CN109629514A - A kind of oblique pull slope protection - Google Patents
A kind of oblique pull slope protection Download PDFInfo
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- CN109629514A CN109629514A CN201811628536.2A CN201811628536A CN109629514A CN 109629514 A CN109629514 A CN 109629514A CN 201811628536 A CN201811628536 A CN 201811628536A CN 109629514 A CN109629514 A CN 109629514A
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- building block
- slope protection
- oblique pull
- bridle port
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- 230000004224 protection Effects 0.000 title claims abstract description 122
- 239000002689 soil Substances 0.000 abstract description 7
- 238000000034 method Methods 0.000 abstract description 4
- 239000004576 sand Substances 0.000 abstract 1
- 238000010586 diagram Methods 0.000 description 26
- 230000015572 biosynthetic process Effects 0.000 description 15
- 230000001681 protective effect Effects 0.000 description 15
- 238000002513 implantation Methods 0.000 description 10
- 238000010276 construction Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000012876 topography Methods 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Classifications
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02B—HYDRAULIC ENGINEERING
- E02B3/00—Engineering works in connection with control or use of streams, rivers, coasts, or other marine sites; Sealings or joints for engineering works in general
- E02B3/04—Structures or apparatus for, or methods of, protecting banks, coasts, or harbours
- E02B3/12—Revetment of banks, dams, watercourses, or the like, e.g. the sea-floor
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02B—HYDRAULIC ENGINEERING
- E02B3/00—Engineering works in connection with control or use of streams, rivers, coasts, or other marine sites; Sealings or joints for engineering works in general
- E02B3/04—Structures or apparatus for, or methods of, protecting banks, coasts, or harbours
- E02B3/12—Revetment of banks, dams, watercourses, or the like, e.g. the sea-floor
- E02B3/14—Preformed blocks or slabs for forming essentially continuous surfaces; Arrangements thereof
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Environmental & Geological Engineering (AREA)
- Ocean & Marine Engineering (AREA)
- Mechanical Engineering (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Pit Excavations, Shoring, Fill Or Stabilisation Of Slopes (AREA)
- Revetment (AREA)
Abstract
The present invention relates to a kind of oblique pull slope protections.To solve existing slope protection to the more demanding of production and processing and transportational process, and generation type it is single, be difficult to adapt to the problem of environment diversified demand, the present invention provides a kind of oblique pull slope protections, including multiple building block units and Duo Gen rope, building block unit is made of at least one building block, multiple building block units are linked to be slope protection column by rope, and slope protection Leie time arrangement forms slope protection.The present invention is applied to the anti-soil of bank of river and fixes the sand.The configuration of the present invention is simple, placement is simple, convenient, efficient, is widely used.
Description
Technical field
The present invention relates to a kind of oblique pull slope protections.
Background technique
In recent years, with the increasing that country invests water conservancy construction, occur many novel ecologicals in hydraulic engineering
Slope protection and Ecological Retaining Wall building block.Novel ecological slope protection and novel ecological barricade are due to its landscape, ecological and quick construction etc.
Advantage is widely promoted and applied.
Existing slope-protection block usually requires that corresponding convex block or groove is arranged, when being spliced to form slope protection, by adjacent
Convex block and groove between block are mutually matched to reach the function of slope protection locking.It is this to utilize block structure into line-locked side
Formula depends on the special bulk shape of slope-protection block, it is especially desirable to design special convex block or groove with interlock function.It crosses
Presence in complicated lock function region, production and processing and transportational process to slope-protection block propose higher requirement.And
And the shape in specific lock function region determines that the generation type of this slope protection is very single, it is difficult to adapt to different topography rings
The diversified demand in border.
Summary of the invention
It is single, difficult to the more demanding and generation type of production and processing and transportational process in order to solve existing slope protection
The technical issues of to adapt to environment diversified demand, the present invention provides a kind of oblique pull slope protections.
