the water storage cavity 4.

As shown in fig. 1 and 5, the outer wall of the upper end of the wall body 1 is provided with a row of water inlets 16 communicated with the upper end of the groove 2, and the other side is provided with a water outlet 17, and the water outlet 17 is communicated with the upper end of the water storage cavity 4 (see fig. 4). The outer wall of the wall body 1 is further provided with a sealing plate 18, and the upper end of the sealing plate 18 is hinged to the outer wall of the wall body 1 and used for covering the water outlet 17.

When the river channel rises, the water level in the river channel gradually rises, and when the water level rises to the position of the water inlet 16, river water enters the groove 2 along the water inlet 16, and vegetation is automatically irrigated by the river water. After the river water continuously enters the groove 2, the redundant water flows into the water storage cavity 4 along the through hole 21 and the water absorption rope 22, and the water is stored by the water storage cavity 4.

When the water level in the water storage cavity 4 rises to the position of the water outlet 17, the tension of the river water pushes the sealing plate 18 to turn upwards along the hinged part, at the moment, the water outlet 17 is opened, and redundant water flows out along the water outlet 17. When the water is no longer drawn into the inlet 16 and the water level in the reservoir drops to the lower end of the outlet 17, the sealing plate 18 is turned down and gradually covers the outlet 17, thereby sealing the reservoir.

When the plants need water, the water in the water storage cavity 4 is sucked into the groove 2 again by utilizing the capillary phenomenon principle of the water absorption rope 22, and the vegetation is irrigated to continuously provide water for the growth of the plants. Therefore, the material exchange between the soil and the water body is maintained, the riverway has vitality, the stability of the ecological environment is maintained, and the effect of protecting the ecological environment is achieved.

As shown in fig. 1 and 6, a strip-shaped sliding hole 5 is formed in one side of the wall 1 close to the water inlet 16, the sliding hole 5 is communicated with the water inlet 16, and a sliding plate 6 is vertically and slidably connected in the sliding hole 5. A plurality of connecting holes 61 which are respectively communicated with the water inlet 16 are penetrated through the sliding plate 6, and the connecting holes 61 are arranged in a strip shape and are arranged in a gradually expanding shape from top to bottom.

As shown in fig. 1 and 6, a plurality of return springs 62 are uniformly provided on the lower end surface of the slide plate 6, the return springs 62 are tension springs, the lower ends of the return springs 62 are fixed to the bottom wall of the slide hole 5, and the wall 1 is provided with a driving portion 7 for driving the slide plate 6 to slide up and down.

When vegetation needs to be watered, the driving part 7 drives the sliding plate 6 to move upwards, and at the same time, the sliding plate 6 pulls the return spring 62 to extend, and the connecting hole 61 on the sliding plate 6 is gradually communicated with the water inlet 16. Until the water inlet 16 is communicated with the connecting hole 61, the river water can flow into the groove 2 along the water inlet 16 to water the vegetation.

When the water inflow of the water inlet 16 needs to be increased, the driving part 7 is used to continuously drive the sliding plate 6 to move upwards, and at this time, the communication area between the water inlet 16 and the connecting hole 61 is gradually increased, so that the water inflow of the water inlet 16 is gradually increased.

When the water inlet 16 needs to be lowered, the driving part 7 and the return spring 62 are used to drive the sliding plate 6 to gradually move downwards, and at this time, the communication area between the water inlet 16 and the connecting hole 61 is gradually reduced, so that the water inlet 16 is gradually lowered.

When the vegetation is not needed, the sliding plate 6 is continuously driven to move downward, and the connection hole 61 is gradually separated from the water inlet 16. Until the connecting hole 61 is completely separated from the water inlet 16, the sliding plate 6 seals the water inlet 16, and at the moment, river water does not enter the groove 2 any more, namely, the plants are not watered any more.

As shown in fig. 6 and 7, the driving part 7 includes a limiting rod 71 vertically disposed on the upper end surface of the sliding plate 6, the upper end surface of the wall 1 is provided with a limiting hole 19 for the limiting rod 71 to penetrate and slide, and the upper end of the limiting rod 71 is further provided with a driving plate 72.

As shown in fig. 7, a pair of supporting seats 8 is disposed on the upper end surface of the wall 1, the pair of supporting seats 8 are distributed at two ends of the wall 1, driving holes 81 communicated with each other penetrate through the pair of supporting seats 8, driving rods 82 are rotatably connected in the pair of driving holes 81, and the driving rods 82 on two adjacent wall 1 are fixed together through a coupling 83.

As shown in fig. 7 and 8, a cam 84 located below the drive plate 72 is provided on the drive rod 82, a slide groove 73 into which the cam 84 is inserted is provided on the lower end surface of the drive plate 72, and both side inner walls of the slide groove 73 sandwich both side outer walls of the cam 84.

When the slide plate 6 is driven to move upward, the driving lever 82 is rotated, and at this time, the driving lever 82 rotates the cam 84 in synchronization, and the convex portion of the cam 84 comes closer to the lower end surface of the driving plate 72. The slide plate 6 is pushed upward by the convex portion of the cam 84, and the opening of the water inlet 16 and the increase and adjustment of the water inflow are realized.

