CN117888570B - Geotechnical grid for slope surface greening - Google Patents

Abstract

The invention belongs to the technical field of geocells, and discloses a geocell for slope surface greening, which is characterized in that: including stand and geotechnique board, the stand bottom is provided with spine portion, the inside fixed establishment that is provided with of stand mutually supporting with the geotechnique board, fixed establishment is including joint subassembly and adjusting part, the geotechnique board lateral wall is provided with protection machanism, protection machanism is including protection pole, storage subassembly and locating component, locating component is including connecting portion and locking part, has solved current mounting means and has needed expended a large amount of manpowers and time, and the lower problem of installation effectiveness to the material of having solved present cell inner chamber extrudees the geotechnique board wall, easily leads to the geotechnique board to warp, the poor problem of geotechnique cell stability.

Description

Geotechnical grid for slope surface greening

Technical Field

The invention relates to the technical field of geocells, in particular to a geocell for slope greening.

Background

The geocell of the prior art is a three-dimensional net-shaped cell structure formed by high-strength welding of reinforced HDPE sheet materials. High density polyethylene is commonly known as low pressure polyethylene. Polyethylene is a thermoplastic resin produced by polymerizing ethylene. The geocell made of the material is based on the physical property and the chemical property of the HDPE sheet material, so that the structural strength and the service life of the geocell are represented.

In the installation process of the geocell, composite strip welding or bolting is generally adopted for combined installation so as to form a grid structure.

When the existing installation mode is used, a large amount of manpower and time are required to be consumed, the installation efficiency is low, only two ends of the geotechnical plate are limited, after the material is filled in the inner cavities of the geotechnical cells, the material in the inner cavities of the cells extrudes the wall of the geotechnical plate, deformation of the geotechnical plate is easy to cause, and the stability of the geotechnical cells is poor.

Disclosure of Invention

The invention aims to provide a geotechnical grid for slope surface greening so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a geotechnique's check room for domatic is green again, includes stand and geotechnique's board, the stand bottom is provided with spine portion, the stand with the geotechnique's board all is provided with the multiunit, multiunit geotechnique's board encloses into square structure, the stand sets up in geotechnique's board both ends, multiunit geotechnique's board encloses and forms the check room cavity, the stand is inside to be provided with the fixed establishment mutually supporting with the geotechnique's board, fixed establishment is including joint subassembly and adjusting part, joint subassembly is located the stand lateral wall and is connected with geotechnique's board tip, adjusting part is located the stand inside and is connected with joint subassembly, joint subassembly is connected with the mode adjustment stand and geotechnique's board through mutually supporting with adjusting part, geotechnique's board lateral wall is provided with protection mechanism, protection mechanism is including protection pole, storage subassembly and locating component, storage in geotechnique's board, locating component is including connecting portion and locking part, connecting portion and protection pole one end of keeping away from the geotechnique's board are connected with locking part, the mode is connected with the mutual mode of locking part through mutually supporting with the mode.

As a further scheme of the invention: the clamping assembly comprises fixing holes formed in the periphery of the side wall of the upright post, a fixing rod matched with the fixing holes is fixedly arranged at the end part of the geotechnical plate, the clamping holes are formed in the surface of the fixing rod, a vertical groove is formed in the vertical direction of the upright post, an extrusion spring is fixedly arranged in the vertical groove, a clamping column matched with the clamping holes is fixedly arranged at the telescopic end of the extrusion spring, and the clamping column is connected with the adjusting assembly.

As a further scheme of the invention: the adjusting component comprises a wire slot which is downwards formed in the top wall of the upright post, a plurality of bifurcation ports are formed at one end of the wire slot, which is far away from the top wall of the upright post, and are respectively communicated with the fixing holes, a control wire is fixedly connected with one end of the clamping post, which faces the vertical slot, and one end of the control wire, which is far away from the clamping post, penetrates through the wire slot and extends to the top end of the upright post, and is fixedly connected with a control disc.

As a further scheme of the invention: the storage assembly comprises a storage groove formed in the side wall of the geotechnical plate, the protection rod is rotatably installed in the storage groove, the protection rod is made of magnetic materials, and magnetic sheets matched with the protection rod are fixedly installed in the storage groove.

As a further scheme of the invention: the connecting portion comprises a chassis and a top plate, end grooves matched with the end parts of the protection rods are respectively formed in two side walls, opposite to the chassis and the top plate, of the protection rods, limiting holes are formed in one ends, far away from the geotechnical plates, of the protection rods, and limiting columns matched with the limiting holes are fixedly arranged in the end grooves.

