CN113373956A - Side slope supporting equipment for water supply and drainage engineering construction and construction method thereof - Google Patents

Abstract

The invention discloses a side slope supporting device for construction of water supply and drainage engineering and a construction method thereof, relates to the field of construction of water supply and drainage engineering, and aims to solve the problem that slope soil is easy to collapse because supporting devices are not arranged on a side slope of the existing water supply and drainage engineering. The method is suitable for water conservancy ditches with different slopes and certain curvature, the application range of the method is enlarged, the construction method is simple and quick, and the construction progress of water supply and drainage engineering is accelerated.

Description

Side slope supporting equipment for water supply and drainage engineering construction and construction method thereof

Technical Field

The invention relates to the field of water supply and drainage engineering construction, in particular to a slope supporting device for water supply and drainage engineering construction and a construction method thereof.

Background

The water supply and drainage science and engineering research is the social cycle problem of water, and comprises two aspects, namely 'water supply', wherein natural water extracted from rivers and lakes is purified into tap water meeting the standard of domestic water and is delivered to thousands of households; on one hand, the sewage is drained, and used sewage and waste water are treated in a centralized way and then are discharged into rivers and lakes cleanly.

When a water channel and a river channel of water supply and drainage engineering are used in construction, because the water channel and the river channel are not protected by a side slope effectively, soil of the side slope collapses along with water flow, and a water conservancy channel of the water supply and drainage engineering breaks a bank easily, so that the side slope supporting equipment for the water supply and drainage engineering construction and the construction method thereof are provided for solving the problems.

Disclosure of Invention

The invention provides slope supporting equipment for water supply and drainage engineering construction and a construction method thereof, which solve the problem that slope soil is easy to collapse because the slope of the existing water supply and drainage engineering is not provided with the supporting equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

a side slope supporting device for water supply and drainage engineering construction comprises a supporting and protecting plate and a bottom plate, wherein a connecting structure is arranged between the supporting and protecting plate and the bottom plate, a telescopic supporting and protecting rod is hinged to one side, close to the bottom plate, of the supporting and protecting plate, and an adjusting device is arranged between the bottom end of the telescopic supporting and protecting rod and the bottom plate;

splicing mechanisms which are mutually matched are arranged on two sides of the supporting plate, and planting pits which are uniformly distributed are arranged on one side of the supporting plate, which is close to the telescopic supporting rod;

four corners of the bottom plate are provided with through holes, and inserting rods matched with the through holes are movably mounted in the through holes.

Preferably, the connecting structure comprises connecting sleeves, mounting plates and connecting pin rods, the two mounting plates which are symmetrically distributed are fixedly connected to the bottom ends of the supporting plates, the connecting sleeves which are T-shaped are fixedly connected to one side, close to the supporting plates, of the bottom plate, and the connecting pin rods are arranged between the mounting plates and the connecting sleeves.

Preferably, the adjusting device comprises a sliding groove, a sliding block, a driving plate, a limiting rod, a positioning plate, positioning teeth and a first return spring, the sliding groove is formed in the bottom plate and distributed along the length direction of the bottom plate, the sliding block is arranged in the sliding groove in a sliding mode, and the bottom end of the telescopic supporting rod extends to the inside of the sliding groove and is hinged to the top end of the sliding block.

As preferred, the mounting groove has been seted up on the top of slider, just slidable mounting has the locating plate in the mounting groove, fixedly connected with first reset spring between the bottom of locating plate and the inside of mounting groove, the top fixedly connected with gag lever post of locating plate, just the tip of gag lever post extends to the top fixedly connected with drive plate of bottom plate.

Preferably, the top end of the positioning plate is fixedly connected with two groups of positioning teeth which are symmetrically distributed, the inner wall of the top end of the bottom plate is provided with two groups of positioning grooves which are arranged along the length direction of the bottom plate, and the positioning teeth are matched with the positioning grooves.

Preferably, the top end of the bottom plate is provided with a limiting groove, the limiting groove is communicated with the sliding groove, the limiting rod is located in the limiting groove and slides, and the limiting groove is located between the two groups of positioning grooves.