When the sliding plate 6 is driven to move downwards, the driving rod 82 is rotated to move reversely, at this time, the driving rod 82 drives the cam 84 to move reversely, at this time, the convex part of the cam 84 is gradually separated from the sliding plate 6, and simultaneously, the return spring 62 is shortened and pulls the sliding plate 6 to move downwards, so that the closing of the water inlet 16 and the reduction adjustment of the water inlet amount are realized.

The working principle is as follows: when the wall body 1 is used, one side with the water inlet 16 faces the upstream of a river channel, a plurality of walls are sequentially spliced together to form a whole retaining wall structure, then the groove 2 is filled with soil, and finally, vegetation is planted in the groove 2. When the water level in the river channel rises to the position of the water inlet 16, the driving part 7 is used for controlling the sliding plate 6 to move upwards or downwards, so that the opening and closing of the water inlet 16 are realized, and the vegetation is automatically irrigated by using river water. And the redundant river water flows into the water storage cavity 4 along the through hole 21 and the water absorption rope 22 at the moment, so that the river water is stored. When the plants need water, the water is sucked into the groove 2 again by utilizing the capillary phenomenon principle of the water sucking rope 22, so that the water is continuously supplied to the growth of the plants, and the normal growth of the vegetation is maintained.

The specific embodiments are only for explaining the present invention, and the present invention is not limited thereto, and those skilled in the art can make modifications without inventive contribution to the present embodiments as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (3)

1. The utility model provides a retaining wall structure that ecology and stereoplasm combined together, includes wall body (1) that the polylith concatenation formed in proper order, its characterized in that: a groove (2) is formed in the upper end face of the wall body (1), the groove (2) is formed in the length direction of the wall body (1), and a row of water inlets (16) communicated with the upper end of the groove (2) are formed in the outer wall of the upper end of the wall body (1); a water storage cavity (4) positioned below the groove (2) is formed in the wall body (1), a plurality of through holes (21) communicated with the water storage cavity (4) are uniformly distributed in the bottom wall of the groove (2), a water absorption rope (22) is embedded in each through hole (21), the upper end of each water absorption rope (22) is positioned in the groove (2), and the lower end face of each water absorption rope is abutted against the bottom wall of the water storage cavity (4); a strip-shaped sliding hole (5) is formed in one side, close to the water inlet (16), of the wall body (1), the sliding hole (5) is communicated with the water inlet (16), a sliding plate (6) is vertically and slidably connected into the sliding hole (5), a plurality of connecting holes (61) which are respectively communicated with the water inlet (16) penetrate through the sliding plate (6), a plurality of return springs (62) fixed to the bottom wall of the sliding hole (5) are uniformly arranged on the lower end face of the sliding plate (6), and a driving part (7) used for driving the sliding plate (6) to slide up and down is arranged on the wall body (1); the connecting holes (61) are arranged in a strip shape and are arranged in a gradually expanding shape from top to bottom; the driving part (7) comprises a limiting rod (71) vertically arranged on the upper end surface of the sliding plate (6), a limiting hole (19) for the limiting rod (71) to penetrate and slide is formed in the upper end surface of the wall body (1), and a driving plate (72) is arranged at the upper end of the limiting rod (71); the upper end face of the wall body (1) is provided with a pair of supporting seats (8), the pair of supporting seats (8) are distributed at two ends of the wall body (1), driving holes (81) which are communicated with each other penetrate through the pair of supporting seats (8), a driving rod (82) is connected in the pair of driving holes (81) in a rotating mode, a cam (84) located below the driving plate (72) is arranged on the driving rod (82), and the two driving rods (82) on two adjacent wall bodies (1) are fixed together through a coupler (83); the lower end face of the driving plate (72) is provided with a sliding groove (73) for embedding the outer edge position of the cam (84), and the inner walls of two sides of the sliding groove (73) clamp two side walls of the cam (84); a water outlet (17) is formed in one end, away from the water inlet (16), of the wall body (1), and the water outlet (17) is communicated with the upper end of the water storage cavity (4); the outer wall of the wall body (1) is provided with a sealing plate (18) covering the water outlet (17), and the upper end of the sealing plate (18) is hinged to the outer wall of the wall body (1).

2. The ecological and hard combined retaining wall structure according to claim 1, wherein: the utility model discloses a wall body, including wall body (1), one end lateral wall, and the other end lateral wall is provided with confession draw-in groove (12), the intercommunication of dovetail (11) embedding draw-in groove (12) lower extreme and confession dovetail (13) that dovetail (11) slided the embedding, the lateral wall of wall body (1) runs through there are two rows of edges locking hole (14) that the direction of height of wall body (1) set up, and two rows locking hole (14) distribute in the both ends of recess (2), it has the portion of sticking (3) that are used for adjacent two to peg graft in locking hole (14) wall body (1) are fixed in together.

3. The ecological and hard combined retaining wall structure according to claim 2, wherein: locking portion (3) including a pair of distribution in locking plate (31) of wall body (1) both sides, one side that locking plate (31) are close to each other all is provided with a pair of locking lever (32), locking lever (32) are used for pegging graft adjacent two mutually close to two on wall body (1) locking hole (14), locking lever (32) deviate from the one end of locking plate (31) is provided with elasticity pothook (33), the both ends inner wall of locking hole (14) all is provided with the confession locking groove (15) of elasticity pothook (33) embedding.

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