As a further scheme of the invention: the locking part comprises a guide hole formed in the surface of the top disc, a guide column matched with the guide hole is fixedly arranged on the surface of the bottom disc, a transverse groove positioned above the guide hole is formed in the side wall of the guide column inwards, a control spring is fixedly arranged in the transverse groove, a limiting block is fixedly arranged at the telescopic end of the control spring, and the limiting block extends to the outer side of the transverse groove and is positioned above the guide hole.

As still further aspects of the invention: and a pull ring is fixedly arranged on the surface of the control panel.

Compared with the prior art, the invention has the beneficial effects that: by arranging the clamping assembly to be matched with the adjusting assembly, the opposite columns and the geotechnical plates can be conveniently installed and detached, and the installation efficiency of the geotechnical cells is effectively improved; through setting up the locating component and accomodating the subassembly mutually supporting that comprises locking part, connecting portion, the relative position of adjustment geotechnique board that can be convenient and guard bar can effectively avoid the geotechnique board to take place deformation when using, and then improves the stability of geotechnique board. The problem that the existing installation mode needs to consume a large amount of manpower and time and is low in installation efficiency is solved, and the problems that the existing materials in the inner cavities of the cells squeeze the wall of the earthwork board, the earthwork board is easy to deform and the stability of the earthwork cells is poor are solved.

Drawings

Fig. 1 is a schematic perspective view of a geocell for slope greening according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of the structure of fig. 1 a.

Fig. 3 is a schematic perspective view of a geoplate in a geocell for slope greening according to an embodiment of the present invention.

Fig. 4 is a schematic perspective view of a top plate in a geocell for slope greening according to an embodiment of the present invention.

Fig. 5 is a schematic top view of a geocell for slope re-greening according to an embodiment of the present invention.

Fig. 6 is an enlarged schematic view of the structure B in fig. 5.

Fig. 7 is a schematic diagram of a geocell neutral column for slope greening and a connection structure thereof according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a locking portion in a geocell for slope re-greening according to an embodiment of the present invention.

Wherein: 1-upright post, 11-spike, 2-geoboard, 3-cell cavity, 4-securing mechanism, 41-clamping assembly, 411-securing aperture, 412-securing lever, 413-clamping aperture, 414-vertical slot, 415-clamping post, 416-compression spring, 42-adjustment assembly, 421-wire slot, 422-control wire, 423-control panel, 5-guard mechanism, 51-guard bar, 52-receiving assembly, 521-receiving slot, 522-magnetic sheet, 53-positioning assembly, 531-connection, 5311-chassis, 5312-top panel, 5313-end slot, 5314-spacing aperture, 5315-spacing post, 532-locking portion, 5321-guiding aperture, 5322-guiding post, 5323-transverse slot, 5324-control spring, 5325-stopper, 6-pull tab.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, fig. 5, fig. 7, fig. 8, a structure diagram of a geocell for slope greening is provided for an embodiment of the present invention, including a column 1 and a geoplate 2, the bottom end of the column 1 is provided with a spike 11, the column 1 and the geoplate 2 are all provided with multiple groups, the multiple groups of the geoplates 2 are surrounded into a square structure, the column 1 is disposed at two ends of the geoplate 2, the multiple groups of the geoplates 2 are surrounded into a cell cavity 3, a fixing mechanism 4 which is mutually matched with the geoplate 2 is disposed in the column 1, the fixing mechanism 4 includes a clamping component 41 and an adjusting component 42, the clamping component 41 is located on a side wall of the column 1 and is connected with an end of the geoplate 2, the adjusting component 42 is located inside the column 1 and is connected with the clamping component 41, the side wall of the geoplate 2 is adjusted in a manner of mutually matched with the adjusting component 42, the side wall of the geoplate 2 is provided with a protection mechanism 5, the protection mechanism 5 includes a protection rod 51, a storage component 52 and a storage component 53 are surrounded into a cell cavity 3, the column 1 is internally provided with a fixing mechanism 4 which is mutually matched with the geoplate 2, the fixing mechanism 4 includes a clamping component 41 and an adjusting component 42, the clamping component 41 is located on a side wall of the column 1 and is connected with an end of the geoplate 2 by a locking component 531, and a locking component 53 is connected with a locking component 531, and a connecting part 531 is connected with a locking component 53 and a connecting part 53 is located between the locking component and a side wall is connected with a side wall and a side wall 51.