As preferred, splicing mechanism includes fixed plate, rotor plate, mount pad, installation pole, the lantern ring, splice block, splice groove, movable block, activity groove and second reset spring, two splice grooves that are upper and lower symmetric distribution are seted up to one side of a backplate, just the inside of a backplate, the top that is located the splice groove sets up the activity groove rather than the intercommunication, the inside slidable mounting in activity groove has the movable block, just fixedly connected with second reset spring between the top of movable block and the inner wall in activity groove.

As preferred, the supporting plate is kept away from two fixed plates that correspond the setting with the splice groove of one side fixedly connected with of splice groove, just one side that the fixed plate kept away from the supporting plate is rotated and is installed the rotor plate, one side fixedly connected with mount pad of fixed plate is kept away from to the rotor plate, just fixed mounting has the installation pole that is the level setting on the mount pad, the tip fixedly connected with of installation pole splices the piece, just slip the cover on the body of rod of installation pole and be equipped with the lantern ring.

Preferably, the splicing blocks are arranged in a hemispherical shape, the cross section of the circumferential side wall of the lantern ring is arranged in an arc shape, and an inclined surface is arranged on one side of the movable block facing the outside of the splicing groove.

A construction method of slope supporting equipment for water supply and drainage engineering construction comprises the following steps:

s1, preparing supporting and protecting plates, bottom plates and telescopic supporting and protecting rods with corresponding quantity, fixing the bottom plates at the bottoms of the river channels of the water supply and drainage engineering through four inserting rods, and reserving a distance between the bottom plates and the side slope to be larger than the width of the supporting and protecting plates when the bottom plates are installed;

s2, aligning the mounting plate at the bottom end of the supporting and protecting plate with the connecting sleeve, and inserting the connecting pin rod between the mounting plate and the connecting sleeve;

s3, respectively installing the two ends of the telescopic supporting and protecting rod on the supporting and protecting plate and the hinged shaft at the top end of the sliding block in the bottom plate;

s4, adjusting the position of the bottom end of the telescopic supporting rod on the bottom plate according to an adjusting device arranged between the bottom plate and the telescopic supporting rod, so as to achieve the purpose of adjusting the inclination angle of the supporting plate and the bottom plate, and enable the back surface of the supporting plate to cling to the side slope of a ditch of a water supply and drainage project;

and S5, finally, according to the length of the side slope, splicing and installing the supporting plates through the splicing mechanisms arranged on the supporting plates.

The invention has the beneficial effects that:

1. through set up flexible fender pole between supporting plate and bottom plate to set up the adjusting device who matches with flexible fender pole on the bottom plate, thereby can effectually adjust the extreme point position that flexible fender pole is located the bottom plate, and then adjust the angle between supporting plate and the bottom plate, make it can be applicable to the water supply and drainage engineering side slope of different slopes and strut.

2. Through the splicing mechanism who sets up mutual matching in the both sides of strutted board to the operation is dismantled in convenient comparatively quick installation to two adjacent strutted boards, is favorable to accelerating the construction progress of water supply and drainage engineering, and sets up through the rotation of fixed plate and rotor plate, makes it can be applicable to the water conservancy irrigation canals and ditches that have certain camber, has increased the device's application scope.

In conclusion, the slope supporting equipment for water supply and drainage engineering construction can be suitable for water conservancy ditches with different gradients and certain curvature, the application range of the slope supporting equipment is enlarged, the construction method is simple and rapid, and the construction progress of the water supply and drainage engineering is accelerated.

Drawings

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

FIG. 2 is an enlarged schematic view of A of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of B of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the backside structure of the present invention;

FIG. 5 is an enlarged view of C in FIG. 4 according to the present invention;

FIG. 6 is an internal cross-sectional view of the base plate of the present invention;

FIG. 7 is an enlarged view of D in the boss 6 according to the present invention;

FIG. 8 is a half bottom cut-away view of the base plate of the present invention;

FIG. 9 is an enlarged view of E at 9 in FIG. 8 according to the present invention;

FIG. 10 is a schematic view of the internal structure of the splice tray of the present invention;

FIG. 11 is an enlarged view of F of FIG. 10 according to the present invention;

fig. 12 is a schematic diagram of the splicing structure of the supporting plate of the invention.

