CN213267946U - Ecological retaining wall for recovering vegetation in mine - Google Patents

Abstract

The application relates to an ecological retaining wall for recovering vegetation in mines, which comprises a plurality of mutually spliced building blocks, wherein each building block is provided with an insert for being inserted into side slope soil in a penetrating way; plug-in components are including wearing to establish the intubate on the building block, the upper end outward flange rigid coupling of intubate has annular limiting plate, the lower extreme rigid coupling of intubate has conical lug, wear to be equipped with the thorn pole that is arranged in inserting soil on the lateral wall of intubate, the thorn pole is provided with a plurality of and distributes around the equidistant circumference of axis of intubate, thorn pole slope sets up, the thorn pole is located the other end that highly is less than the thorn pole of one end in the intubate, be provided with in the intubate and order about thorn pole and move and insert the driving piece in soil on every side outward towards the intu. The effect that this application has is that the stability of being connected of building block and side slope has been improved.

Description

Ecological retaining wall for recovering vegetation in mine

Technical Field

The application relates to the technical field of soil treatment, in particular to an ecological retaining wall for recovering vegetation in mines.

Background

Due to the reasons of mineral resource development and the like, a large number of slope structures with unstable geological structures, poor coverage rate and high soil pollution are prepared around a mine, if the slope structures cannot be timely and effectively treated, serious geological disasters such as landslide and landslide are easily caused on one hand, and environmental pollution such as dust emission and underground water pollution is easily caused on the other hand.

In view of the above-mentioned related art, the inventor believes that, since the block is only laid on the surface of the side slope, the block is liable to shift and slide in the inclined direction of the side slope in the case of man-made stepping or a certain vibration, resulting in damage to the block.

SUMMERY OF THE UTILITY MODEL

In order to improve the stability of being connected of building block and side slope, this application provides an ecological barricade for mine vegetation resumes.

The application provides an ecological barricade for mine vegetation resumes adopts following technical scheme:

an ecological retaining wall for recovering vegetation in mines comprises a plurality of mutually spliced building blocks, wherein each building block is provided with an insert for being inserted into side slope soil in a penetrating way;

plug-in components are including wearing to establish the intubate on the building block, the upper end outward flange rigid coupling of intubate has annular limiting plate, the lower extreme rigid coupling of intubate has conical lug, wear to be equipped with the thorn pole that is arranged in inserting soil on the lateral wall of intubate, the thorn pole is provided with a plurality of and distributes around the equidistant circumference of axis of intubate, thorn pole slope sets up, the thorn pole is located the other end that highly is less than the thorn pole of one end in the intubate, be provided with in the intubate and order about thorn pole and move and insert the driving piece in soil on every side outward towards the intu.

Through adopting above-mentioned technical scheme, when the staff laid the building block on the side slope, pass the intubate from the corner position of block and beat the upper end of intubate with the heavy object, thereby make the lug of intubate lower extreme break the soil on side slope, and then make the intubate insert in the soil, the limiting plate on the intubate supports and leans on the block, the control driving piece this moment, promote the one end that the thorn pole is located the intubate, make the thorn pole insert in the soil around along the incline direction of self, make the intubate stable in inserting the soil of establishing on side slope like this, the damage that the translocation extrusion that has reduced the building block and has caused on the side slope takes place to slide.

Preferably, the driving member includes a moving rod inserted into the insertion tube, a conical surface is formed on the circumferential surface of the moving rod, the small end of the conical surface faces upward, one end of the pricking rod located inside the insertion tube abuts against the conical surface, and threads which are matched with each other are formed on the circumferential surface of the moving rod and the inner circumferential surface of the insertion tube.

Through adopting above-mentioned technical scheme, when the staff inserted the intubate in soil, can order about the carriage release lever and rotate around the axis of intubate to make the carriage release lever rise along the axis of intubate, make the tip that the thorn pole is arranged in the intubate and conical surface emergence relative movement like this, thereby make the tip of thorn pole be close to the main aspects of conical surface gradually, and promote the thorn pole and move outside its incline direction towards the intubate.

Preferably, a cylindrical accommodating cavity which is coaxial with the pricking rod is formed in the side wall of the inserting tube, a spring which drives the pricking rod to move towards the inside of the inserting tube is sleeved on the pricking rod, and the spring is located in the accommodating cavity.