Initially, stand 1 and geotechnique board 2 are categorised to be deposited, accomodate subassembly 52 control guard bar 51 and be in geotechnique board 2 lateral wall inside, when needs use geotechnique check room to carry out the bank protection, place stand 1 at the tip of geotechnique board 2, through adjusting part 42 and joint subassembly 41 mutually supporting, can be convenient link into a whole with geotechnique board 2 and stand 1, multiunit geotechnique board 2 and stand 1 mutually support and then surround and form check room cavity 3, insert spike 11 to below the ground, can be convenient install stand 1 and geotechnique board 2 on ground, accomodate subassembly 52 adjustment guard bar 51's position for guard bar 51 rotates to in the check room cavity 3, and guard bar 51 is mutually perpendicular state this moment with geotechnique board 2, locking part 532 and connecting part 531 mutually support, can keep away from the one end of multiunit guard bar 2 and link into a whole, and multiunit guard bar 51 can effectively improve the stability between multiunit geotechnique board 2 this moment, and pack the material in check room cavity 3, material when using, and when the material is extruded in the room cavity 3 to the recess 2, can further take place the deformation to the geotechnique board 2 at the time of the guard bar 2.

As shown in fig. 1,3, 5, 6 and 7, as a preferred embodiment of the present invention, the clamping assembly 41 includes a fixing hole 411 formed around the side wall of the upright 1, a fixing rod 412 matched with the fixing hole 411 is fixedly mounted at the end of the geoboard 2, a clamping hole 413 is formed on the surface of the fixing rod 412, a vertical slot 414 is formed in the top wall of the fixing hole 411 vertically upwards towards the inside of the upright 1, an extrusion spring 416 is fixedly mounted in the vertical slot 414, a clamping post 415 matched with the clamping hole 413 is fixedly mounted at the telescopic end of the extrusion spring 416, and the clamping post 415 is connected with the adjusting assembly 42.

Initially, the clamping column 415 is inserted into the fixing hole 411, when the geotechnical plate 2 needs to be installed, the adjusting component 42 firstly controls the clamping column 415 to retract into the vertical groove 414, at the moment, the fixing rod 412 at the end part of the geotechnical plate 2 is inserted into the fixing hole 411, then the adjusting component 42 controls the clamping column 415 to reversely move to the outer side of the vertical groove 414, at the moment, the clamping column 415 is inserted into the clamping hole 413 on the surface of the fixing rod 412, and the fixing rod 412 is conveniently installed in the fixing hole 411 through the mutual matching of the clamping column 415 and the clamping hole 413, so that the geotechnical plate 2 and the vertical column 1 can be conveniently connected into a whole. When the geocell needs to be disassembled, the adjusting assembly 42 controls the clamping column 415 to retract into the vertical groove 414 again, and the fixing rod 412 can be conveniently taken out from the fixing hole 411.

As shown in fig. 1, 5 and 7, as a preferred embodiment of the present invention, the adjusting component 42 includes a slot 421 formed in the top wall of the upright 1, wherein one end of the slot 421 away from the top wall of the upright 1 forms a plurality of bifurcation ports and is respectively connected with the fixing hole 411, one end of the clamping post 415 facing the vertical slot 414 is fixedly connected with a control wire 422, and one end of the control wire 422 away from the clamping post 415 extends to the top end of the upright 1 through the slot 421 and is fixedly connected with a control disc 423.

When the position of the clamping column 415 needs to be adjusted, the control disc 423 is pulled at the top end of the upright 1, the control disc 423 is matched with the control wire 422, the clamping column 415 can be pulled to move towards the vertical groove 414, and at the moment, the relative position of the clamping column 415 and the fixing rod 412 can be adjusted conveniently.

As shown in fig. 1, 3, 5 and 6, as a preferred embodiment of the present invention, the receiving assembly 52 includes a receiving groove 521 formed at a side wall of the geotechnical plate 2, the protection rod 51 is rotatably mounted in the receiving groove 521, the protection rod 51 is made of a magnetic material, and a magnetic sheet 522 matched with the protection rod 51 is fixedly mounted in the receiving groove 521.