Reference numbers in the figures: 1. supporting the guard plate; 2. a base plate; 3. a telescopic support rod; 4. inserting a rod; 5. planting pits; 6. a limiting groove; 7. a drive plate; 8. a limiting rod; 9. positioning a plate; 10. a fixing plate; 11. a rotating plate; 12. a mounting seat; 13. mounting a rod; 14. a collar; 15. splicing blocks; 16. splicing grooves; 17. a movable block; 18. connecting a sleeve; 19. mounting a plate; 20. a connecting pin rod; 21. a chute; 22. a slider; 23. mounting grooves; 24. a first return spring; 25. positioning teeth; 26. positioning a groove; 27. a movable groove; 28. a second return spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 4 and 5, the slope supporting equipment for water supply and drainage engineering construction comprises a supporting plate 1 and a bottom plate 2, wherein a connecting structure is arranged between the supporting plate 1 and the bottom plate 2;

the connecting structure comprises a connecting sleeve 18, a mounting plate 19 and a connecting pin rod 20, the two mounting plates 19 which are symmetrically distributed are fixedly connected to the bottom end of the supporting plate 1, the connecting sleeve 18 which is T-shaped is fixedly connected to one side, close to the supporting plate 1, of the bottom plate 2, and the connecting pin rod 20 is arranged between the mounting plates 19 and the connecting sleeve 18.

The base plate 2 and the support shield 1 are mounted by aligning the mounting plate 19 with the connection sleeve 18 and then inserting the indirect pin 20 between the mounting plate 19 and the connection sleeve 18.

Referring to fig. 1, 2, 4 and 6-9, four corners of a bottom plate 2 are provided with through holes, inserting rods 4 matched with the through holes are movably arranged in the through holes, one side of a supporting plate 1 close to the bottom plate 2 is hinged with a telescopic supporting rod 3, and an adjusting device is arranged between the bottom end of the telescopic supporting rod 3 and the bottom plate 2;

the adjusting device comprises a chute 21, a sliding block 22, a driving plate 7, a limiting rod 8, a positioning plate 9, positioning teeth 25 and a first return spring 24, the chute 21 distributed along the length direction is arranged inside the bottom plate 2, the sliding block 22 is arranged in the chute 21 in a sliding manner, the bottom end of the telescopic supporting rod 3 extends into the chute 21 and is hinged with the top end of the sliding block 22, a mounting groove 23 is formed in the top end of the sliding block 22, the positioning plate 9 is arranged in the mounting groove 23 in a sliding manner, the first return spring 24 is fixedly connected between the bottom end of the positioning plate 9 and the inside of the mounting groove 23, the top end of the positioning plate 9 is fixedly connected with the limiting rod 8, the end part of the limiting rod 8 extends to the upper part of the bottom plate 2 and is fixedly connected with the driving plate 7, the top end of the positioning plate 9 is fixedly connected with two groups of symmetrically distributed positioning teeth 25, and the inner wall of the top end of the bottom plate 2 is provided with two groups of positioning grooves 26 arranged along the length direction, and the positioning teeth 25 are matched with the positioning grooves 26, the top end of the bottom plate 2 is provided with a limiting groove 6, the limiting groove 6 is communicated with the sliding groove 21, the limiting rod 8 is positioned in the limiting groove 6 to slide, and the limiting groove 6 is positioned between the two groups of positioning grooves 26.