The technical scheme is that a kind of oblique pull slope protection, is characterized in that including multiple building block units and Duo Gen
Rope;
The building block unit includes building block;
Three splicing control points of the building block are labeled as A, B, C, and A, B, C point constitute isosceles triangle, and AB is long side;
Running through in the building block has left bridle port and right bridle port;The central axis of the left bridle port is parallel with DE, right
The central axis of bridle port is parallel with FG;
D is located at a quarter of AB, and F is located at 3/4ths of AB, and H is the midpoint of AB;
Angle between DE and AB is 45 ° ± 20 °, and the angle between FG and AB is 45 ° ± 20 °, and the rope is successively
Across the building block of each building block unit, slope protection column are formed, slope protection Leie time arrangement forms oblique pull slope protection.
Further, CH is greater than a quarter of AB, less than 3/4ths of AB, due to being less than a quarter of AB as CH
When, building block is unfavorable for cooperating between each building block close to rectangular block, and needs more building blocks in slope protection of the same area
It constitutes;When CH is greater than 3/4ths of AB, generally requires to open up a bridle port in building block more, increase being fabricated to for building block
This, therefore select CH between a quarter of AB to best between 3/4ths.
Further, DE is parallel with FG, and the left bridle port of building block at this time is parallel with right bridle port, when forming slope protection, respectively
It is able to maintain relatively parallel each other between rope, convenient for the placement of slope protection, saves rope.
Further, the angle between DE and AB is 45 °.
Further, CH is less than or equal to the half of AB.
Further, CH is equal to the half of AB.
Further, the profile of the cross section of the building block is triangle, and the bottom edge of the triangle is located on the side AB, three
Angular top is located at C point.
Further, the profile of the cross section of the building block be it is trapezoidal, the trapezoidal bottom is located on the side AB, it is trapezoidal on
The midpoint on bottom edge is located at C point.
Further, it is provided at least one implantation hole in the building block, when building block is different shape, can be set
In the implantation hole that blocks shape matches, the implantation hole of other shapes also can be set, as long as can be realized the mesh of plantation vegetation
, while considering that the aesthetics of building block and slope protection is best.
The beneficial effects of the present invention are:
Building block connection locking is formed the whole network so even slope-protection block is sent out in use using oblique rope by 1 present invention
Raw local damage has an impact the overall stability of slope protection also smaller;
2, the present invention forms slope protection column using by the building block unit of different number, so that slope protection is more convenient, high when placing
Effect.
3, the present invention can be applied to more by forming different building block units so that the form of slope protection is more various, beautiful
Kind environment, scene, application are more preferable.
Detailed description of the invention
Fig. 1 is that control point schematic diagram is spliced in building block of the present invention;
Fig. 2 is the structural schematic diagram of the embodiment of the present invention one, two oblique pull slope protection block of embodiment;
Fig. 3 is first side view of the embodiment of the present invention one to 15 oblique pull slope protection block of embodiment;
Fig. 4 is one oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Fig. 5 is two oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Fig. 6 is the structural schematic diagram of three oblique pull slope protection block of the embodiment of the present invention;
Fig. 7 is three oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Fig. 8 is the structural schematic diagram of four oblique pull slope protection block of the embodiment of the present invention;
Fig. 9 is four oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 10 is the structural schematic diagram of the embodiment of the present invention five, six oblique pull slope protection block of embodiment;
Figure 11 is five oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 12 is six oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 13 is the structural schematic diagram of the embodiment of the present invention seven, eight oblique pull slope protection block of embodiment;
Figure 14 is seven oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 15 is eight oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 16 be the embodiment of the present invention nine, embodiment ten, 11 oblique pull slope protection block of embodiment structural schematic diagram;
Figure 17 is nine oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 18 is ten oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 19 is 11 oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 20 is the structural schematic diagram of 12 oblique pull slope protection block of the embodiment of the present invention;
Figure 21 is 12 oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 22 is the structural schematic diagram of 13 oblique pull slope protection block of the embodiment of the present invention;
Figure 23 is 13 oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 24 is the structural schematic diagram of 14 oblique pull slope protection block of the embodiment of the present invention;
Figure 25 is 14 oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Figure 26 is the structural schematic diagram of 15 oblique pull slope protection block of the embodiment of the present invention;
Figure 27 is 15 oblique pull protective slope structure schematic diagram of the embodiment of the present invention;
Description of symbols:
The top surface 1-, the bottom surface 2-, 3- first side, the left bridle port of 4-, the right bridle port of 5-, 6- rope, 7- implantation hole, 8- are symmetrical
Axis.