Initially, the whole protective rod 51 is in the storage groove 521, at this time, the protective rod 51 and the magnetic sheet 522 are attached to each other, and the magnetic sheet 522 positions the protective rod 51 by magnetic attraction, so that the batch of the geotechnical plates 2 can be stored and deposited conveniently. When in use, the protection rods 51 are rotated to the outer side of the storage groove 521, the protection rods 51 are controlled to be in a mutually perpendicular state with the geotechnical plate 2, and the locking parts 532 and the connecting parts 531 are mutually matched, so that one ends of the plurality of groups of protection rods 51 far away from the geotechnical plate 2 can be fixed.

As shown in fig. 1,2,3,4, 5, and 8, as a preferred embodiment of the present invention, the connection portion 531 includes a bottom plate 5311 and a top plate 5312, two side walls of the bottom plate 5311 opposite to the top plate 5312 are respectively provided with an end slot 5313 that is matched with an end of the protection rod 51, one end of the protection rod 51, which is far away from the geoboard 2, is provided with a limiting hole 5314, and a limiting post 5315 that is matched with the limiting hole 5314 is fixedly installed in the end slot 5313.

After the multiple groups of protection rods 51 rotate into the cell cavity 3, the top plate 5312 and the bottom plate 5311 are respectively attached to each other from the upper side and the lower side of the protection rods 51, the locking part 532 controls the top plate 5312 and the bottom plate 5311 to be connected into a whole, at the moment, one end, far away from the geotechnical plate 2, of the protection rods 51 is inserted into the end groove 5313, the limit column 5315 in the end groove 5313 is inserted into the limit hole 5314, the top plate 5312 is matched with the bottom plate 5311, one end, far away from the geotechnical plate 2, of the protection rods 51 can be fixed, and in the material filling process, the protection rods 51 are used for pulling the geotechnical plate 2, so that the stability of the geotechnical plate 2 is effectively improved.

As shown in fig. 1, 2, 4, 5, and 8, as a preferred embodiment of the present invention, the locking portion 532 includes a guide hole 5321 formed on a surface of the top plate 5312, a guide post 5322 matched with the guide hole 5321 is fixedly mounted on a surface of the bottom plate 5311, a transverse slot 5323 located above the guide hole 5321 is formed in a side wall of the guide post 5322, a control spring 5324 is fixedly mounted in the transverse slot 5323, and a limiting block 5325 is fixedly mounted at a telescopic end of the control spring 5324, and the limiting block 5325 extends to an outer side of the transverse slot 5323 and is located above the guide hole 5321.

When the bottom plate 5311 and the top plate 5312 are mutually attached, the guide column 5322 on the surface of the bottom plate 5311 is inserted into the guide hole 5321, the limit block 5325 is contracted into the transverse groove 5323 when the guide column 5322 passes through the guide hole 5321, after the bottom plate 5311 is attached to the top plate 5312, the limit block 5325 moves to the upper portion of the guide hole 5321, and at the moment, the limit block 5325 is clamped outside the guide hole 5321, so that the bottom plate 5311 and the top plate 5312 can be conveniently connected into a whole.

As shown in fig. 1, 5 and 7, as a preferred embodiment of the present invention, the control disc 423 is fixedly provided with a pull ring 6 on a surface thereof.

The working principle of the invention is as follows: initially, the upright posts 1 and the geotechnical plates 2 are classified and stored, the protective rods 51 are integrally arranged in the storage grooves 521, at this time, the protective rods 51 are mutually attached to the magnetic sheets 522, and the magnetic sheets 522 position the protective rods 51 through magnetic attraction, so that the geotechnical plates 2 in batches are conveniently stored and stored. When the clamp is used, the control disc 423 is pulled at the top end of the upright post 1, the control disc 423 is matched with the control wire 422, the clamping post 415 can be pulled to move towards the vertical groove 414, and the relative position of the clamping post 415 and the fixing rod 412 can be conveniently adjusted. The fixing rod 412 at the end part of the geotechnical plate 2 is inserted into the fixing hole 411, the clamping column 415 is controlled to reversely move to the outer side of the vertical groove 414, at the moment, the clamping column 415 is inserted into the clamping hole 413 on the surface of the fixing rod 412, and the fixing rod 412 can be conveniently installed in the fixing hole 411 through the mutual matching of the clamping column 415 and the clamping hole 413, so that the geotechnical plate 2 and the vertical column 1 can be conveniently connected into a whole. The multi-group geotechnical plates 2 are matched with the upright posts 1 to form a cell cavity 3, the spike parts 11 are inserted below the ground, and the upright posts 1 and the geotechnical plates 2 can be conveniently and rapidly installed on the ground.

