CN215252773U - Honeycomb lattice room for ecological restoration - Google Patents

Abstract

The utility model relates to an ecological remediation technology's field discloses a honeycomb check room for ecological remediation, and it includes grid plate and interception subassembly, it has a perfect understanding on the net check wall of grid plate has seted up the wash port, the interception subassembly includes the blend stop and is used for holding the rose box of filter material, blend stop and rose box all with grid plate fixed connection, the guiding gutter has been seted up along net plate thickness direction on the blend stop, the guiding gutter has a perfect understanding on the cell wall of grid plate one side and has seted up the outlet, outlet and a plurality of wash port intercommunication, the guiding gutter has a perfect understanding the setting along the length direction of blend stop, the one end and the rose box intercommunication of guiding gutter, the filtration pore has been seted up on the tank wall of rose box. This application can intercept the earth that carries in the rivers, reduces the possibility that soil runs off, improves the fixed effect to earth's surface soil.

Description

Honeycomb lattice room for ecological restoration

Technical Field

The application relates to the field of ecological restoration technology, in particular to a honeycomb cell for ecological restoration.

Background

The honeycomb cell is a novel ground surface improving device widely applied to engineering projects such as traffic, water conservancy, municipal administration, gardens, water and soil conservation and the like in recent years, and has a fixed effect on ground surface soil due to the honeycomb-like grid structure, so that the honeycomb cell is a preferred structural form for protecting riverbeds, governing landslides, preventing mud-rock flow and preventing rockfall and protecting the environment.

Chinese patent with publication number CN211773532U discloses a honeycomb grid for ecological remediation, which comprises a plurality of connecting nails, a plurality of gaskets and a plurality of honeycomb grid geotechnical grids net sheets, wherein the connecting nails comprise nail caps, nail rods and a plurality of elastic expansion sheets, the nail caps are fixedly connected with the nail rods, the elastic expansion sheets are arranged at the ends of the nail rods, and are uniformly distributed along the circumferential direction of the ends of the nail rods. Be equipped with mounting hole and through-hole on the honeycomb check room geotechnique graticule piece, wear to be equipped with jointly in the mounting hole of two adjacent honeycomb check room geotechnique check net pieces and connect the nail, the gasket joint is on the nail pole of connecting the nail. When in actual use, the operator uses the connecting nail to connect a plurality of honeycomb check room geogrids piece as an organic whole to will connect honeycomb check room geogrid net piece as an organic whole and bury underground in earth's surface soil, honeycomb check room geogrid net piece is fixed earth's surface soil.

To the above-mentioned correlation technique, the inventor thinks that, although honeycomb grid geotechnical grid sheet can fix the earth's surface soil, when earth's surface department precipitation is great, rivers carry earth's surface soil easily to pass through the through-hole of honeycomb grid geotechnical grid net piece, lead to the earth's surface to take place soil loss, influence the fixed effect of honeycomb grid to earth's surface soil.

SUMMERY OF THE UTILITY MODEL

In the correlation technique, when the precipitation of earth's surface department is great, rivers lead to earth's surface soil to take place to run off easily, influence the fixed effect of honeycomb check room to earth's surface soil, in order to improve this defect, this application provides a honeycomb check room for ecological remediation.

The application provides a honeycomb check room for ecological remediation adopts following technical scheme to obtain:

the utility model provides a honeycomb check room for ecological remediation, includes grid plate and interception subassembly, it has seted up the wash port to link up on the net wall of grid plate, the interception subassembly includes the blend stop and is used for holding the rose box of filter material, blend stop and rose box all with grid plate fixed connection, the guiding gutter has been seted up along grid plate thickness direction on the blend stop, the guiding gutter has been link up on the cell wall of grid plate one side and has been seted up the outlet, outlet and a plurality of wash port intercommunication, the guiding gutter has been link up the setting along the length direction of blend stop, the one end and the rose box intercommunication of guiding gutter, the filtration pore has been seted up on the tank wall of rose box.