Through adopting above-mentioned technical scheme, when the building block takes place to break and need change, can rotate earlier and order about the carriage release lever and move down for in the bayonet pole received the elasticity of spring and received the intubate, reduced the degree of difficulty that the staff extracted the intubate from soil like this, thereby to the change of building block some easily.

Preferably, the end face, facing the conical surface, of the pricking rod is embedded with a rolling ball, the rolling ball is rotatably connected to the pricking rod, and the spherical surface of the rolling ball abuts against the conical surface.

By adopting the technical scheme, the sliding friction between the pricking rod and the conical surface is converted into the rolling friction between the rolling ball and the conical surface, so that the conical surface can more easily push the pricking rod to move.

Preferably, the upper end surface of the moving rod is provided with a polygonal groove.

Through adopting above-mentioned technical scheme, the staff borrows the inserted bar with the recess adaptation and inserts in the recess to the carriage release lever rotates.

Preferably, a cover plate for plugging the upper port of the insertion tube is arranged on the upper end face of the insertion tube, and a magnet is embedded on one face, facing the insertion tube, of the cover plate.

Through adopting above-mentioned technical scheme for the closing cap board adsorbs on the up end of closing cap board, when the staff hit the upper end of intubate and hit, the closing cap board is difficult to separate with the intubate.

Preferably, the edge of the upper port of the insertion pipe is provided with a stepped groove for accommodating the sealing cover plate.

By adopting the technical scheme, the movement of the sealing plate in the horizontal direction is limited, so that the connection between the sealing plate and the insertion pipe is more stable.

Preferably, the side wall of the stepped groove is provided with a caulking groove.

Through adopting above-mentioned technical scheme, the staff supports from the caulking groove with the help of the round bar and leans on the global of closing the apron to will close the apron and stir out from the ladder groove.

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

1. through the arrangement of the building block, the plug-in, the insertion pipe, the limiting plate, the bump, the pricking rod and the driving piece, when a worker lays the building block on a side slope, the insertion pipe penetrates through the corner position of the block body and the upper end of the insertion pipe is beaten by a heavy object to enable the insertion pipe to be inserted into soil, the driving piece is controlled at the moment, one end of the pricking rod in the insertion pipe is pushed to enable the pricking rod to be inserted into the surrounding soil along the self-inclined direction, so that the insertion pipe is stabilized in the soil inserted in the side slope, and damage caused by translocation extrusion due to sliding of the building block on the side slope is reduced;

2. through setting up of carriage release lever, conical surface, screw thread, when the staff inserted the intubate in soil, can order to order about the carriage release lever and rotate around the axis of intubate to make the carriage release lever rise along the axis of intubate, make the tip that the thorn pole is arranged in the intubate and conical surface emergence relative movement like this, thereby make the tip of thorn pole be close to the main aspects of conical surface gradually, and promote the thorn pole and move outside its incline direction towards the intubate.

Drawings

Fig. 1 is a schematic view of the overall structure of an ecological retaining wall in the embodiment of the present application.

Figure 2 is a cross-sectional view of a cannula in an embodiment of the present application.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

FIG. 4 is an exploded view of the closure plate and the insert tube in an embodiment of the present application.

Fig. 5 is a schematic structural view of a magnet in the embodiment of the present application.

Description of reference numerals: 1. building blocks; 11. a block body; 12. inserting a block; 13. a slot; 14. planting grooves; 2. a plug-in; 21. inserting a tube; 211. an accommodating chamber; 212. a spring; 213. a stepped groove; 214. caulking grooves; 22. a limiting plate; 23. a bump; 24. pricking a rod; 241. rolling a ball; 25. a drive member; 251. a travel bar; 252. a conical surface; 253. a thread; 254. a groove; 255. sealing the cover plate; 256. and a magnet.

Detailed Description

The embodiment of the application discloses an ecological retaining wall for recovering vegetation in a mine. Referring to fig. 1, ecological retaining wall includes a plurality of building blocks 1 of splicing each other, and every building block 1 includes rectangular block 11, and equal rigid coupling has two inserted blocks 12 on two long sides of block 11, forms between two inserted blocks 12 and supplies two inserted blocks 12 common male slot 13, and two planting grooves 14 about block 11's central point forms, and block 11 four corners position all wears to be equipped with and is used for inserting the plug-in components 2 in the side slope soil.