Specific embodiment
It elaborates below in conjunction with attached drawing to the present invention.
Such as Fig. 1, three splicing control points of the building block are A, B, C, and splicing control point A, B, C point constitutes isoceles triangle
Shape, and AB is long side;
Running through in the building block has left bridle port 4 and right bridle port 5;The central axis of the left bridle port 4 is parallel with DE,
The central axis of right bridle port 5 is parallel with FG;
D is located at a quarter of AB, and F is located at 3/4ths of AB, and H is the midpoint of AB, and the folder between DE and AB
Angle is 45 ° ± 20 °, and the angle between FG and AB is 45 ° ± 20 °.
Embodiment one:
As shown in Figure 2 and Figure 3, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is the half of AB, that is, △ ABC is isosceles right triangle.The first side 3 of triangle building block and splicing control
The AB of point is overlapped;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, the central axis of right bridle port 5 and splicing
The FG at control point is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 be located at building block top surface 1 and bottom surface 2 it
Between;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a triangle building block.A piece rope 6 sequentially passes through the left rope of building block
Rope hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;It again will be multiple
Slope protection column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in Figure 4.
Embodiment two:
As shown in Figure 2 and Figure 3, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is the half of AB, that is, △ ABC is isosceles right triangle.The first side 3 of triangle building block and splicing control
The AB of point is overlapped;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, the central axis of right bridle port 5 and splicing
The FG at control point is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 be located at building block top surface 1 and bottom surface 2 it
Between;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes two triangle building blocks.One of building block is overturn 180 °, then
By the left bridle port 4 of two building blocks mutually splice to a building block unit, which includes under upper a building block and one
Building block.First rope 6 sequentially passes through the right bridle port 5 of building block, and second rope 6 sequentially passes through lower building block and upper building block
Left bridle port 4, third root rope 6 sequentially pass through the right bridle port 5 of lower building block, so that multiple building block units form a slope protection
Column;Multiple slope protections column are laterally successively arranged again, form oblique pull slope protection.The slope protection of formation is as shown in Figure 5.
Embodiment three:
As shown in Fig. 3, Fig. 6, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is between a quarter and half of AB.The first side 3 of triangle building block and the AB weight at splicing control point
It closes;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, central axis and the splicing control point of right bridle port 5
FG is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2;Building block
It is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a triangle building block.A piece rope 6 sequentially passes through the left rope of building block
Rope hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;It again will be multiple
Slope protection column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in Figure 7.
Example IV:
As shown in Fig. 3, Fig. 8, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is between the half of AB and 3/4ths.The first side 3 of triangle building block and the AB weight at splicing control point
It closes;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, central axis and the splicing control point of right bridle port 5
FG is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2;Building block
It is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a triangle building block.A piece rope 6 sequentially passes through the left rope of building block
Rope hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;It again will be multiple
Slope protection column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in Figure 9.
Embodiment five:
As shown in Fig. 3, Figure 10, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is the half of AB, that is, △ ABC is isosceles right triangle.The first side 3 of triangle building block and splicing control
The AB of point is overlapped;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, the central axis of right bridle port 5 and splicing
The FG at control point is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 be located at building block top surface 1 and bottom surface 2 it
Between;Building block is additionally provided with the implantation hole 7 of an isosceles right triangle, preferably to fix sandy soil;Building block is about symmetry axis 8
Symmetrically.
In the present embodiment, a building block unit includes a triangle building block.A piece rope 6 sequentially passes through the left rope of building block
Rope hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;It again will be multiple
Slope protection column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in figure 11.
Embodiment six:
As shown in Fig. 3, Figure 10, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is the half of AB, that is, △ ABC is isosceles right triangle.The first side 3 of triangle building block and splicing control
The AB of point is overlapped;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, the central axis of right bridle port 5 and splicing
The FG at control point is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 be located at building block top surface 1 and bottom surface 2 it
Between;Building block is additionally provided with the implantation hole 7 of an isosceles right triangle, preferably to fix sandy soil;Building block is about symmetry axis 8
Symmetrically.
