CN109629511A - A kind of the whole network slope protection - Google Patents

Abstract

The present invention relates to a kind of the whole network slope protections.Usually require to be arranged corresponding convex block or when groove is spliced to form slope protection to solve existing building block block, bulk shape is special, production and processing and transport are inconvenient, generation type is single, the problem of being difficult to adapt to the diversified demand of different topography environment, the present invention provides a kind of the whole network slope protections, including multiple building blocks and Duo Gen rope, left bridle port and right bridle port are provided in building block, building block is linked to be slope protection by the bridle port that rope passes through building block, rope passes through all left bridle ports and right bridle port, so that all building blocks are connected.The present invention can easily apply to hydraulic engineering.The present invention carries out block locking by way of oblique rope, and slope protection is more stable；It can adapt to multiple and different topography environment, be widely used.

Description

A kind of the whole network slope protection

Technical field

The present invention relates to a kind of the whole network 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 proposes higher requirement to the production and processing of slope-protection block and transportational process.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 environment Diversified demand.

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 the whole network slope protections.

The technical scheme is that a kind of the whole network slope protection, is characterized in that the building block including multiple array arrangements With more ropes；

Three splicing control points of the building block are A, B, C, and A, B, C 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；

Wherein, D is located at a quarter of AB, and F is located at 3/4ths of AB, and the angle between DE and AB is 45 ° ± 20 °, the angle between FG and AB is 45 ° ± 20 °；

The rope passes through all left bridle ports and right bridle port, so that all building blocks are connected.

Further, H is the side AB midpoint；CH is greater than a quarter of AB, less than 3/4ths of AB；Due to being less than as CH When a quarter of AB, building block is unfavorable for cooperating between each building block close to rectangular block, and in slope protection of the same area More building blocks are needed to constitute；When CH is greater than 3/4ths of AB, generally requires to open up a bridle port in building block more, increase The cost of manufacture of building block, 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 equal to the half of AB.

Further, the profile of the cross section of the building block is T shape, and the bottom edge of the T shape is located on the side AB, the top of T shape End is located at C point.

Further, the profile of the cross section of the building block is arch, and the arch circular arc passes through 3 points of A, B, C, arch String is overlapped with AB.

Further, the profile of the cross section of the building block is triangle, and the long side of the triangle is located on the side AB, three Angular top is located at C point.

Further, at least one implantation hole is provided in the building block；When building block is T shape, due to building block itself Characteristic can be formed " implantation hole " between each other, and setting implantation hole will increase the cost of manufacture of building block at this time, thus at this time without It needs that implantation hole is arranged in building block again；When building block is other shapes, setting implantation hole can reduce the weight of building block, convenient for kind Vegetation is planted to further fix sandy soil, so the implantation hole of setting fair amount.

The beneficial effects of the present invention are:

1, building block connection locking is formed the whole network using oblique rope by the present invention, so even slope-protection block is in use Local damage, which occurs, to generate any influence to the overall stability of slope protection；

2, the present invention can take a variety of building blocks to form the whole network slope protection, and slope protection form multiplicity can adapt to multiple and differently Gesture environment, is widely used.

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 structural schematic diagram of the embodiment of the present invention one to six the whole network slope protection block of embodiment；

Fig. 3 is first side view of the embodiment of the present invention one to 15 the whole network slope protection block of embodiment；

Fig. 4 is one the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Fig. 5 is two the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Fig. 6 is three the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Fig. 7 is four the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Fig. 8 is five the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Fig. 9 is the structural schematic diagram of the embodiment of the present invention six, seven the whole network slope protection block of embodiment；

Figure 10 is six the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 11 is seven the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 12 is the structural schematic diagram of the embodiment of the present invention eight, nine the whole network slope protection block of embodiment；

Figure 13 is eight convergent points of embodiment of the present invention net protective slope structure schematic diagram；

Figure 14 is nine the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 15 is the structural schematic diagram of ten the whole network slope protection block of the embodiment of the present invention；

Figure 16 is ten the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 17 is the structural schematic diagram of 11 the whole network slope protection block of the embodiment of the present invention；

Figure 18 is 11 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 19 is the structural schematic diagram of the embodiment of the present invention 12,13 the whole network slope protection block of embodiment；