Through above-mentioned technical scheme, when setting up the honeycomb check room, the operator buries into earth's surface soil with waffle slab and blend stop underground to make the top of waffle slab flush with the earth's surface, then to filling filter material in the filter box. When the precipitation on the ground surface is large, the rainwater carries the soil in the grid plate to move and permeates into the diversion trench through the drainage hole and the drainage outlet in sequence. Rainwater accumulated in the diversion trench flows along the diversion trench and conveys soil into the filter box. Afterwards, the filter material in the filter box intercepts soil, and redundant rainwater permeates into the underground through the filter holes, so that the soil is intercepted while the redundant rainwater is discharged, and the possibility of soil loss is reduced. When more soil is stored in the filter box, an operator takes out the soil and the filter material in the filter box, lays the soil and the filter material on the surface of the honeycomb grid, and fills a new filter material into the filter box, so that the soil can be continuously intercepted.

Preferably: the bottom wall of the diversion trench is arranged in a downward inclined mode in the direction towards the filter box.

Through the technical scheme, after the rainwater carries soil to enter the diversion trench, the rainwater is under the component force action of gravity and carries the soil to automatically flow towards the filter box, so that the drainage efficiency of the diversion trench is improved, and the possibility that the rainwater overflows the diversion trench is reduced.

Preferably: the baffle strip is provided with a baffle strip, the baffle strip is provided with a baffle plate, the baffle plate is fixedly connected with a magnetic block, and the magnetic block is attracted with the magnetic plate.

Through above-mentioned technical scheme, when having saved more earth in the guiding gutter, the operator promotes the slider along the length direction of guiding gutter, and the slider drives the scraper blade and slides along the guiding gutter, and the scraper blade is cleared up the earth of saving in to the guiding gutter, and the lateral wall that is up to scraper blade and rose box is contradicted. At the moment, the scraper blade pushes the soil in the diversion trench into the filter box, so that the soil in the diversion trench is cleaned. Then, the operator moves the slider towards the direction of the magnetic plate until the magnetic block is attracted with the magnetic plate, and the slider can be fixed.

Preferably: the mounting groove has been seted up towards one side of guiding gutter diapire to the slider, the mounting groove internal rotation is provided with the roller, the roller is contradicted with the inclined plane.

Through the technical scheme, when the sliding block slides along the guide groove, the rolling friction is formed between the roller and the bottom wall of the guide groove, so that the friction force applied to the groove wall of the guide groove is small, and the possibility of abrasion of the groove wall of the guide groove is reduced.

Preferably: one side fixedly connected with rubber gasket of scraper blade towards the rose box, rubber gasket is used for buffering the slider.

Through above-mentioned technical scheme, when the scraper blade contradicts with the rose box, the rubber gasket has reduced the impact force that the rose box received to reduce the rose box and because of receiving the possibility that the impact takes place to warp, prolonged the life of rose box.

Preferably: still include supporting component, supporting component includes the backup pad, the backup pad passes through the connecting piece and is connected with the blend stop.

Through above-mentioned technical scheme, when burying grid plate and blend stop underground, the operator also buries the backup pad underground, and the backup pad has disperseed the weight of blend stop and honeycomb net to reduce the backup pad and the sunken possibility of grid plate in soil, improved the fixed effect to soil.

Preferably: the connecting piece includes mounting bar and screw rod, mounting bar fixed connection is on the lateral wall of blend stop, the screw rod wears to establish mounting bar and backup pad simultaneously, and with backup pad fixed connection.

Through above-mentioned technical scheme, when needs change the backup pad, the operator rotates the screw rod, until the threaded connection between screw rod and the backup pad is relieved, then through the screw rod with another backup pad threaded connection in blend stop below, can realize the change to the backup pad.

Preferably: the supporting component further comprises a sleeve and a positioning column, the sleeve penetrates through the supporting plate and is fixedly connected with the supporting plate, threads are arranged on the outer side wall of the positioning column and the inner side wall of the sleeve, and the positioning column penetrates through the sleeve and is in threaded connection with the sleeve.

Through above-mentioned technical scheme, when burying grid plate and blend stop underground, the operator buries the backup pad underground earlier, then rotates the reference column, until the reference column wears into in the soil of backup pad below. The screw thread on the reference column lateral wall has increased the area of contact of reference column and soil, and soil exerts frictional force to the reference column to support the backup pad through the reference column, thereby improved the backup pad to the supporting effect of establishing grid plate and blend stop.