In the present embodiment, a building block unit includes two triangle building blocks.One of building block is overturn 180 °, then
By the left bridle port 4 of two building blocks mutually splice to a building block unit, which includes under upper a building block and one
Building block.First rope 6 sequentially passes through the right bridle port 5 of building block, and second rope 6 sequentially passes through lower building block and upper building block
Left bridle port 4, third root rope 6 sequentially pass through the right bridle port 5 of lower building block, so that multiple building block units form a slope protection
Column;Multiple slope protections column are laterally successively arranged again, form oblique pull slope protection.The slope protection of formation is as shown in figure 12.
Embodiment seven:
As shown in Fig. 3, Figure 13, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is the half of AB, that is, △ ABC is isosceles right triangle.The first side 3 of triangle building block and splicing control
The AB of point is overlapped;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, the central axis of right bridle port 5 and splicing
The FG at control point is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 be located at building block top surface 1 and bottom surface 2 it
Between;Building block also set up there are two along the symmetrical isosceles right triangle of symmetry axis 8 implantation hole 7, preferably to fix sandy soil;
Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a triangle building block.A piece rope 6 sequentially passes through the left rope of building block
Rope hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;It again will be multiple
Slope protection column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in figure 14.
Embodiment eight:
As shown in Fig. 3, Figure 13, the present embodiment chooses splicing building block of the triangle building block as oblique pull slope protection.The present embodiment
In, CH is the half of AB, that is, △ ABC is isosceles right triangle.The first side 3 of triangle building block and splicing control
The AB of point is overlapped;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, the central axis of right bridle port 5 and splicing
The FG at control point is overlapped, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5 be located at building block top surface 1 and bottom surface 2 it
Between;Building block also set up there are two along the symmetrical isosceles right triangle of symmetry axis 8 implantation hole 7, preferably to fix sandy soil;
Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes two triangle building blocks.One of building block is overturn 180 °, then
By the left bridle port 4 of two building blocks mutually splice to a building block unit, which includes under upper a building block and one
Building block.First rope 6 sequentially passes through the right bridle port 5 of building block, and second rope 6 sequentially passes through lower building block and upper building block
Left bridle port 4, third root rope 6 sequentially pass through the right bridle port 5 of lower building block, so that multiple building block units form a slope protection
Column;Multiple slope protections column are laterally successively arranged again, form oblique pull slope protection.The slope protection of formation is as shown in figure 15.
Embodiment nine:
As shown in Fig. 3, Figure 16, the present embodiment chooses splicing building block of the trapezoidal building block as oblique pull slope protection.In the present embodiment,
The extended line of trapezoidal two waist is intersected in splicing control point C, and trapezoidal is isosceles trapezoid, and CH is the half of AB.Trapezoidal building block
First side 3 is overlapped with the AB at splicing control point;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, right rope
The central axis in hole 5 is overlapped with the FG at splicing control point, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5
Between building block top surface 1 and bottom surface 2;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a trapezoidal building block.A piece rope 6 sequentially passes through the left rope of building block
Hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;Again by multiple shields
Slope column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in figure 17.
Embodiment ten:
As shown in Fig. 3, Figure 16, the present embodiment chooses splicing building block of the trapezoidal building block as oblique pull slope protection.In the present embodiment,
The extended line of trapezoidal two waist is intersected in splicing control point C, and trapezoidal is isosceles trapezoid, and CH is the half of AB.Trapezoidal building block
First side 3 is overlapped with the AB at splicing control point;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, right rope
The central axis in hole 5 is overlapped with the FG at splicing control point, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5
Between building block top surface 1 and bottom surface 2;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes two trapezoidal building blocks, will after one of them trapezoidal building block overturns 180 °
The bottom of two trapezoidal building blocks is spliced so that the right bridle port 5 of two trapezoidal building blocks is corresponding, is had in a building block unit and is built under one
Block and a upper building block;First rope 6 sequentially passes through the left bridle port 4 of building block, and second rope 6 sequentially passes through building block
With the right bridle port 5 of lower building block, third root rope 6 sequentially passes through the left bridle port 4 of lower building block, so that multiple building block units are formed
One slope protection column;Multiple slope protections column are laterally successively arranged again, form oblique pull slope protection.The slope protection of formation is as shown in figure 18.