Figure 20 is 12 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 21 is 13 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 22 is the structural schematic diagram of 14 the whole network slope protection block of the embodiment of the present invention；

Figure 23 is 14 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 24 is structural schematic diagram of the embodiment of the present invention 15 to 17 the whole network slope protection block of embodiment；

Figure 25 is 15 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 26 is 16 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 27 is 17 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 28 is that the structure of unit after the embodiment of the present invention 18 is spliced to 19 the whole network slope protection of embodiment, four building blocks is shown It is intended to；

Figure 29 is ten eight convergent points net protective slope structure schematic diagram of the embodiment of the present invention；

Figure 30 is the structural schematic diagram of 19 the whole network slope protection block of the embodiment of the present invention；

Figure 31 is 19 the whole network protective slope structure schematic diagram of the embodiment of the present invention；

Figure 32 is the structural schematic diagram of 20 the whole network slope protection block of the embodiment of the present invention；

Figure 33 is the structural schematic diagram of unit after 20 the whole network slope protection of the embodiment of the present invention, four building block splicings；

Figure 34 is 20 the whole network 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, 4 left bridle ports, 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 building block are A, B, C, and A, B, C constitute isosceles triangle, and AB is long side；

Running through in building block has left bridle port 4 and right bridle port 5；The central axis of left bridle port 4 is parallel with DE, right bridle port 5 central axis is parallel with FG；

Wherein, D is located at a quarter of AB, and F is located at 3/4ths of AB, and the angle between DE and AB is 45 ° ± 20 °, 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 T shape building block as the whole network slope protection.In the present embodiment, H is the side AB midpoint, and CH is the half of AB, i.e., in the present embodiment, △ ABC is isosceles right triangle.The of T shape building block One 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, and DE and AB Between angle be 45 °；Right bridle port 5 is parallel with left bridle port, and the FG weight of the central axis of right bridle port 5 and splicing control point It closes；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2；Building block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right rope that another building block is passed through after the left bridle port 4 of T shape building block Rope hole 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network 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 T shape building block as the whole network slope protection.In the present embodiment, H is the side AB midpoint, and CH is the half of AB, i.e., in the present embodiment, △ ABC is isosceles right triangle.The of T shape building block One 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, and DE and AB Between angle be 45 °；Right bridle port 5 is parallel with left bridle port, and the FG weight of the central axis of right bridle port 5 and splicing control point It closes；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2；Building block is symmetrical about symmetry axis 8.

In the present embodiment, two T shape building blocks are taken, one of 180 ° of overturning, the C point of building block after overturning is built with another The C point coincidence of block is put, and is formed a unit, is included a upper building block and a lower building block in unit.Every rope 6 is successively worn The left bridle port 4 of building block under first unit is crossed, the right bridle port 5 of building block on second unit, building block under third unit Each building block is and so on connected and is mutually restricted by right bridle port 5, the left bridle port 4 of the 4th unit.The whole network of formation protects Slope is as shown in Figure 5.

Embodiment three:

As shown in Figure 2 and Figure 3, the present embodiment chooses splicing building block of the T shape building block as the whole network slope protection.In the present embodiment, H is the side AB midpoint, and CH is the half of AB, i.e., in the present embodiment, △ ABC is isosceles right triangle.The of T shape building block One 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, and DE and AB Between angle be 45 °；Right bridle port 5 is parallel with left bridle port, and the FG weight of the central axis of right bridle port 5 and splicing control point It closes；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2；Building block is symmetrical about symmetry axis 8.

In the present embodiment, two T shape building blocks are taken, one of 180 ° of overturning, the C point of building block after overturning is built with another The C point coincidence of block is put, and is formed a unit, is included a upper building block and a lower building block in unit.Every rope 6 is successively worn The left bridle port 4 of building block under first unit is crossed, the right bridle port 5 of building block on second unit, building block under third unit Right bridle port 5, the left bridle port 4 of building block on the 4th unit, the right bridle port 5 of building block, the 6th unit under the 5th unit Each building block is and so on connected and is mutually restricted by the left bridle port 4 of upper building block.The whole network slope protection of formation is as shown in Figure 6.