After the installation operation of the support guard plate 1, the bottom plate 2 and the telescopic support rod 3 is completed, the angle between the support guard plate 1 and the bottom plate 2 needs to be adjusted to be attached to the slope of a ditch of a water supply and drainage engineering, the drive plate 7 is firstly pressed to enable the drive plate 7 to push the limiting rod 8, the limiting rod 8 pushes the positioning plate 9, the positioning rod 9 extrudes the first reset spring 24, the positioning rod 9 drives the positioning teeth 25 to be separated from the inside of the positioning groove 26 on the inner wall of the top end of the bottom plate 2, then the drive plate 7 can be pushed to enable the drive plate 7 to drive the limiting rod 8 to slide in the limiting groove 6, the positioning plate 9 is driven at the same time, the positioning plate 9 drives the sliding block 22 to slide in the sliding groove 21, the sliding block 22 drives the telescopic support guard rod 3 to enable the telescopic support guard rod 3 to drive the support guard plate 1 to rotate around the bottom plate 2, so that the angle between the support guard plate 1 and the bottom plate 2 can be adjusted until the support guard plate 1 is attached to the slope, at this moment, the driving plate 7 is loosened, the first return spring 24 reversely pushes the positioning plate 9, and the positioning plate 9 drives the positioning teeth 25 to be clamped inside the positioning grooves 26, so that the device is integrally fixed.

Example two

Referring to fig. 1, fig. 3, fig. 4 and fig. 10-12, splicing mechanisms which are mutually matched are arranged on two sides of a supporting plate 1, planting pits 5 which are uniformly distributed are arranged on one side, close to a telescopic supporting rod 3, of the supporting plate 1, each splicing mechanism comprises a fixed plate 10, a rotating plate 11, a mounting seat 12, a mounting rod 13, a lantern ring 14, splicing blocks 15, splicing grooves 16, a movable block 17, a movable groove 27 and a second reset spring 28, the two splicing grooves 16 which are symmetrically distributed vertically are formed in one side of the supporting plate 1, the movable groove 27 communicated with the splicing grooves 16 is formed in the supporting plate 1 and located above the splicing grooves 16, the movable block 17 is slidably mounted inside the movable groove 27, and the second reset spring 28 is fixedly connected between the top end of the movable block 17 and the inner wall of the movable groove 27.

Two fixed plates 10 that correspond the setting with splice groove 16 of one side fixedly connected with that splice groove 16 was kept away from to a backplate 1, and one side that fixed plate 10 kept away from a backplate 1 rotates and installs rotor plate 11, one side fixedly connected with mount pad 12 that fixed plate 10 was kept away from to rotor plate 11, and fixed mounting has the installation pole 13 that is the level setting on the mount pad 12, the tip fixedly connected with of installation pole 13 splices piece 15, and the slip cap is equipped with lantern ring 14 on the body of rod of installation pole 13, splice piece 15 is hemispherical setting, the cross-section of lantern ring 14 circumference lateral wall is the arc setting, and movable block 17 is provided with the inclined plane towards splice groove 16 outside one side.

When the supporting plates 1 need to be spliced, the splicing block 15 on one supporting plate 1 is aligned to the splicing groove 16 on the adjacent supporting plate 1, so that the splicing block 15 is in contact with the movable block 17, the movable block 17 can be driven to slide upwards in the movable groove 27, the second return spring 28 is extruded, when the splicing block 15 crosses the movable block 17, the second return spring 28 reversely pushes the movable block 17 to stop the splicing block 15, the splicing stability of the supporting plates 1 is ensured, and the fixed plate 10 and the rotating plate 11 are rotatably mounted, so that the device can be suitable for ditches with certain bending degrees;

when the support guard plate 1 needs to be disassembled, the support guard plate 1 is continuously pushed from the support guard plate 1 at the most end part, the splicing block 15 continuously slides towards the inside of the splicing groove 16, when the lantern ring 14 abuts against the mounting seat 12, the lantern ring 14 extrudes the movable block 17 at the moment until the lantern ring 14 crosses the movable block 17, the support guard plate 1 is pulled again, the movable block 17 drives the lantern ring 14 to slide on the mounting rod 13, when the lantern ring 14 is in contact with the splicing block 15, the lantern ring 14 extrudes the movable block 17 again at the moment, and the movable block 17 can abut against the edges of the lantern ring 14 and the splicing block 15 (the distance from the farthest end point of the circumferential side wall of the splicing block 14 to the center line of the mounting rod 13 is actually consistent with the distance from the farthest end point of the spherical wall of the splicing block 15 to the center line of the mounting rod 13), and then the support guard plate 1 is continuously pulled to realize the disassembling operation of the two support guard plates 1.