Embodiment 11:
As shown in Fig. 3, Figure 16, the present embodiment chooses splicing building block of the trapezoidal building block as oblique pull slope protection.In the present embodiment,
The extended line of trapezoidal two waist is intersected in splicing control point C, and trapezoidal is isosceles trapezoid, and CH is the half of AB.Trapezoidal building block
First side 3 is overlapped with the AB at splicing control point;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, right rope
The central axis in hole 5 is overlapped with the FG at splicing control point, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5
Between building block top surface 1 and bottom surface 2;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes two trapezoidal building blocks, will after one of them trapezoidal building block overturns 180 °
The upper bottom edge of two trapezoidal building blocks is spliced so that the left bridle port 4 of two trapezoidal building blocks is corresponding, is had in a building block unit and is built under one
Block and a upper building block;First rope 6 sequentially passes through the right bridle port 5 of building block, and second rope 6 sequentially passes through lower building block
With the left bridle port 4 of upper building block, third root rope 6 sequentially passes through the right bridle port 5 of lower building block, so that multiple building block units are formed
One slope protection column;Multiple slope protections column are laterally successively arranged again, form oblique pull slope protection.The slope protection of formation is as shown in figure 19.
Embodiment 12:
As shown in Fig. 3, Figure 20, the present embodiment chooses splicing building block of the trapezoidal building block as oblique pull slope protection.In the present embodiment,
The extended line of trapezoidal two waist is intersected in splicing control point C, and trapezoidal is isosceles trapezoid, a quarter and half of the CH between AB
Between.The first side 3 of trapezoidal building block is overlapped with the AB at splicing control point;The central axis of left bridle port 4 and splicing control point
DE be overlapped, the central axis of right bridle port 5 is overlapped with the FG for splicing control point, and angle is 45 ° between DE and AB;Left bridle port
4 and right bridle port 5 between building block top surface 1 and bottom surface 2;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a trapezoidal building block.A piece rope 6 sequentially passes through the left rope of building block
Hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;Again by multiple shields
Slope column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in figure 21.
Embodiment 13:
As shown in Fig. 3, Figure 22, the present embodiment chooses splicing building block of the trapezoidal building block as oblique pull slope protection.In the present embodiment,
The extended line of trapezoidal two waist is intersected in splicing control point C, and trapezoidal is isosceles trapezoid, half and 3/4ths of the CH between AB
Between.The first side 3 of trapezoidal building block is overlapped with the AB at splicing control point;The central axis of left bridle port 4 and splicing control point
DE be overlapped, the central axis of right bridle port 5 is overlapped with the FG for splicing control point, and angle is 45 ° between DE and AB;Left bridle port
4 and right bridle port 5 between building block top surface 1 and bottom surface 2;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a trapezoidal building block.A piece rope 6 sequentially passes through the left rope of building block
Hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;Again by multiple shields
Slope column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in figure 23.
Embodiment 14:
As shown in Fig. 3, Figure 24, the present embodiment chooses splicing building block of the trapezoidal building block as oblique pull slope protection.In the present embodiment,
The extended line of trapezoidal two waist is intersected in splicing control point C, and trapezoidal is isosceles trapezoid, and CH is the half of AB.Trapezoidal building block
First side 3 is overlapped with the AB at splicing control point;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, right rope
The central axis in hole 5 is overlapped with the FG at splicing control point, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5
Between building block top surface 1 and bottom surface 2;Building block is additionally provided with the implantation hole 7 of an isosceles trapezoid, preferably to fix sandy soil;
Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a trapezoidal building block.A piece rope 6 sequentially passes through the left rope of building block
Hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;Again by multiple shields
Slope column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in figure 25.