Example IV:

As shown in Figure 2 and Figure 3, the present embodiment chooses splicing building block of the T shape building block as the whole network slope protection.In the present embodiment, H is the side AB midpoint, and CH is between the half of AB and 3/4ths.The first side 3 of T shape building block and splicing control point AB is overlapped；The central axis of left bridle port 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；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, every rope 6 sequentially passes through the right rope that another building block is passed through after the left bridle port 4 of T shape building block Rope hole 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network slope protection of formation is as shown in Figure 7.

Embodiment five:

As shown in Figure 2 and Figure 3, the present embodiment chooses splicing building block of the T shape building block as the whole network slope protection.In the present embodiment, H is the side AB midpoint, and CH is between a quarter and half of AB.The first side 3 of T shape building block and splicing control point AB is overlapped；The central axis of left bridle port 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；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, every rope 6 sequentially passes through the right rope that another building block is passed through after the left bridle port 4 of T shape building block Rope hole 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network slope protection of formation is as shown in Figure 8.

Embodiment six:

As shown in Fig. 3, Fig. 9, the present embodiment chooses splicing building block of the semicircle building block as the whole network slope protection.In the present embodiment In, the first side 3 of building block is overlapped with the AB at splicing control point, and semi arch passes through C point；The central axis of left bridle port 4 and spelling The DE for connecing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2；It builds Block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right side that another building block is passed through after the left bridle port 4 of semicircle building block Bridle port 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because Connection for rope 6 mutually restricts.The whole network slope protection of formation is as shown in Figure 10.

Embodiment seven:

As shown in Fig. 3, Fig. 9, the present embodiment chooses splicing building block of the semicircle building block as the whole network slope protection.In the present embodiment In, the first side 3 of building block is overlapped with the AB at splicing control point, and semi arch passes through C point；The central axis of left bridle port 4 and spelling The DE for connecing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2；It builds Block is symmetrical about symmetry axis 8.

In the present embodiment, take two semicircle building blocks, one of 180 ° of overturning, the C point of building block after overturning with it is another The C point coincidence of a building block is put, and is formed a unit, is included a upper building block and a lower building block in unit.Every rope 6 according to The left bridle port 4 of the secondary building block under the first unit, the right bridle port 5 of building block on second unit, the right side of building block under third unit Bridle port 5, the left bridle port 4 of building block on Unit the 4th, and so on, a plurality of rope 6 cooperate with multiple building blocks, are just formed The whole network slope protection, because the connection of rope 6 mutually restricts between each building block.The whole network slope protection of formation is as shown in figure 11.

Embodiment eight:

As shown in Fig. 3, Figure 12, the present embodiment chooses splicing building block of the arch building block as the whole network slope protection.In the present embodiment In, the first side 3 of building block is overlapped with the AB at splicing control point, and arch circular arc passes through C point；The central axis of left bridle port 4 with The DE for splicing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis with splicing control point FG be overlapped；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2； Building block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right rope that another building block is passed through after the left bridle port 4 of arch building block Rope hole 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 13.

Embodiment nine:

As shown in Fig. 3, Figure 12, the present embodiment chooses splicing building block of the arch building block as the whole network slope protection.In the present embodiment In, the first side 3 of building block is overlapped with the AB at splicing control point, and arch circular arc passes through C point；The central axis of left bridle port 4 with The DE for splicing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis with splicing control point FG be overlapped；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2； Building block is symmetrical about symmetry axis 8.

In the present embodiment, two arch building blocks are taken, one of 180 ° of overturning, the C point of building block after overturning and another The C point coincidence of building block is put, and is formed a unit, is included a upper building block and a lower building block in unit.Every rope 6 is successively The left bridle port 4 of building block under first unit, the right bridle port 5 of building block on second unit, the right rope of building block under third unit Rope hole 5, the left bridle port 4 of building block on Unit the 4th, and so on, a plurality of rope 6 cooperate with multiple building blocks, just form The whole network slope protection, because the connection of rope 6 mutually restricts between each building block.The whole network slope protection of formation is as shown in figure 14.

Embodiment ten:

As shown in Fig. 3, Figure 15, the present embodiment chooses splicing building block of the semicircle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and semi arch passes through C point；The central axis of left bridle port 4 with The DE for splicing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis with splicing control point FG be overlapped；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2； Building block is additionally provided with a semicircle implantation hole 7, further fixes sandy soil for planting vegetation；Building block is right about symmetry axis 8 Claim.

