CN213596891U - Plant guardrail preventing soil erosion and water loss - Google Patents

Abstract

Waterproof soil loss plant guardrail, including sill bar mechanism, sill bar mechanism sets up in the side slope top surface, sill bar mechanism both ends are connected with the tendril, side slope bottom both sides are fixed with the second railing, tendril one end is connected in second railing bottom side, the tendril laminating sets up in the side slope lateral wall, sill bar mechanism includes the connecting rod, it has first railing to peg graft respectively at connecting rod top surface both ends, be connected with first rail plate between two first railings of connecting rod top surface, be connected with oblique breast board between first railing and the second railing, be connected with second rail plate between two first railings of edge slope setting, be connected with the third breast board between two second railings of edge slope setting. The utility model discloses a fixed railing structure pegs graft can realize carrying out the fixed protection of soil of wholeness to the side slope to combine the tendril laminating growth that the bottom is connected at the side slope lateral wall, make full use of soil and water not only has the effect of afforestation environment, can also effectively prevent the loss on soil and water along the inclined plane.

Description

Plant guardrail preventing soil erosion and water loss

Technical Field

The utility model belongs to the technical field of the protection device is lost in the waterproof soil, in particular to plant guardrail is lost in the waterproof soil.

Background

The development concept that the green water green mountain is the gold mountain silver mountain is deeply mastered, more people are put into the protection of the natural environment, the planting of trees is favorable for the purification of air and the good development of the ecological environment, the water and soil loss can be effectively prevented, and the land resources are not wasted.

In order to avoid excessive water and soil loss, the trees are planted and the side slopes of the trees are piled up and fixed, the trees are fixed on the side slopes by using cement, stones or the like in a laminating mode to prevent water and soil loss, however, the fixed structures can be naturally damaged along with long-term rainwater washing, so that the water and soil are difficult to be protected continuously and integrally, and the water and soil are not better utilized.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to prior art exists provides soil erosion and water loss prevention plant guardrail, and concrete technical scheme is as follows:

plant guardrail is lost in waterproof soil, including sill bar mechanism, sill bar mechanism sets up in the side slope top surface, sill bar mechanism both ends are connected with the tendril, side slope bottom both sides are fixed with the second railing, tendril one end is connected in second railing bottom side, the tendril laminating sets up in the side slope lateral wall, sill bar mechanism includes the connecting rod, it has first railing to peg graft respectively at connecting rod top surface both ends, be connected with first breast board between two first railings of connecting rod top surface, be connected with the oblique breast board between first railing and the second railing, first railing edgewise slope evenly is provided with a plurality ofly, be connected with second breast board between two first railings that set up along the side slope, second railing edge slope evenly is provided with a plurality ofly, be connected with the third breast board between two second railings that set up along the side slope.

Furthermore, first railing bottom center is connected with first bayonet joint, and the jack has been seted up to connecting rod one end, and first bayonet joint runs through the jack and pegs graft in side slope top surface.

Furthermore, first railing bottom is provided with the reference column, and the reference column is provided with two about the perpendicular central line symmetry in first railing bottom surface, and two locating holes have been seted up to connecting rod both ends lieing in jack both sides respectively, and the reference column is pegged graft inside the locating hole.

Further, four lateral walls of the first railing are provided with first fixed blocks, the side of the first railing close to the second railing is provided with two first fixed blocks, the side of the second railing close to the first railing is provided with two second fixed blocks, the two adjacent side edges of the second railing provided with the two second fixed blocks are provided with one second fixed block, one side of the inclined railing plate is inserted into the first fixed blocks, and the other side of the inclined railing plate is inserted into the second fixed blocks.

Furthermore, the bottom of the second railing is connected with a second plug connector, the first railing and the second railing are arranged in a staggered and plugged mode, and inclined railing panels are connected between the first railing and the two adjacent second railings respectively.

Furthermore, the bottom rod mechanism further comprises an inner connecting rod and a connector, the inner connecting rod is fixed at each of two ends of the connecting rod, the connector is sleeved on the side wall of the inner connecting rod, a fixing knob is connected to the side wall of the connector in a penetrating mode, a first groove is formed in one end of the connector, a first transition column is fixed in the first groove, and vines are wound on the side wall of the first transition column.

Furthermore, a second groove is formed in the bottom of the second handrail, a second switching column is fixed in the second groove, vines are wound in the second switching column, and the vines are wound between the adjacent first switching column and the second switching column in a staggered manner.

The utility model has the advantages that: the top and the bottom of side slope adopt the fixed railing structure of pegging graft, can realize carrying out the fixed protection of soil of wholeness to the side slope to combine the tendril laminating growth that the bottom is connected at the side slope lateral wall, make full use of soil and water not only has the effect of afforestation environment, can also effectively prevent the loss of soil and water along the inclined plane.