Embodiment 15:
As shown in Fig. 3, Figure 26, the present embodiment chooses splicing building block of the trapezoidal building block as oblique pull slope protection.In the present embodiment,
The extended line of trapezoidal two waist is intersected in splicing control point C, and trapezoidal is isosceles trapezoid, and CH is the half of AB.Trapezoidal building block
First side 3 is overlapped with the AB at splicing control point;The central axis of left bridle port 4 is overlapped with the DE at splicing control point, right rope
The central axis in hole 5 is overlapped with the FG at splicing control point, and angle is 45 ° between DE and AB;Left bridle port 4 and right bridle port 5
Between building block top surface 1 and bottom surface 2;Building block is also set up there are two along the symmetrical trapezoidal implantation hole 7 of symmetry axis 8, so as to better
Fixed sandy soil;Building block is symmetrical about symmetry axis 8.
In the present embodiment, a building block unit includes a trapezoidal building block.A piece rope 6 sequentially passes through the left rope of building block
Hole 4, another rope 6 sequentially pass through the right bridle port 5 of building block, so that multiple building blocks form a slope protection column;Again by multiple shields
Slope column are laterally successively arranged, and oblique pull slope protection is formed.The slope protection of formation is as shown in figure 27.
For convenience of the connection relationship between expression each building block of slope protection, in figure the left bridle port 4, right bridle port 5 of each building block and
The part that rope 6 passes through bridle port is indicated by the solid line.
Claims (10)
1. a kind of oblique pull slope protection, it is characterised in that: including multiple building block units and Duo Gen rope (6);
The building block unit includes building block;
Three splicing control points of the building block are A, B, C, and A, B, C point constitute isosceles triangle, and AB is long side;
Running through in the building block has left bridle port (4) and right bridle port (5);The central axis and DE of the left bridle port (4) are flat
Row, the central axis of right bridle port (5) are parallel with FG;D is located at a quarter of AB, and F is located at 3/4ths of AB, and H is
The midpoint of AB, and the angle between DE and AB is 45 ° ± 20 °, the angle between FG and AB is 45 ° ± 20 °;
The rope (6) sequentially passes through the building block of each building block unit, forms slope protection column, and slope protection Leie time arrangement forms oblique pull shield
Slope.
2. a kind of oblique pull slope protection according to claim 1, it is characterised in that:
CH is greater than a quarter of AB, less than 3/4ths of AB.
3. a kind of oblique pull slope protection according to claim 2, it is characterised in that:
DE is parallel with FG.
4. a kind of oblique pull slope protection according to claim 3, it is characterised in that:
Angle between DE and AB is 45 °.
5. a kind of oblique pull slope protection according to claim 4, it is characterised in that:
CH is less than or equal to the half of AB.
6. a kind of oblique pull slope protection according to claim 5, it is characterised in that:
CH is equal to the half of AB.
7. a kind of oblique pull slope protection according to claim 1 or 2 or 3 or 4 or 5 or 6, it is characterised in that: the building block is transversal
The profile in face is triangle, and the bottom edge of the triangle is located on the side AB, and the top of triangle is located at C point.
8. a kind of oblique pull slope protection according to claim 1 or 2 or 3 or 4 or 5 or 6, it is characterised in that: the cross of the building block
The profile in section be it is trapezoidal, the trapezoidal bottom is located on the side AB, and the midpoint of trapezoidal upper bottom edge is located at C point.
9. a kind of oblique pull slope protection according to claim 7, it is characterised in that: be provided at least one plantation in the building block
Hole (7).
10. a kind of oblique pull slope protection according to claim 8, it is characterised in that: be provided at least one kind in the building block
It plants hole (7).
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CN201811628536.2A CN109629514A (en) | 2018-12-28 | 2018-12-28 | A kind of oblique pull slope protection |
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CN201811628536.2A CN109629514A (en) | 2018-12-28 | 2018-12-28 | A kind of oblique pull slope protection |
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CN209669803U (en) * | 2018-12-28 | 2019-11-22 | 西安景兴祥环境科技有限公司 | A kind of oblique pull slope protection |
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JPH1193138A (en) * | 1997-09-18 | 1999-04-06 | Soken Kogyo Kk | Assembly concrete block and civil engineering structure using block |
CN202672096U (en) * | 2012-06-07 | 2013-01-16 | 邹瑾 | Vegetated interlocking protective slope building block and vegetated interlocking protective slope |
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