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

1. when the rainwater on the earth surface is more, the rainwater carries the soil in the grid plate to enter the diversion trench and enter the filter box along the diversion trench, the filter material in the filter box intercepts the soil, and the residual rainwater permeates into the underground through the filter holes, so that the soil is intercepted. After more soil is accumulated in the filter box, an operator lays the soil and the filter material in the filter box on the surface of the grid plate, so that the possibility of soil loss is reduced;

2. through the setting of slider, when accumulating more earth in the guiding gutter, the operator slides the slider to in pushing the earth of guiding gutter into the rose box, thereby realized the clearance to the guiding gutter.

Drawings

Fig. 1 is a schematic view of the overall structure of a honeycomb cell for ecological restoration according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram for showing a filter hole according to an embodiment of the present application.

FIG. 3 is a schematic structural diagram for showing a slider according to an embodiment of the present application.

Fig. 4 is an enlarged view of a portion a in fig. 2.

Description of reference numerals:

1. a grid plate; 2. an interception component; 21. blocking strips; 22. a filter box; 3. a support assembly; 31. a support plate; 32. a sleeve; 33. a positioning column; 4. a connecting member; 41. mounting a bar; 42. a screw; 5. a drain hole; 6. a water outlet; 7. a diversion trench; 8. a box cover; 9. a filtration pore; 10. a slider; 11. mounting grooves; 12. a roller; 13. a magnetic plate; 14. a magnetic block; 15. a squeegee; 16. a rubber gasket.

Detailed Description

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

The embodiment of the application discloses a honeycomb cell for ecological restoration. Referring to fig. 1, the honeycomb cell for ecological restoration includes a grid plate 1, an intercepting assembly 2, and a supporting assembly 3, and a plurality of drainage holes 5 are formed on a grid wall of the grid plate 1 along a thickness direction. When the honeycomb cells need to be installed, an operator buries the grid plate 1 in the soil on the ground surface, and makes the top end of the grid plate 1 flush with the ground surface, and the support assembly 3 supports the grid plate 1. In rainy days, the interception component 2 intercepts and collects soil carried in surface water flow so as to reduce the possibility of soil loss and improve the fixation effect on the surface soil.

Referring to fig. 1 and 2, the interception component 2 includes barrier strip 21 and rose box 22, and barrier strip 21 is equipped with two altogether, and two barrier strips 21 set up along the width direction of grid 1 relatively, and two barrier strips 21 respectively with one side fixed connection of grid 1, and baffle strip 21 has seted up guiding gutter 7 towards one side of top along vertical direction, and the diapire of guiding gutter 7 sets up along the length direction downward sloping of grid 1, and the guiding gutter 7 link up the setting along the length direction of barrier strip 21. The diversion trench 7 has been seted up outlet 6 towards one side of grid plate 1, and a plurality of wash ports 5 in grid plate 1 edge all communicate with outlet 6. The filter box 22 is arranged along the width direction of the grid plate 1, and the outer side wall of the filter box 22 is fixedly connected with the edge of the grid plate 1. The top wall of the filter box 22 is rotatably connected with a box cover 8, one end of the groove wall of the diversion trench 7, which is inclined downwards, is communicated with the filter box 22, and the bottom wall of the filter box 22 is provided with a plurality of filter holes 9.

Referring to fig. 1 and 2, when burying the mesh panel 1, an operator buries the barrier strips 21 and the filter boxes 22 in the soil at the same time, and fills the filter boxes 22 with a filter material, which may be quartz sand. In rainy days, rainwater carries a part of soil in the grid plate 1 to enter the diversion trench 7 through the drainage hole 5 and the drainage port 6, and flows downwards along the diversion trench 7 until entering the filter box 22. Thereafter, the filter material intercepts the dirt in the water flow, and the remaining water flow leaves the filter box 22 through the filter holes 9 and penetrates into the ground. When more earth is accumulated in the filter box 22, the operator opens the filter box 22 and lays the earth and the filter material in the filter box 22 on the surface of the grid plate 1, thereby realizing the recovery of the earth. Thereafter, the operator fills the filter box 22 with new filter material, which continues to intercept the soil.