In the present embodiment, every rope 6 sequentially passes through the right side that another building block is passed through after the left bridle port 4 of semicircle building block Bridle port 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because Connection for rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 16.

Embodiment 11:

As shown in Fig. 3, Figure 17, the present embodiment chooses splicing building block of the semicircle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and semi arch passes through C point；The central axis of left bridle port 4 with The DE for splicing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis with splicing control point FG be overlapped；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2； Building block is also set up there are two about the symmetrical fan-shaped implantation hole 7 of symmetry axis 8, further fixes sandy soil for planting vegetation； Building block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right side that another building block is passed through after the left bridle port 4 of semicircle building block Bridle port 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because Connection for rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 18.

Embodiment 12:

As shown in Fig. 3, Figure 19, the present embodiment chooses splicing building block of the arch building block as the whole network slope protection.In the present embodiment In, the first side 3 of building block is overlapped with the AB at splicing control point, and arch circular arc passes through C point；The central axis of left bridle port 4 with The DE for splicing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis with splicing control point FG be overlapped；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2； Building block is additionally provided with an arch implantation hole 7, further fixes sandy soil for planting vegetation；Building block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the left bridle port 4 of the first arch building block, the right rope of the second building block Rope hole 5, the right bridle port 5 of third building block, the left bridle port 4 of the 4th building block, and so on；A plurality of rope 6 and multiple building block phases Mutually cooperation, just forms the whole network slope protection, because the connection of rope 6 mutually restricts between each building block.The whole network slope protection of formation is such as Shown in Figure 20.

Embodiment 13:

As shown in Fig. 3, Figure 19, the present embodiment chooses splicing building block of the arch building block as the whole network slope protection.In the present embodiment In, the first side 3 of building block is overlapped with the AB at splicing control point, and arch circular arc passes through C point；The central axis of left bridle port 4 with The DE for splicing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis with splicing control point FG be overlapped；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2； Building block is additionally provided with an arch implantation hole 7, further fixes sandy soil for planting vegetation；Building block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right rope that another building block is passed through after the left bridle port 4 of arch building block Rope hole 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 21.

Embodiment 14:

As shown in Fig. 3, Figure 22, the present embodiment chooses splicing building block of the arch building block as the whole network slope protection.In the present embodiment In, the first side 3 of building block is overlapped with the AB at splicing control point, and arch circular arc passes through C point；The central axis of left bridle port 4 with The DE for splicing control point is overlapped, and the angle between DE and AB is 45 °；Right bridle port 5 is parallel with left bridle port, and right bridle port 5 Central axis with splicing control point FG be overlapped；Left bridle port 4 and right bridle port 5 are between building block top surface 1 and bottom surface 2； Building block is also set up there are two about the symmetrical arch implantation hole 7 of symmetry axis 8, further fixes sandy soil for planting vegetation； Building block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right rope that another building block is passed through after the left bridle port 4 of arch building block Rope hole 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 23.

Embodiment 15:

As shown in Fig. 3, Figure 24, the present embodiment chooses splicing building block of the triangle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and the other both sides of building block at right angle and pass through C point；Left rope The central axis in hole 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 and left bridle port are flat Row, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are located at building block top surface Between 1 and bottom surface 2；Building block is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right side that another building block is passed through after the left bridle port 4 of triangle building block Bridle port 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because Connection for rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 25.

Embodiment 16:

As shown in Fig. 3, Figure 24, the present embodiment chooses splicing building block of the triangle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and the other both sides of building block at right angle and pass through C point；Left rope The central axis in hole 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 and left bridle port are flat Row, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are located at building block top surface Between 1 and bottom surface 2；Building block is symmetrical about symmetry axis 8.