EXAMPLE III

A construction method of slope supporting equipment for water supply and drainage engineering construction comprises the following steps:

firstly, preparing supporting plates 1, a bottom plate 2 and telescopic supporting rods 3 with corresponding quantity, fixing the bottom plate 2 at the bottom of a river channel of a water supply and drainage project through four inserting rods 4, reserving a distance between the bottom plate 2 and a side slope to be larger than the width of the supporting plate 1 when the bottom plate 2 is installed, aligning an installation plate 19 at the bottom end of the supporting plate 1 with a connecting sleeve 18, inserting a connecting pin rod 20 between the installation plate 19 and the connecting sleeve 18, respectively installing two ends of the telescopic supporting rods 3 on articulated shafts at the top ends of sliding blocks 22 in the supporting plate 1 and the bottom plate 2, adjusting the positions of the bottom ends of the telescopic supporting rods 3 on the bottom plate 2 according to an adjusting device arranged between the bottom plate 2 and the telescopic supporting rods 3, thereby achieving the purpose of adjusting the inclination angles of the supporting plate 1 and the bottom plate 2 (the first embodiment of a specific adjusting mode part), enabling the back of the supporting plate 1 to be tightly attached to the side slope of a ditch of the water supply and drainage project, and finally, according to the length of the side slope, splicing and installing the supporting and protecting plates 1 mutually through the splicing mechanisms arranged on the supporting and protecting plates 1 (the concrete splicing mode is the second embodiment).

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A side slope supporting device for water supply and drainage engineering construction comprises a supporting and protecting plate (1) and a bottom plate (2), and is characterized in that a connecting structure is arranged between the supporting and protecting plate (1) and the bottom plate (2), a telescopic supporting and protecting rod (3) is hinged to one side, close to the bottom plate (2), of the supporting and protecting plate (1), and an adjusting device is arranged between the bottom end of the telescopic supporting and protecting rod (3) and the bottom plate (2);

splicing mechanisms which are mutually matched are arranged on two sides of the supporting and protecting plate (1), and planting pits (5) which are uniformly distributed are arranged on one side, close to the telescopic supporting and protecting rod (3), of the supporting and protecting plate (1);

four corners of the bottom plate (2) are provided with through holes, and inserting rods (4) matched with the through holes are movably mounted in the through holes.

2. The side slope support equipment for water supply and drainage engineering construction is characterized in that the connecting structure comprises a connecting sleeve (18), mounting plates (19) and connecting pin rods (20), two symmetrically-distributed mounting plates (19) are fixedly connected to the bottom end of the supporting plate (1), the connecting sleeve (18) in a T shape is fixedly connected to one side, close to the supporting plate (1), of the bottom plate (2), and the connecting pin rods (20) are arranged between the mounting plates (19) and the connecting sleeve (18).

3. The slope support equipment for water supply and drainage engineering construction according to claim 1, wherein the adjusting device comprises a sliding groove (21), a sliding block (22), a driving plate (7), a limiting rod (8), a positioning plate (9), positioning teeth (25) and a first return spring (24), the sliding groove (21) distributed along the length direction of the bottom plate (2) is formed in the bottom plate, the sliding block (22) is installed in the sliding groove (21) in a sliding mode, and the bottom end of the telescopic support rod (3) extends to the inside of the sliding groove (21) and is hinged to the top end of the sliding block (22).

4. The side slope support equipment for water supply and drainage engineering construction according to claim 3, wherein a mounting groove (23) is formed in the top end of the sliding block (22), a positioning plate (9) is slidably mounted in the mounting groove (23), a first return spring (24) is fixedly connected between the bottom end of the positioning plate (9) and the inside of the mounting groove (23), a limiting rod (8) is fixedly connected to the top end of the positioning plate (9), and a driving plate (7) is fixedly connected to the upper portion of the bottom plate (2) and extends to the end portion of the limiting rod (8).