Referring to fig. 2 and 3, a sliding block 10 is arranged in the diversion trench 7, two mounting grooves 11 are formed in one end, facing the bottom wall of the diversion trench 7, of the sliding block 10, a roller 12 is rotatably connected to the groove walls of the two mounting grooves 11, the sliding block 10 is in sliding fit with the diversion trench 7 through the roller 12, the roller 12 reduces friction between the sliding block 10 and the diversion trench 7, and the possibility of abrasion of the groove wall of the diversion trench 7 is reduced. One end of the diversion trench 7, which is far away from the filter box 22, is fixedly connected with a magnetic plate 13 at a port, one side of the slider 10, which faces the magnetic plate 13, is fixedly connected with a magnetic block 14, and the magnetic block 14 is attracted with the magnetic plate 13. One side of the slide block 10 facing the filter box 22 is fixedly connected with a scraper 15, and the scraper 15 is attached to the wall of the diversion trench 7. A rubber gasket 16 is fixedly connected to a side of the scraper 15 facing the filter box 22, and when the scraper 15 contacts the outer sidewall of the filter box 22, the rubber gasket 16 cushions the scraper 15 and the slider 10.

Referring to fig. 2 and 3, when the mud deposited in the guiding gutter 7 needs to be cleaned, an operator pushes the sliding block 10 in a direction towards the filter box 22, so that the magnetic block 14 is separated from the magnetic plate 13, and the sliding block 10 drives the scraper 15 to move towards the filter box 22. When the sliding block 10 moves, the scraper 15 scrapes off the soil on the inner wall of the diversion trench 7 and pushes the soil to move until the rubber gasket 16 abuts against the outer side wall of the filter box 22. At this time, the scraper 15 pushes the soil in the diversion trench 7 into the filter box 22, so that the possibility that the diversion trench 7 is blocked by the soil is reduced, and the diversion trench 7 is cleaned.

Referring to fig. 2 and 4, the supporting assembly 3 includes a supporting plate 31, a sleeve 32 and a positioning column 33, the supporting plate 31 is disposed one below each barrier strip 21, the area of the supporting plate 31 is larger than the cross-sectional area of the barrier strip 21, and the supporting plate 31 is detachably connected to the barrier strip 21 through a connecting member 4. The number of the sleeves 32 is six, and three sleeves 32 are provided on one support plate 31. Sleeve 32 passes support plate 31 along vertical direction to with support plate 31 fixed connection, all be equipped with the screw thread on the inside wall of sleeve 32 and the lateral wall of reference column 33, reference column 33 passes sleeve 32, and with sleeve 32 threaded connection, reference column 33 and sleeve 32 one-to-one.

Referring to fig. 2 and 4, the connecting member 4 includes two mounting bars 41 and two screws 42, the two mounting bars 41 are disposed on each barrier bar 21, and two side walls of the barrier bars 21 along the width direction of the grid plate 1 are fixedly connected to one mounting bar 41. Twenty screw rods 42 are arranged, five screw rods 42 are arranged on one side of each barrier strip 21 facing to each mounting strip 41, and the screw rods 42 simultaneously penetrate through the mounting strips 41 and the support plate 31 and are fixedly connected with the mounting strips 41 and the support plate 31. When the support plate 31 needs to be replaced, the operator rotates the screw rod 42 until the screw rod 42 is separated from the support plate 31, and then connects another support plate 31 to the screw rod 42 in a threaded manner, so that the support plate 31 can be replaced.

Referring to fig. 2 and 4, when burying the grid plate 1 and the barrier 21, the operator buries the support plate 31 and the sleeve 32 underground at the same time, and then rotates the positioning column 33, and the positioning column 33 moves downward in the vertical direction until penetrating into the soil below the support plate 31. Backup pad 31 can disperse the weight of blend stop 21 and grid plate 1, and the screw thread on the reference column 33 lateral wall can receive the frictional force of earth to reduce the possibility that blend stop 21 and grid plate 1 sink in soil, improved the fixed effect to soil.