In the present embodiment, two triangle building blocks are taken, one of 180 ° of overturning, after overturning the right bridle port of building block with The corresponding splicing of the right bridle port of another building block forms a unit, includes a upper building block and a lower building block in unit.The A piece rope 6 sequentially passes through left bridle port 4, the Unit the 4th of building block under the left bridle port 4, second unit of building block in first unit The right bridle port 5 of building block, second rope 6 sequentially pass through building block under first unit on the right bridle port 5 of lower building block, Unit the 4th Right bridle port 5, the right bridle port 5 of building block in first unit, built under the left bridle port 4, Unit the 4th of building block in third unit The left bridle port 4 of block, third root rope 6 sequentially pass through the right side of building block under the left bridle port 4 of building block, third unit under first unit The right bridle port 5 of building block on bridle port 5, third unit, and so on, a plurality of rope 6 cooperate with multiple building blocks, are just formed The whole network slope protection, because the connection of rope 6 mutually restricts between each building block.The whole network slope protection of formation is as shown in figure 26.

Embodiment 17:

As shown in Fig. 3, Figure 24, the present embodiment chooses splicing building block of the triangle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and the other both sides of building block at right angle and pass through C point；Left rope The central axis in hole 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 and left bridle port are flat Row, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are located at building block top surface Between 1 and bottom surface 2；Building block is symmetrical about symmetry axis 8.

In the present embodiment, two triangle building blocks are taken, one of 180 ° of overturning, after overturning the right bridle port of building block with The corresponding splicing of the right bridle port of another building block forms a unit, includes a upper building block and a lower building block in unit.The A piece rope 6 sequentially passes through in first unit the left bridle port 4 of building block under the left bridle port 4, second unit of building block, upper building block Left bridle port 4, second rope 6 sequentially pass through the right bridle port 5 of building block under first unit, in first unit building block right rope The right bridle port 5 of building block under hole 5, third unit, in third unit building block right bridle port 5, third root rope 6 sequentially passes through Under Unit one under the left bridle port 4 of building block, third unit building block left bridle port 4, and so on, a plurality of rope 6 and multiple blocks Block cooperates, and just forms the whole network slope protection, because the connection of rope 6 mutually restricts between each building block.The whole network of formation protects Slope is as shown in figure 27.

Embodiment 18:

As shown in Fig. 3, Figure 24, the present embodiment chooses splicing building block of the triangle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and the other both sides of building block at right angle and pass through C point；Left rope The central axis in hole 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 and left bridle port are flat Row, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are located at building block top surface Between 1 and bottom surface 2；Building block is symmetrical about symmetry axis 8.

In the present embodiment, four triangle building blocks are taken, the splicing control point C of four building blocks is met at a bit, forms one Unit includes upper building block, a left building block, a right building block and a lower building block as shown in figure 28 in unit.First Rope 6 sequentially passes through to be built under the right bridle port 5 of building block under first unit, the right bridle port 5 of the right building block of first unit, second unit The left bridle port 4 of building block, third unit are right under the right bridle port 5 of the right building block of right bridle port 5, second unit of block, third unit The left bridle port 4 of building block, second rope 6 sequentially pass through the left bridle port 4 of building block under first unit, the right building block of first unit The left bridle port 4 of the right building block of left bridle port 4, second unit of building block under left bridle port 4, second unit, the left building block of third unit Left bridle port 4, in third unit building block left bridle port 4, third root rope 6 sequentially passes through the left rope of the left building block of first unit A left side for building block on the left bridle port 4 of the left building block of left bridle port 4, second unit of building block on rope hole 4, first unit, second unit The right bridle port 5 of building block, the 4th rope 6 are successively worn on the right bridle port 5 of the left building block of bridle port 4, third unit, third unit Cross the right bridle port 5 of the left building block of first unit, in first unit under the right bridle port 5, Unit the 4th of building block building block right rope Hole 5, the right bridle port 5 of the left building block of right bridle port 5, second unit of the 4th right building block of unit, on second unit building block right rope Rope hole 5, and so on, a plurality of rope 6 cooperate with multiple building blocks, just form the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 29.

Embodiment 19:

As shown in Fig. 3, Figure 30, the present embodiment chooses splicing building block of the triangle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and the other both sides of building block at right angle and pass through C point；Left rope The central axis in hole 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 and left bridle port are flat Row, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are located at building block top surface Between 1 and bottom surface 2；Building block is additionally provided with a semicircle implantation hole 7, further fixes sandy soil for planting vegetation；Building block It is symmetrical about symmetry axis 8.

In the present embodiment, every rope 6 sequentially passes through the right side that another building block is passed through after the left bridle port 4 of triangle building block Bridle port 5, and so on；A plurality of rope 6 cooperates with multiple building blocks, just forms the whole network slope protection, between each building block because Connection for rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 31.