5. The slope supporting equipment for water supply and drainage engineering construction according to claim 4, wherein two sets of positioning teeth (25) are symmetrically distributed and fixedly connected to the top end of the positioning plate (9), two sets of positioning grooves (26) are formed in the inner wall of the top end of the bottom plate (2) along the length direction of the bottom plate, and the positioning teeth (25) are matched with the positioning grooves (26).

6. A side slope support device for water supply and drainage engineering construction according to claim 5, wherein the top end of the bottom plate (2) is provided with a limiting groove (6), the limiting groove (6) is communicated with the sliding groove (21), the limiting rod (8) is positioned inside the limiting groove (6) to slide, and the limiting groove (6) is positioned between the two groups of positioning grooves (26).

7. The side slope support equipment for water supply and drainage engineering construction according to claim 1, wherein the splicing mechanism comprises a fixing plate (10), a rotating plate (11), a mounting seat (12), a mounting rod (13), a sleeve ring (14), splicing blocks (15), splicing grooves (16), movable blocks (17), movable grooves (27) and a second reset spring (28), two splicing grooves (16) which are symmetrically distributed up and down are formed in one side of the supporting plate (1), the movable grooves (27) which are communicated with the splicing grooves (16) are formed in the supporting plate (1) and located above the splicing grooves (16), the movable blocks (17) are slidably mounted in the movable grooves (27), and the second reset spring (28) is fixedly connected between the top ends of the movable blocks (17) and the inner walls of the movable grooves (27).

8. The side slope support equipment for water supply and drainage engineering construction according to claim 7, wherein two fixing plates (10) which are arranged corresponding to the splicing grooves (16) are fixedly connected to one side, away from the splicing grooves (16), of the supporting and protecting plate (1), a rotating plate (11) is rotatably installed on one side, away from the supporting and protecting plate (1), of the rotating plate (11), a mounting seat (12) is fixedly connected to one side, away from the fixing plate (10), of the rotating plate (11), a horizontally arranged mounting rod (13) is fixedly installed on the mounting seat (12), splicing blocks (15) are fixedly connected to the end portions of the mounting rods (13), and a sleeve ring (14) is slidably sleeved on a rod body of the mounting rods (13).

9. A side slope support device for water supply and drainage engineering construction according to claim 8, wherein the splicing blocks (15) are arranged in a hemispherical shape, the section of the circumferential side wall of the sleeve ring (14) is arranged in an arc shape, and the side of the movable block (17) facing the outside of the splicing groove (16) is provided with an inclined surface.

10. A construction method of slope supporting equipment for water supply and drainage engineering construction is characterized by comprising the following steps:

s1, preparing supporting and protecting plates (1), a bottom plate (2) and telescopic supporting and protecting rods (3) with corresponding quantity, fixing the bottom plate (2) at the bottom of a river channel of a water supply and drainage project through four inserting rods (4), and reserving a distance between the bottom plate (2) and a side slope to be larger than the width of the supporting and protecting plates (1) when the bottom plate (2) is installed;

s2, aligning the mounting plate (19) at the bottom end of the support guard plate (1) with the connecting sleeve (18), and inserting the connecting pin rod (20) between the mounting plate (19) and the connecting sleeve (18);

s3, respectively installing the two ends of the telescopic supporting rod (3) on hinged shafts at the top ends of the sliding blocks (22) in the supporting plate (1) and the bottom plate (2);

s4, adjusting the position of the bottom end of the telescopic supporting rod (3) on the bottom plate (2) according to an adjusting device arranged between the bottom plate (2) and the telescopic supporting rod (3), so as to achieve the purpose of adjusting the inclination angle of the supporting plate (1) and the bottom plate (2), and enable the back surface of the supporting plate (1) to cling to the slope of a water supply and drainage engineering ditch;

s5, finally, according to the length of the side slope, the supporting and protecting plates (1) are spliced and installed through the splicing mechanisms arranged on the supporting and protecting plates (1).

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