Referring to fig. 2, the insert 2 includes an insertion tube 21 inserted in the block 11 (refer to fig. 1), an annular limiting plate 22 is fixedly connected to an outer edge of an upper end of the insertion tube 21, the limiting plate 22 abuts against an upper surface of the block 11, a conical projection 23 is fixedly connected to a lower end of the insertion tube 21, a tip of the projection 23 is away from the insertion tube 21, a pricking rod 24 slidably connected to the insertion tube 21 is inserted in a sidewall of the insertion tube 21, the pricking rod 24 is used for being inserted into soil, the pricking rod 24 is provided with a plurality of pricking rods 24 and circumferentially distributed around an axis of the insertion tube 21 at equal intervals, the pricking rod 24 is obliquely arranged, the height of one end of the pricking rod 24 located in the insertion tube 21 is lower than the other end of the pricking rod 24, and a driving member 25 for.

When a worker lays the building block 1 on a side slope, the insertion pipe 21 penetrates through the corner position of the block body 11 and the upper end of the insertion pipe 21 is beaten by a heavy object, so that the lug 23 at the lower end of the insertion pipe 21 breaks the soil of the side slope, the insertion pipe 21 is inserted into the soil until the limiting plate 22 on the insertion pipe 21 abuts against the block body 11, the driving piece 25 is controlled at the moment, one end of the puncture rod 24 in the insertion pipe 21 is pushed, the puncture rod 24 is inserted into the surrounding soil along the inclination direction of the puncture rod 24, the insertion pipe 21 is stabilized in the soil inserted in the side slope, and damage caused by translocation extrusion due to sliding of the building block 1 on the side slope is reduced.

Referring to fig. 2, the driving member 25 includes a moving rod 251 inserted into the insertion tube 21, a conical surface 252 is formed on the circumferential surface of the moving rod 251, the small end of the conical surface 252 faces upward, one end of the pricking rod 24 located inside the insertion tube 21 abuts against the conical surface 252, an initial position of one end of the pricking rod 24 located inside the insertion tube 21 is close to the small end of the conical surface 252, an end of the pricking rod 24 away from the conical surface 252 is located in the side wall of the insertion tube 21, and mutually matching threads 253 are formed on the circumferential surface of the moving rod 251 and the inner circumferential surface of the insertion tube 21.

When the worker inserts the insertion tube 21 into the soil, the moving rod 251 is driven to rotate around the axis of the insertion tube 21, so that the moving rod 251 is raised along the axis of the insertion tube 21, and thus the end of the pricking pin 24 located in the insertion tube 21 is moved relative to the conical surface 252, so that the end of the pricking pin 24 is gradually brought close to the large end of the conical surface 252, and the pricking pin 24 is pushed to move outward of the insertion tube 21 in the oblique direction thereof.

Referring to fig. 2 and 3, a cylindrical accommodating cavity 211 which is coaxially arranged with the bayonet rod 24 is formed in the side wall of the insertion tube 21 and corresponds to the bayonet rod 24, a spring 212 which drives the bayonet rod 24 to move towards the inside of the insertion tube 21 is sleeved on the bayonet rod 24, the spring 212 is located in the accommodating cavity 211, one end of the spring 212 is fixedly connected to the bayonet rod 24, the other end of the spring 212 is fixedly connected to the side wall of the accommodating cavity 211, when the building block 1 is broken and needs to be replaced, the moving rod 251 can be rotated to move downwards first, the bayonet rod 24 is retracted into the insertion tube 21 by the elastic force of the spring 212, the difficulty of pulling the insertion tube 21 out of the soil by a worker is reduced, and the building block 1 is replaced easily.

Referring to fig. 2 and 3, in order to reduce the friction between the bayonet rod 24 and the conical surface 252, the rolling ball 241 is embedded on the end surface of the bayonet rod 24 facing the conical surface 252, the rolling ball 241 is rotatably connected to the bayonet rod 24, and the spherical surface of the rolling ball 241 abuts against the conical surface 252, so that the sliding friction between the bayonet rod 24 and the conical surface 252 is converted into the rolling friction between the rolling ball 241 and the conical surface 252, and the conical surface 252 can more easily push the bayonet rod 24 to move.

