CN215053097U - Slope greening and reinforcing structure suitable for slope rate method - Google Patents

Abstract

The utility model discloses a side slope afforestation reinforced structure suitable for slope rate method belongs to side slope reinforced structure field, and side slope afforestation reinforced structure includes assembled surface course, a plurality of structure staple and an at least tensile connecting strip, and is a plurality of structure staple in a row sets up, every row the structure staple all passes the assembled surface course, and will the assembled surface course is fixed on the side slope base member, at least one the tensile connecting strip is established ties a plurality of the structure staple of one row or the multirow of structure staple makes a plurality of structure staples link into the structure nail net. The slope greening reinforcing structure is simple in structure, convenient to fix and connect in series, and not only can be used for connecting a plurality of structural fixing nails into a whole, but also can not influence the normal growth of plants.

Description

Slope greening and reinforcing structure suitable for slope rate method

Technical Field

The utility model relates to a side slope reinforced structure field especially relates to a side slope greening reinforced structure suitable for slope rate method.

Background

In traditional side slope work progress, often adopt a plurality of structure nails directly to follow closely side slope protection surface course on domatic, this type side slope protection surface course leads to the structure nail pine easily because some slope bases infiltration or not hard up to move or drop, and this just makes the side slope protection surface course in corresponding region appear the landing scheduling problem easily. Adopt above-mentioned traditional side slope fixed mode to have following problem: (1) the nodes of the series materials are more, the construction is inconvenient and the efficiency is low; (2) the side slope protective surface layer is difficult to form an integral protective net and is easy to erode; (3) the construction on the slope surface involves many working procedures, the construction time for constructors to ascend the slope is long, and the damage to the vegetation surface layer is serious.

Chinese patent document publication No. CN212612531U the utility model discloses a novel side slope protection network, including the stay cord subassembly, first stratum reticulare, the second stratum reticulare, the stay cord subassembly is interweaved by many mutually perpendicular's warp-wise stay cord and latitudinal direction stay cord and forms, warp-wise stay cord is connected through the stay cord mounting with latitudinal direction stay cord, first stratum reticulare is located the stay cord mesh of stay cord subassembly, and be connected with warp-wise stay cord or latitudinal direction stay cord through stitching the rope, first stratum reticulare is interweaved by a plurality of warp steel wires and latitude steel wire and forms, the warp steel wire is connected through the second buckle with the latitude steel wire, the second stratum reticulare is worked out on first stratum reticulare to become an organic whole with first stratum reticulare. The novel side slope protection net is quite complex in structure, easily influences the growth of plants, and is also more in construction procedures.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem that a slope greening reinforced structure suitable for slope rate method is proposed, its simple structure is fixed and establish ties very conveniently, not only can be even as an organic whole with a plurality of structure staple, can not influence the normal growth of plant moreover.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a pair of side slope afforestation reinforced structure suitable for slope rate method, including assembled surface course, a plurality of structure staple and at least one tensile connecting strip, it is a plurality of construct the staple in a row setting, every row construct the staple and all pass the assembled surface course, and will the assembled surface course is fixed on the side slope base member, at least one the tensile connecting strip is established ties a plurality of construct the one row of or the multirow structure staple of structure staple make a plurality of structure staples link into the structure nail net.

The technical scheme of the utility model is that a plurality of said constructional fixture nails are arranged in rows along the transverse direction, and each tensile connecting strip extending transversely passes through a row of a plurality of said constructional fixture nails arranged in rows along the transverse direction; and/or a plurality of said construction staples are arranged in a longitudinal row; each longitudinally extending tensile connecting strip passes through a row of a plurality of the construction staples in a longitudinal row.

The utility model discloses a further technical scheme lies in, still include a plurality of fasteners corresponding with a plurality of structure staple, every the fastener is all fixed correspondingly the tip of structure staple to it is corresponding to make to establish ties construct the staple the tensile connecting strip is pressed from both sides the fastener with between the assembled surface course.

The utility model discloses a further technical scheme lies in, be provided with at least one through-hole on the structure staple, transversely extend tensile connecting strip and/or longitudinal extension tensile connecting strip passes correspondingly through-hole on the structure staple.

The utility model discloses a further technical scheme lies in, if do not set up the through-hole on the structure staple, transversely extend tensile connecting strip and/or longitudinal extension tensile connecting strip is along corresponding the lateral wall of structure staple is walked around correspondingly the structure staple.

The technical solution of the present invention is that the fastening member is configured as a U-shaped clip.

The utility model discloses a further technical scheme lies in, U type card includes first connecting plate, second connecting plate and bolt, the first end of first connecting plate with the first end of second connecting plate links to each other, the second end of first connecting plate passes through the bolt with the second end fixed connection of second connecting plate, be provided with on the first connecting plate with construct the first recess of staple external diameter looks adaptation, be provided with on the second connecting plate with construct the second recess of staple external diameter looks adaptation.

