CN214784542U - Novel cut slot structure - Google Patents

Abstract

The application relates to a novel cut groove structure, which belongs to the field of cut grooves and comprises a groove, a geomembrane, an ecological bag and a water tank; the ecological bag sets up a plurality ofly, the ecological bag along the inner wall of slot is put and is built, the geomembrane is laid the slot with between the ecological bag, the water tank sets up in the ecological bag, set up the capillary on the water tank. The impermeable membrane comprises an outer geomembrane, an inner geomembrane and plastic paper, wherein the plastic paper is arranged between the outer geomembrane and the inner geomembrane. This application has the effect that makes and cut the escape canal structure firm.

Description

Novel cut slot structure

Technical Field

The application relates to the field of cutting grooves, in particular to a novel cutting groove structure.

Background

In the current geological disaster treatment and ecological environment restoration engineering, surface running water formed by rainfall is often dredged by adopting water interception and drainage measures.

The traditional construction of cutting the slot adopts the stone structure of starching or concrete structure, is rigid structural feature, and the ground basis of geological disaster development district or ecological environment restoration district often all is not very firm, often causes the rigid to cut the slot and takes place crack, frustrate disconnected, built on stilts phenomenon. In addition, the traditional cut groove structure does not have an ecological function, a rigid structure body is not beneficial to the growth of vegetation, and the visual effect is poor.

In view of the above-mentioned related art, the inventors consider that there is a defect that a rigid truncated groove structure is susceptible to cracking.

SUMMERY OF THE UTILITY MODEL

In order to improve the technical problem that the rigid cut groove structure is easy to crack, the application provides a novel cut groove structure.

The application provides a pair of novel cut groove structure adopts following technical scheme:

a novel groove cutting structure comprises a groove, a geomembrane, an ecological bag and a water tank; the ecological bag sets up a plurality ofly, the ecological bag along the inner wall of slot is put and is built, the geomembrane is laid the slot with between the ecological bag, the water tank sets up in the ecological bag, set up the capillary on the water tank.

By adopting the technical scheme, the novel groove is of a flexible structure, and replaces an original rigid structure formed by constructing a stone masonry structure or a concrete structure, so that the novel groove is not easy to crack, break, make overhead and the like in a geological disaster development area or an ecological environment restoration area, and is suitable for various environments; meanwhile, the grass seeds planted in the ecological bag are beneficial to the growth of vegetation; when the vegetation is in a drought condition, the capillary tube is used for guiding out water in the water tank, so that water is provided for the vegetation, and the vitality is kept.

Optionally, the impermeable membrane comprises an outer geomembrane, an inner geomembrane and plastic paper, wherein the plastic paper is arranged between the outer geomembrane and the inner geomembrane.

By adopting the technical scheme, the plastic paper is heated to bond the outer-layer geomembrane and the inner-layer geomembrane together, so that the anti-seepage membrane is not easy to be damaged by plant roots, and the anti-seepage function of the anti-seepage membrane is improved.

Optionally, the ecological bag has a small knitting twist on the top surface and a large knitting twist on the bottom surface.

By adopting the technical scheme, the seeds in the ecological bag can be ejected out of the top surface of the ecological bag to grow after sprouting; preventing the root system of the plant from damaging the geomembrane.

Optionally, the bottom thickness of the ecological bag is greater than the top thickness of the ecological bag.

Through adopting above-mentioned technical scheme, prevent that plant roots from destroying the geomembrane.

Optionally, it is adjacent set up the connector link between the ecological bag, the connector link includes connecting plate and pointed cone, the pointed cone is fixed to be set up the both sides of connecting plate, the pointed cone pierces through adjacently the top surface and the bottom surface of ecological bag, the pointed cone inserts adjacently in the ecological bag.

Through adopting above-mentioned technical scheme for the shearing force increase between the adjacent ecological bag is difficult for taking place the dislocation, makes the connection between the adjacent ecological bag more firm.

Optionally, the capillary tube is provided in plurality.

Through adopting above-mentioned technical scheme for many capillary combined action, effectual for the plant provides more moisture, keeps vegetation.

Optionally, cotton thread is arranged in the capillary.

Through adopting above-mentioned technical scheme, water through the cotton thread in with the water tank is leading-in to ecological bag for water in the water tank provides moisture for the plant more easily.

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

1. the novel groove is of a flexible structure, and replaces an original rigid structure formed by constructing a stone masonry structure or a concrete structure, so that the novel groove is not easy to crack, break and make overhead in a geological disaster development area or an ecological environment restoration area, and the novel groove is suitable for various environments; meanwhile, the grass seeds planted in the ecological bag are beneficial to the growth of vegetation; when the vegetation is in a drought condition, the capillary tube is utilized to lead out the water in the water tank, so as to provide water for the vegetation and keep the vitality;

2. the plastic paper is heated to bond the outer-layer geomembrane and the inner-layer geomembrane together, so that the anti-seepage membrane is not easily damaged by plant roots, and the anti-seepage function of the anti-seepage membrane is improved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic structural view of the geomembrane in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a water tank in an embodiment of the present application.

Description of reference numerals: 1. a trench; 2. an impermeable membrane; 21. an outer geomembrane; 22. plastic paper; 23. an inner geomembrane; 3. an ecological bag; 4. a water tank; 5. a connecting buckle; 51. a connecting plate; 52. A pointed cone; 6. a capillary tube; 7. cotton threads; 8. a water intercepting and draining groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a novel cut groove structure. Referring to fig. 1, a novel cut groove structure includes a groove 1, an impermeable film 2, an ecological bag 3, and a water tank 4 placed in the ecological bag 3.