Drawings

Fig. 1 shows a schematic structural view of the plant guardrail for preventing soil erosion;

FIG. 2 shows a schematic view of the side mounting structure of the side slope of the present invention;

fig. 3 shows a schematic structural view of the bottom rod mechanism of the present invention;

figure 4 shows a schematic view of a first rail structure of the present invention;

fig. 5 shows a schematic view of the bottom structure of the first rail of the present invention;

figure 6 shows a schematic view of a second rail structure of the present invention;

figure 7 shows a top view of a second railing structure of the present invention;

shown in the figure: 1. a first rail; 11. a first fixed block; 12. a positioning column; 13. a first plug-in connector; 2. a first rail plate; 3. a ramp fence; 4. a bottom bar mechanism; 41. a connecting rod; 411. positioning holes; 412. a jack; 42. an inner connecting rod; 43. a connector; 431. fixing the knob; 432. a first transfer column; 433. a first groove; 5. vines; 6. a second rail; 61. a second fixed block; 62. a second groove; 63. a second transfer column; 64. a second plug-in connector; 7. side slope; 8. a second rail plate; 9. a third rail plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The plant guardrail preventing soil loss comprises a bottom rod mechanism 4, wherein the bottom rod mechanism 4 is arranged on the top surface of a side slope 7, two ends of the bottom rod mechanism 4 are connected with vines 5, two sides of the bottom of the side slope 7 are fixedly provided with second railings 6, one ends of the vines 5 are connected to the bottom sides of the second railings 6, the vines 5 are attached to the side walls of the side slope 7, the bottom rod mechanism 4 comprises connecting rods 41, two ends of the top surface of each connecting rod 41 are respectively inserted with first railings 1, a first rail plate 2 is connected between the two first railings 1 on the top surface of each connecting rod 41, an inclined rail plate 3 is connected between each first railing 1 and each second railing 6, the first railings 1 are uniformly provided with a plurality of first rail plates 7 along the side slope, a second rail plate 8 is connected between the two first rail plates 1 arranged along the side slope 7, the second rail plates 6 are uniformly provided with a plurality of second rail plates along the side slope 7, and; the top and the bottom of side slope 7 adopt the fixed railing structure of pegging graft, can realize carrying out the fixed protection of soil of wholeness to side slope 7 to combine the laminating of the tendril 5 that the bottom is connected to grow at side slope 7 lateral wall, make full use of soil and water not only has the effect of afforestation environment, can also effectively prevent the loss of soil and water along the inclined plane.

As shown in fig. 1 and 4, a first plug 13 is connected to the center of the bottom of the first rail 1, a jack 412 is formed at one end of the connecting rod 41, and the first plug 13 penetrates through the jack 412 and is plugged on the top surface of the side slope 7; through the top surface that first railing 1 runs through connecting rod 41 and pegs graft slope 7, can accomplish first railing 1 and the fixed of sill bar mechanism 4 on slope 7 simultaneously, simple to operate is swift.

As shown in the figure, the bottom of the first handrail 1 is provided with two positioning columns 12, the two positioning columns 12 are symmetrically arranged about the vertical centerline of the bottom of the first handrail 1, two ends of the connecting rod 41 are respectively positioned at two sides of the insertion hole 412 and are provided with two positioning holes 411, and the positioning columns 12 are inserted into the positioning holes 411; the position of first railing 1 is limited through two reference columns 12, prevents that first railing 1 from rotating, can make the installation more convenient.

As shown in fig. 1 and 5, four side walls of the first rail 1 are provided with first fixing blocks 11, two first fixing blocks 11 are arranged on the side surface of the first rail 1 close to the second rail 6, two second fixing blocks 61 are arranged on the side surface of the second rail 6 close to the first rail 1, two adjacent side edges of the second rail 6 provided with the two second fixing blocks 61 are provided with one second fixing block 61, one side of the inclined rail plate 3 is inserted into the first fixing block 11, and the other side is inserted into the second fixing block 61; the inclined railing panel 3 is inserted into the first fixing block 11 and the second fixing block 61, so that the first railing 1 and the second railing 6 are fixedly connected, and the installation and the disassembly are very simple and convenient.

As shown in fig. 2 and 6, the bottom of the second handrail 6 is connected with a second plug-in connector 64, the first handrail 1 and the second handrail 6 are arranged in a staggered and plugged manner, and the inclined balustrade panels 3 are respectively connected between the first handrail 1 and two adjacent second handrails 6; make and be triangle connection structure between first railing 1 and second railing 6 and the inclined fence board 3, can strengthen guardrail overall structure's stability, provide more stable protection for preventing soil and water flowing water.

As shown in fig. 3, the bottom bar mechanism 4 further includes an inner connecting bar 42 and a connector 43, the inner connecting bar 42 is fixed at each end of the connecting bar 41, the connector 43 is sleeved on a side wall of the inner connecting bar 42, a fixing knob 431 is connected to a side wall of the connector 43 in a penetrating manner, a first groove 433 is formed at one end of the connector 43, a first transition column 432 is fixed in the first groove 433, and a vine 5 is wound around a side wall of the first transition column 432; the connector 43 is moved and adjusted on the inner connecting rod 42 through loosening and tightening the fixing knob 431, so that the tightness degree of the vines 5 wound on the first junction post 432 is adjusted, and the vines 5 can better fit and grow on the inclined plane of the side slope 7.