The utility model has the advantages that:

the utility model provides a side slope afforestation reinforced structure suitable for slope rate method, the assembled surface course has been set up, a plurality of structure staple and at least one tensile connecting strip, a plurality of structure staple is established ties through at least one tensile connecting strip, make a plurality of structure staple even become the structure nail net, this kind makes the nail net not only make a plurality of structure staples even become a whole, and it need not occupy the space above the assembled surface course unlike schemes such as cover wire netting, and similar rope constitutes the very big rectangle of a plurality of intervals, this kind of very big rectangle of interval makes the structure nail net that this application provided can not influence the normal growth of plant. In addition, slope greening reinforced structure that this application provided still overcomes among the traditional art domatic whole protection poor, the easy defect of being eroded.

Drawings

Fig. 1 is a front view of a slope greening reinforcing structure provided in a first embodiment of the present invention;

fig. 2 is a side sectional view of a slope greening reinforcing structure provided in the first embodiment of the present invention;

fig. 3 is a partial sectional side view of a slope greening reinforcing structure provided in the first embodiment of the present invention;

fig. 4 is a partial sectional side view of the slope greening reinforcing structure provided in the second embodiment of the present invention.

In the figure:

1. an assembled facing; 2. constructing a fixing nail; 3. a tensile connecting strip; 4. a fastener; 21. a through hole; 41. a first connecting plate; 42. a second connecting plate; 43. a bolt; 44. a first groove; 45. a second groove; 5. a slope substrate.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 3, the slope greening reinforcing structure suitable for the slope rate method provided in this embodiment includes an assembled surface layer 1, a plurality of structural fixing nails 2 and at least one tensile connecting strip 3, the structural fixing nails 2 are arranged in a row, in order to make each fixing point of the assembled surface layer 1 evenly stressed, generally, the structural fixing nails 2 are arranged in a row at equal intervals and/or the structural fixing nails 2 are arranged in a row at equal intervals, and in more cases, the structural fixing nails 2 form a plurality of rows which are distributed in two directions, namely, the horizontal direction and the vertical direction. Every row of structure staple 2 all passes assembled surface course 1, and fix assembled surface course 1 on side slope base member 5, at least one tensile connecting strip 3 establishes ties the structure staple 2 of a row or multirow of a plurality of structure staples 2 and makes a plurality of structure staples 2 link into the structure nail net, this kind of nail net of making not only makes a plurality of structure staples 2 link into a whole, and it need not occupy the space above assembled surface 1 layer unlike the scheme such as cover wire netting among the prior art, but similar rope constitutes the very big rectangle of a plurality of intervals, the very big rectangle of this interval makes the structure nail net that this application provided can not influence the normal growth of plant.

In order to enable the plurality of structural fixing nails 2 to form the nail making net after being connected in series through the tensile connecting strips 3, further, the plurality of structural fixing nails 2 are arranged in rows along the transverse direction, and each tensile connecting strip 3 extending in the transverse direction penetrates through a row of a plurality of structural fixing nails 2 arranged in rows along the transverse direction and/or a plurality of structural fixing nails 2 arranged in rows along the longitudinal direction; each longitudinally extending tensile connecting strip 3 passes through a row of a plurality of construction staples 2 in a longitudinal row. That is, the plurality of configuration staples 2 are either arranged in transverse rows, or in longitudinal rows and/or alternately in transverse and longitudinal directions.

In order to make the connection part of the construction fixing nail 2 and the tensile connecting strip 3 more tight, further, the slope greening reinforcing structure further comprises a plurality of fastening pieces 4 corresponding to the plurality of construction fixing nails 2, each fastening piece 4 is fixed at the end part of the corresponding construction fixing nail 2, and the tensile connecting strip 3 connected with the corresponding construction fixing nail 2 in series is clamped between the fastening piece 4 and the assembled surface layer 1. The fastening element 4 can be clamped between the fastening element 4 and the assembled surface layer 1 to fix the structure fixing nail 2 and the tensile connecting strip 3, and the fastening element 4 can fix the tensile connecting strip 3 on the structure fixing nail 2 to achieve the same purpose. Preferably, the fastening means 4 are configured as a U-shaped card, which is able to adapt to the shape of the constructional staple 2. Further preferably, the U-shaped clip comprises a first connecting plate 41, a second connecting plate 42 and a bolt 43, wherein a first end of the first connecting plate 41 is connected with a first end of the second connecting plate 42, a second end of the first connecting plate 41 is fixedly connected with a second end of the second connecting plate 42 through the bolt 43, the first connecting plate 41 is provided with a first groove 44 matched with the outer diameter of the structure fixing nail 2, and the second connecting plate 42 is provided with a second groove 45 matched with the outer diameter of the structure fixing nail 2. When the structure fixing nail is used specifically, the U-shaped clamp is sleeved on the structure fixing nail 2, so that the first groove 44 and the second groove 45 are matched with the outer diameter of the structure fixing nail 2, the bolt 43 is used for locking the second ends of the first connecting plate 41 and the second connecting plate 42 of the U-shaped clamp, and the U-shaped clamp can be fastened.