Referring to fig. 1, the groove 1 is a U-shaped groove formed below the side slope, a plurality of ecological bags 3 are laid in the groove 1, and the ecological bags 3 are laid along the inner wall of the groove 1 to form a U-shaped water intercepting and draining groove 8. Planting soil is filled in the ecological bags 3, grass seeds are added into the planting soil, the weaving twist of the top surfaces of the ecological bags 3 is smaller than that of the bottom surfaces of the ecological bags 3, so that seeds in the ecological bags 3 can be ejected out of the top surfaces of the ecological bags 3 to grow after sprouting, the thickness of the bottom surfaces of the ecological bags 3 is larger than that of the top surfaces of the ecological bags 3, plant root systems are prevented from damaging the bottom surfaces of the ecological bags 3, adjacent ecological bags 3 are connected through connecting buckles 5, and each connecting buckle 5 comprises a connecting plate 51 and pointed cones 52 fixedly arranged on two sides of the connecting plate 51; the connecting plate 51 is rectangular, a plurality of pointed cones 52 are arranged, and the pointed parts of the pointed cones 52 are arranged towards one side far away from the connecting plate 51. The pointed cone 52 pierces through the adjacent ecological bags 3, and the pointed cone 52 is inserted into the ecological bags 3, and through setting up the connecting buckle 5, the shearing force between the adjacent ecological bags 3 is increased, so that the dislocation is not easy to occur between the adjacent ecological bags 3, and the structure of the water cut-off and drainage groove 8 is more stable.

Referring to fig. 2, the impermeable membrane 2 is laid between the inner wall of the trench 1 and the ecological bag 3 to prevent water in the trench 1 from permeating into soil below the trench 1. The impermeable membrane 2 comprises an outer geomembrane 21, an inner geomembrane 23 and plastic paper 22, wherein the plastic paper 22 is positioned between the outer geomembrane 21 and the inner geomembrane 23, the outer geomembrane 21 is arranged close to the grooves 1, and during manufacturing, the plastic paper 22 is heated to enable the outer geomembrane 21 and the inner geomembrane 23 to be bonded.

Referring to fig. 3, the water tank 4 is a cuboid, a plurality of capillary tubes 6 are fixedly arranged on the water tank 4, one ends of the capillary tubes 6 are inserted into the water tank 4, and the other ends of the capillary tubes 6 are positioned in the ecological bag 3; the capillary 6 is internally provided with a cotton thread 7 in a penetrating way, the two ends of the cotton thread 7 respectively extend out of the capillary 6, and the cotton thread 7 conveys water in the water tank 4 to the ecological bag 3 to provide water for vegetation growing on the ecological bag 3.

The implementation principle of the application is as follows: a U-shaped groove 1 is formed below a side slope, and a sand cushion layer is arranged in a region with more convex stones in the groove 1, so that the groove 1 is smooth. An impermeable film 2 is laid in the groove 1 to prevent water in the groove 1 from permeating into soil below the groove 1. Set up ecological bag 3 in the slot 1, ecological bag 3 is laid along slot 1's inner wall, forms the section water drainage tank 8 of U type, sets up water tank 4 in the ecological bag 3, and the fixed many capillaries 6 that are provided with on the water tank 4 wear to establish cotton thread 7 in the capillary 6, and capillary 6 is stretched out at the both ends of cotton thread 7, and when the arid, cotton thread 7 exports the water in the water tank 4, provides moisture for the vegetation. Set up connector link 5 between adjacent ecological bag 3 for connect firmly between the ecological bag 3, be difficult for producing the dislocation. The novel groove is of a flexible structure, is not easy to crack, break and make overhead, and can be suitable for various environments; simultaneously, still make novel drainage ditch of cutting have ecological function.

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 (7)

1. The utility model provides a novel cut slot structure which characterized in that: comprises a groove (1), an impermeable membrane (2), an ecological bag (3) and a water tank (4); ecological bag (3) set up a plurality ofly, it is a plurality of ecological bag (3) are along the inner wall pendulum step of slot (1), prevention of seepage membrane (2) are laid slot (1) with between ecological bag (3), water tank (4) set up in ecological bag (3), set up capillary (6) on water tank (4).

2. A novel truncated trench structure as set forth in claim 1, wherein: the impermeable membrane (2) comprises an outer geomembrane (21), an inner geomembrane (23) and plastic paper (22), wherein the plastic paper (22) is arranged between the outer geomembrane (21) and the inner geomembrane (23).

3. A novel truncated trench structure as set forth in claim 1, wherein: the top surface of the ecological bag (3) is low in weaving twist, and the bottom surface of the ecological bag (3) is high in weaving twist.

4. A novel truncated trench structure as set forth in claim 1, wherein: the bottom surface thickness of the ecological bag (3) is larger than the top surface thickness of the ecological bag (3).

5. The novel truncated trench structure of claim 4, wherein: adjacent set up connector link (5) between ecological bag (3), connector link (5) are including connecting plate (51) and sharp awl (52), sharp awl (52) are fixed to be set up the both sides of connecting plate (51), sharp awl (52) are impaled adjacently the top surface and the bottom surface of ecological bag (3), it is adjacent that sharp awl (52) insert in ecological bag (3).

6. A novel truncated trench structure as set forth in claim 1, wherein: the capillary tube (6) is provided with a plurality of capillary tubes.

7. The novel truncated trench structure of claim 6, wherein: and cotton threads (7) are arranged in the capillary tube (6).

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