The protection rod 51 is rotated to the outer side of the storage groove 521, the protection rod 51 and the geotechnical plate 2 are controlled to be in a mutually perpendicular state, the top plate 5312 and the bottom plate 5311 are respectively attached to each other from the upper side and the lower side of the protection rod 51, the guide column 5322 on the surface of the bottom plate 5311 is inserted into the guide hole 5321, at the moment, the limiting block 5325 is clamped at the outer side of the guide hole 5321, and then the bottom plate 5311 and the top plate 5312 can be conveniently connected into a whole. At this time, one end of the protection rod 51 far away from the geotechnical plate 2 is inserted into the end groove 5313, the limit column 5315 in the end groove 5313 is inserted into the limit hole 5314, the top plate 5312 and the bottom plate 5311 are matched with each other, one end of the protection rod 51 far away from the geotechnical plate 2 can be fixed, the protection rod 51 pulls the geotechnical plate 2 in the process of filling materials, and the stability of the geotechnical plate 2 is effectively improved.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (3)

1. The utility model provides a geotechnical check room for domatic greening, includes stand and geotechnical board, the stand bottom is provided with spine portion, the stand with the geotechnical board all is provided with the multiunit, multiunit geotechnical board surrounds into square structure, the stand sets up in geotechnical board both ends, multiunit geotechnical board surrounds and forms the check room cavity, its characterized in that, the stand is inside to be provided with the fixed establishment mutually supporting with geotechnical board, fixed establishment is including joint subassembly and adjusting part, the joint subassembly is located the stand lateral wall and is connected with geotechnical board tip, adjusting part is located the stand inside and is connected with the joint subassembly, the joint subassembly is through the mode adjustment stand mutually supporting with the geotechnical board relative position with adjusting part, the joint subassembly is including seting up in the fixed orifices all around of stand lateral wall, geotechnical board tip fixed mounting have the dead lever mutually supporting with the fixed orifices, the surface of the fixed rod is provided with a clamping hole, the fixed Kong Dingbi is vertically upwards provided with a vertical groove towards the inside of the upright post, the inside of the vertical groove is fixedly provided with an extrusion spring, the telescopic end of the extrusion spring is fixedly provided with a clamping post matched with the clamping hole, the clamping post is connected with an adjusting component, the adjusting component comprises a wire groove which is downwards arranged on the top wall of the upright post, one end of the wire groove, which is far away from the top wall of the upright post, forms a plurality of bifurcation ports and is respectively communicated with the fixed hole, the clamping post is fixedly connected with a control wire towards one end in the vertical groove, one end of the control wire, which is far away from the clamping post, passes through the wire groove and extends to the top end of the upright post and is fixedly connected with a control disc, the side wall of the geotechnical plate is provided with a protection mechanism, the protection mechanism comprises a protection rod, a storage component and a positioning component, the storage component is positioned on the side wall of the geotechnical plate and is connected with the protection rod, the storage assembly is used for controlling the storage of the protection rods in the geotechnical plate, the positioning assembly comprises a connecting part and a locking part, the connecting part is connected with one end, away from the geotechnical plate, of the protection rods, the locking part is connected with the connecting part, the connecting part adjusts the relative positions among a plurality of groups of protection rods in a mutually matched mode through the locking part, the connecting part comprises a chassis and a top disc, end grooves mutually matched with the end parts of the protection rods are respectively formed in two opposite side walls of the chassis and the top disc, a limiting hole is formed in one end, away from the geotechnical plate, of the protection rods, a limiting column mutually matched with the limiting hole is fixedly arranged in the end groove, a guide column mutually matched with the guide hole is arranged in the locking part, a transverse groove positioned above the guide hole is formed in the side wall of the guide column, a control spring is fixedly arranged in the transverse groove, a limiting block is fixedly arranged at the telescopic end of the control spring, and extends to the outer side of the transverse groove and is positioned above the guide hole.

2. The geocell for slope re-greening according to claim 1, wherein the storage assembly comprises a storage groove formed in the side wall of the geoplate, the protection rod is rotatably installed in the storage groove, the protection rod is made of magnetic materials, and a magnetic sheet matched with the protection rod is fixedly installed in the storage groove.

3. The geocell for slope re-greening according to claim 1, wherein a pull ring is fixedly installed on the surface of the control panel.