If no through-hole 21 is provided in the construction fastening nail 2, the transversely extending tensile connecting strips 3 and/or the longitudinally extending tensile connecting strips 3 pass around the respective construction fastening nail 2 along the side wall of the respective construction fastening nail 2. At this time, each fastening member 4 is fixed to the end of the corresponding construction staple 2, and the tensile connecting strip 3 connected in series with the corresponding construction staple 2 is sandwiched between the fastening member 4 and the fabricated surface layer 1, so that the tensile connecting strip 3 is locked to the end of the construction staple 2, which is very simple to install.

Example two

As shown in fig. 4, the slope greening reinforcing structure suitable for the slope rate method provided in this embodiment includes an assembled surface layer 1, a plurality of structural fixing nails 2, and at least one tensile connecting strip 3, the plurality of structural fixing nails 2 are arranged in a row, each row of structural fixing nails 2 passes through the assembled surface layer 1, and the assembled surface layer 1 is fixed on a slope substrate 5, and the at least one tensile connecting strip 3 is connected in series with one or more rows of structural fixing nails 2 of the plurality of structural fixing nails 2, so that the plurality of structural fixing nails 2 are connected into a structural nail net.

The difference between the first embodiment and the second embodiment is that:

the constructional fixing nail 2 is provided with at least one through hole 21, and the transverse extending tensile connecting strip 3 and/or the longitudinal extending tensile connecting strip 3 pass through the corresponding through hole 21 on the constructional fixing nail 2. The tensile connecting strip 3 can connect a plurality of the construction fixing nails 2 into a construction nail net by penetrating the construction fixing nails 2. This is not only relatively simple to install, but also can be fastened with the fastening element 4. Of course, by distributing the tensile connecting strips 3 in both the horizontal and vertical directions, the corresponding through holes 21 should also be divided into horizontal or vertical through holes for adaptation.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (7)

1. The utility model provides a side slope afforestation reinforced structure suitable for slope rate method which characterized in that includes:

-a fabricated surface layer (1);

a plurality of structural fixing nails (2); the plurality of the structure fixing nails (2) are arranged in rows, each row of the structure fixing nails (2) penetrates through the assembled surface layer (1), and the assembled surface layer (1) is fixed on the slope base body;

at least one tensile connecting strip (3); at least one tensile connecting strip (3) is connected with one or more rows of the plurality of constructional fixing nails (2) in series, so that the plurality of constructional fixing nails (2) are connected into a constructional nail net.

2. The slope afforestation reinforcement structure suitable for the slope rate method according to claim 1, characterized in that:

a plurality of the structural fixing nails (2) are arranged in rows along the transverse direction, and each tensile connecting strip (3) extending in the transverse direction penetrates through a row of the plurality of the structural fixing nails (2) arranged in rows along the transverse direction; and/or

A plurality of the structural fixing nails (2) are arranged in rows along the longitudinal direction; each longitudinally extending tensile connecting strip (3) passes through a row of a plurality of the constructional fixing nails (2) in a row along the longitudinal direction.

3. The slope afforestation reinforcement structure suitable for the slope rate method according to claim 1 or 2, characterized in that:

the fixing device also comprises a plurality of fasteners (4) corresponding to the plurality of structural fixing nails (2);

each fastener (4) is fixed at the end of the corresponding construction staple (2) and the tensile connecting strip (3) connecting the corresponding construction staple (2) in series is clamped between the fastener (4) and the assembled surface layer (1).

4. The slope afforestation reinforcement structure suitable for the slope rate method according to claim 3, characterized in that:

the structure fixing nail (2) is provided with at least one through hole (21);

the tensile connecting strips (3) extending transversely and/or the tensile connecting strips (3) extending longitudinally pass through the through holes (21) on the corresponding construction fixing nails (2).

5. The slope afforestation reinforcement structure suitable for the slope rate method according to claim 2, characterized in that:

if the structure fixing nail (2) is not provided with a through hole (21);

the tensile connecting strips (3) extending transversely and/or the tensile connecting strips (3) extending longitudinally bypass the respective construction fastening nails (2) along the side walls of the respective construction fastening nails (2).

6. The slope afforestation reinforcement structure suitable for the slope rate method according to claim 3, characterized in that:

the fastener (4) is configured as a U-shaped card.

7. The slope afforestation reinforcement structure suitable for the slope rate method according to claim 6, characterized in that:

the U-shaped card comprises a first connecting plate (41), a second connecting plate (42) and a bolt (43);

the first end of the first connecting plate (41) is connected with the first end of the second connecting plate (42), and the second end of the first connecting plate (41) is fixedly connected with the second end of the second connecting plate (42) through the bolt (43);

the first connecting plate (41) is provided with a first groove (44) matched with the outer diameter of the structure fixing nail (2);

and a second groove (45) matched with the outer diameter of the structure fixing nail (2) is arranged on the second connecting plate (42).

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