Referring to fig. 4, in order to facilitate the operator to rotate the moving rod 251, a polygonal recess 254 is formed on an upper end surface of the moving rod 251, and in this embodiment, the recess 254 is a regular hexagon, so that the operator can insert a hexagonal wrench into the recess 254 to rotate the moving rod 251.

Referring to fig. 4 and 5, in order to reduce the possibility that the external foreign matter falls into the groove 254 and affects the worker to drive the moving rod 251 to rotate, a cover plate 255 for blocking the upper end of the insertion tube 21 is disposed on the upper end surface of the insertion tube 21, and a magnet 256 is embedded on a surface of the cover plate 255 facing the insertion tube 21, so that the cover plate 255 is attached to the upper end surface of the cover plate 255, and when the worker hits the upper end surface of the insertion tube 21, the cover plate 255 is not easily separated from the insertion tube 21.

Referring to fig. 4, the edge of the upper port of the insertion tube 21 is formed with a stepped groove 213 for receiving the capping plate 255, so that the movement of the capping plate 255 in the horizontal direction is restricted, and the coupling of the capping plate 255 to the insertion tube 21 is more stable.

Referring to fig. 4, in order to facilitate the worker to take the cover plate 255 out of the stepped groove 213, the sidewall of the stepped groove 213 is provided with an insertion groove 214, and the worker pushes the cover plate 255 out of the stepped groove 213 by means of a round rod from the insertion groove 214 against the circumferential surface of the cover plate 255.

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 (8)

1. The utility model provides an ecological barricade for mine vegetation resumes which characterized in that: the building block comprises a plurality of building blocks (1) which are spliced with each other, wherein an insert (2) used for being inserted into side slope soil penetrates through each building block (1);

insert (2) including wearing to establish intubate (21) on building block (1), the outer marginal rigid coupling in upper end of intubate (21) has annular limiting plate (22), the lower extreme rigid coupling of intubate (21) has conical lug (23), wear to be equipped with on the lateral wall of intubate (21) and be arranged in inserting thorn pole (24) in the soil, thorn pole (24) are provided with a plurality ofly and distribute around the axis equidistant circumference of intubate (21), thorn pole (24) slope sets up, thorn pole (24) are located the highly be less than the other end of thorn pole (24) of one end in intubate (21), be provided with in intubate (21) and drive piece (25) that order to actuate thorn pole (24) and move outward towards intubate (21) and insert in the soil around.

2. The ecological retaining wall for mine vegetation restoration according to claim 1, wherein: the driving piece (25) comprises a moving rod (251) inserted into the insertion tube (21), a conical surface (252) is processed on the peripheral surface of the moving rod (251), the small end of the conical surface (252) faces upwards, one end, located inside the insertion tube (21), of the pricking rod (24) abuts against the conical surface (252), and threads (253) which are matched with each other are processed on the peripheral surface of the moving rod (251) and the inner peripheral surface of the insertion tube (21).

3. The ecological retaining wall for mine vegetation restoration according to claim 2, wherein: cylindrical accommodating cavity (211) which is coaxial with the pricking rod (24) is formed in the side wall of the insertion tube (21), a spring (212) which drives the pricking rod (24) to move towards the inside of the insertion tube (21) is sleeved on the pricking rod (24), and the spring (212) is located in the accommodating cavity (211).

4. The ecological retaining wall for mine vegetation restoration according to claim 3, wherein: the end face of the pricking rod (24) facing the conical surface (252) is embedded with a rolling ball (241), the rolling ball (241) is rotatably connected to the pricking rod (24), and the spherical surface of the rolling ball (241) abuts against the conical surface (252).

5. The ecological retaining wall for mine vegetation restoration according to claim 4, wherein: the upper end surface of the moving rod (251) is provided with a polygonal groove (254).

6. The ecological retaining wall for mine vegetation restoration according to claim 5, wherein: the upper end face of the insertion pipe (21) is provided with a sealing cover plate (255) used for sealing the upper port of the insertion pipe (21), and a magnet (256) is embedded on one face, facing the insertion pipe (21), of the sealing cover plate (255).

7. The ecological retaining wall for mine vegetation restoration according to claim 6, wherein: the edge of the upper port of the insertion pipe (21) is provided with a step groove (213) for accommodating the sealing cover plate (255).

8. The ecological retaining wall for mine vegetation restoration according to claim 7, wherein: the side wall of the stepped groove (213) is provided with a caulking groove (214).

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