Embodiment 20:

As shown in Fig. 3, Figure 32, the present embodiment chooses splicing building block of the triangle building block as the whole network slope protection.In this implementation In example, the first side 3 of building block is overlapped with the AB at splicing control point, and the other both sides of building block at right angle and pass through C point；Left rope The central axis in hole 4 is overlapped with the DE at splicing control point, and the angle between DE and AB is 45 °；Right bridle port 5 and left bridle port are flat Row, and the central axis of right bridle port 5 is overlapped with the FG at splicing control point；Left bridle port 4 and right bridle port 5 are located at building block top surface Between 1 and bottom surface 2；Building block is also set up there are two about the symmetrical arch implantation hole 7 of symmetry axis 8, for plant vegetation so as into One step fixes sandy soil；Building block is symmetrical about symmetry axis 8.

In the present embodiment, four triangle building blocks are taken, the splicing control point C of four building blocks is met at a bit, forms one Unit includes upper building block, a left building block, a right building block and a lower building block as shown in figure 33 in unit.First Rope 6 sequentially passes through to be built under the right bridle port 5 of building block under first unit, the right bridle port 5 of the right building block of first unit, second unit The left bridle port 4 of building block, third unit are right under the right bridle port 5 of the right building block of right bridle port 5, second unit of block, third unit The left bridle port 4 of building block, second rope 6 sequentially pass through the left bridle port 4 of building block under first unit, the right building block of first unit The left bridle port 4 of the right building block of left bridle port 4, second unit of building block under left bridle port 4, second unit, the left building block of third unit Left bridle port 4, in third unit building block left bridle port 4, third root rope 6 sequentially passes through the left rope of the left building block of first unit A left side for building block on the left bridle port 4 of the left building block of left bridle port 4, second unit of building block on rope hole 4, first unit, second unit The right bridle port 5 of building block, the 4th rope 6 are successively worn on the right bridle port 5 of the left building block of bridle port 4, third unit, third unit Cross the right bridle port 5 of the left building block of first unit, in first unit under the right bridle port 5, Unit the 4th of building block building block right rope Hole 5, the right bridle port 5 of the left building block of right bridle port 5, second unit of the 4th right building block of unit, on second unit building block right rope Rope hole 5, and so on, a plurality of rope 6 cooperate with multiple building blocks, just form the whole network slope protection, between each building block because The connection of rope 6 mutually restricts.The whole network slope protection of formation is as shown in figure 34.

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 the whole network slope protection, it is characterised in that: building block and at least one rope (6) including multiple array arrangements；

Three splicing control points of the building block are A, B, C, and A, B, C 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；

Wherein, D is located at a quarter of AB, and F is located at 3/4ths of AB, and the angle between DE and AB be 45 ° ± 20 °, the angle between FG and AB is 45 ° ± 20 °；

The rope passes through all left bridle ports (4) and right bridle port (5), so that all building blocks are connected.

2. a kind of the whole network slope protection according to claim 1, it is characterised in that:

H is the side AB midpoint；CH is greater than a quarter of AB, less than 3/4ths of AB.

3. a kind of the whole network slope protection according to claim 2, it is characterised in that:

DE is parallel with FG.

4. a kind of the whole network slope protection according to claim 3, it is characterised in that:

Angle between DE and AB is 45 °.

5. a kind of the whole network slope protection according to claim 4, it is characterised in that:

CH is equal to the half of AB.

6. a kind of the whole network slope protection described according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that:

The profile of the cross section of the building block is T shape, and the bottom edge of the T shape is located on the side AB, and the top of T shape is located at C point.

7. a kind of the whole network slope protection described according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that:

The profile of the cross section of the building block is arch, and by 3 points of A, B, C, arch string is overlapped the arch circular arc with AB.

8. a kind of the whole network slope protection described according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that:

The profile of the cross section of the building block is triangle, and the long side of the triangle is located on the side AB, the top position of triangle In C point.

9. a kind of the whole network slope protection described according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that:

At least one implantation hole (7) is provided in the building block.

10. a kind of the whole network slope protection according to claim 7, it is characterised in that:

At least one implantation hole (7) is provided in the building block.