The implementation principle of a honeycomb cell for ecological restoration of the embodiment of the application is as follows: when setting up the honeycomb cells, the operator first buries grid plate 1, filter box 22, barrier strip 21, support plate 31 and sleeve 32 in the soil, then rotates positioning column 33, makes positioning column 33 penetrate the soil below support plate 31. The operator then places the filter media into the filter box 22, thereby completing the honeycomb cells. In rainy days, rainwater carries soil in the grid plate 1 to enter the filter box 22, the filter material in the filter box 22 intercepts the soil, and the residual rainwater permeates into the ground through the filter holes 9. When more soil is accumulated in the diversion trench 7, the scraper 15 scrapes off the soil in the diversion trench 7. When accumulating more earth in the rose box 22, the operator lays earth and the filter material in the rose box 22 in the grid plate 1 top, packs new filter material to rose box 22 intussuseption again to realized the recovery to earth, reduced the possibility that soil runs off, improved the fixed effect to earth's surface soil.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution 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 application.

Claims (8)

1. A honeycomb cell for use in ecological remediation, comprising: including grid plate (1) and interception subassembly (2), wash port (5) have been seted up to having a perfect understanding on the latticed wall of grid plate (1), interception subassembly (2) include blend stop (21) and be used for holding rose box (22) of filter material, blend stop (21) and rose box (22) all with grid plate (1) fixed connection, draw-off groove (7) have been seted up along the thickness direction of grid plate (1) on blend stop (21), draw-off groove (7) have been seted up towards having a perfect understanding on the cell wall of grid plate (1) one side outlet (6), outlet (6) and a plurality of wash port (5) intercommunication, draw-off groove (7) have a perfect understanding the setting along the length direction of blend stop (21), the one end and the rose box (22) intercommunication of draw-off groove (7), rose hole (9) have been seted up on the tank wall of rose box (22).

2. A honeycomb cell for use in ecological restoration according to claim 1, characterized in that: the bottom wall of the diversion trench (7) is arranged in a downward inclination mode along the direction towards the filter box (22).

3. A honeycomb cell for use in ecological restoration according to claim 2, characterized in that: the utility model discloses a filter box, including guiding gutter (7), baffle strip (21), baffle strip (10), baffle groove (7), the internal sliding of guiding gutter (7) is provided with slider (10), slider (10) are towards one side fixedly connected with scraper blade (15) of rose box (22), the edge of scraper blade (15) and the cell wall laminating of guiding gutter (7), the one end fixedly connected with magnetic sheet (13) of rose box (22) are kept away from in blend stop (21), slider (10) are towards one side fixedly connected with magnetic block (14) of magnetic sheet (13), magnetic block (14) and magnetic sheet (13) actuation.

4. A honeycomb cell for use in ecological restoration according to claim 3, characterized in that: mounting groove (11) have been seted up towards one side of guiding gutter (7) diapire in slider (10), mounting groove (11) internal rotation is provided with roller (12), roller (12) are contradicted with the inclined plane.

5. A honeycomb cell for use in ecological restoration according to claim 3, characterized in that: one side of the scraping plate (15) facing the filter box (22) is fixedly connected with a rubber gasket (16), and the rubber gasket (16) is used for buffering the sliding block (10).

6. A honeycomb cell for use in ecological restoration according to claim 1, characterized in that: the device is characterized by further comprising a supporting component (3), wherein the supporting component (3) comprises a supporting plate (31), and the supporting plate (31) is connected with the barrier strip (21) through a connecting piece (4).

7. A honeycomb cell for use in ecological restoration according to claim 6, characterized in that: connecting piece (4) are including mounting bar (41) and screw rod (42), mounting bar (41) fixed connection is on the lateral wall of blend stop (21), mounting bar (41) and backup pad (31) are worn to establish simultaneously in screw rod (42), and with backup pad (31) fixed connection.

8. A honeycomb cell for use in ecological restoration according to claim 6, characterized in that: supporting component (3) still include sleeve (32) and reference column (33), backup pad (31) are worn to establish by sleeve (32), and with backup pad (31) fixed connection, all be equipped with the screw thread on the lateral wall of reference column (33) and on the inside wall of sleeve (32), sleeve (32) are worn to establish by reference column (33), and with sleeve (32) threaded connection.

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