As shown in fig. 6, a second groove 62 is formed at the bottom of the second rail 6, a second adapter column 63 is fixed in the second groove 62, vines 5 are wound in the second adapter column 63, and the vines 5 are wound between the adjacent first adapter column 432 and the second adapter column 63 in a staggered manner; the vines 5 are wound on the first transfer post 432 and the second transfer post 63, can be attached and fixed on the inclined plane of the side slope 7 by means of a stable railing structure, and further improve the prevention and control effect on water and soil loss in a staggered winding mode.

When the utility model is implemented, the utility model,

firstly, assembling the bottom rod mechanism 4 according to fig. 3, respectively sleeving two connectors 43 on the internal connecting rods 42 at the two ends of the connecting rod 41, so that the connectors 43 can be sleeved on the internal connecting rods 42 just, a distance is reserved between the connectors 43 and the internal connecting rods 42 which are completely sleeved, tightening and fixing the connectors 43 for later installation, then screwing the fixing knobs 431 on the connectors 43, and enabling the fixing knobs 431 to be attached to and fix the internal connecting rods 42, thereby completing the assembly of the bottom rod mechanism 4;

then, the assembled bottom rod mechanism 4 is placed on the top surface of the side slope 7 according to fig. 1 and fig. 2, the first adapting post 432 in the first groove 433 on the connector 43 faces to both sides of the side slope 7, the first handrail 1 is inserted into the top surface of the side slope 7 through the connecting rod 41, the first inserting head 13 at the bottom of the first handrail 1 passes through the inserting hole 412 on the connecting rod 41 and is inserted into the side slope 7, and the two positioning posts 12 at the bottom of the first handrail 1 are respectively inserted into the positioning holes 411 on the connecting rod 41 correspondingly in the inserting process, so that the first handrail 1 and the bottom rod mechanism 4 are fixed on the top surface of the side slope 7;

two first railings 1 are inserted at two ends of a bottom rod mechanism 4, wherein the side surfaces of the two first railings 1 provided with two first fixing blocks 11 are respectively arranged facing two sides of a side slope 7, and then a first cross railing panel 2 is inserted into the two first fixing blocks 11 between the two first railings 1, so that the connection and fixation between the two first railings 1 on the bottom rod mechanism 4 are completed;

a plurality of groups of bottom rod mechanisms 4 are uniformly fixed in parallel along the top surface of the side slope 7, so that the first railings 1 and the first cross railing panels 2 are arranged in the same manner, and the second cross railing panels 8 are inserted into two first fixing blocks 11 between the two first railings 1 on the same side on the two adjacent bottom rod mechanisms 4, so that the top fixing of the side slope 7 is completed;

a plurality of second railings 6 are uniformly inserted along the side edge of the bottom of the side slope 7, the second railings 6 and the first railings 1 on the top surface of the side slope 7 are arranged in a staggered mode, the second railings 6 are fixed by inserting second inserting connectors 64 into the ground, second transfer columns 63 in second grooves 62 in the bottom of the second railings 6 face the side slope 7, third cross railing plates 9 are inserted into second fixing blocks 61 between two adjacent second railings 6, and therefore the second railings 6 are fixed on two sides of the side slope 7;

then, inserting an inclined railing panel 3 into one first fixing block 11 on the first railing 1 and a second fixing block 61 on the second railing 6, and inserting the inclined railing panel 3 into the other first fixing block 11 on the same side and the second fixing block 61 on the other adjacent second railing 6, so that a triangular fixing structure is formed between the first railing 1 and the second railing 6 and between the inclined railing panels 3;

finally, the vines 5 are sequentially and alternately wound on the adjacent first adapter post 432 and the second adapter post 63 in a staggered mode, the vines 5 are enabled to be obliquely attached to the side face of the side slope 7, the fixing knob 431 is loosened, the movable connector 43 is continuously sleeved with the inner connecting rod 41, the vines 5 are tensioned towards the side slope 7, the vines 5 are enabled to be attached to the inclined face of the side slope 7, the fixing knob 431 is screwed down, the roots of the vines 5 are planted in soil of the side slope 7, and installation and fixing of the guardrail are completed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, but rather, the appended claims are intended to cover all such modifications, equivalents, and improvements as fall within the true spirit and scope of the invention.

Claims (7)

1. Soil erosion and water loss prevention plant guardrail which is characterized in that: comprises a bottom rod mechanism (4), the bottom rod mechanism (4) is arranged on the top surface of a side slope (7), two ends of the bottom rod mechanism (4) are connected with vines (5), two sides of the bottom of the side slope (7) are fixed with second railings (6), one end of each vines (5) is connected to the bottom side of each second railing (6), the vines (5) are attached to the side wall of the side slope (7), the bottom rod mechanism (4) comprises connecting rods (41), two ends of the top surface of each connecting rod (41) are respectively inserted with first railings (1), a first rail plate (2) is connected between the two first railings (1) on the top surface of each connecting rod (41), an inclined rail plate (3) is connected between the first railings (1) and the second railings (6), a plurality of the first railings (1) are uniformly arranged along the side slope (7), a second rail plate (8) is connected between the two first railings (1) arranged along the side slope (, the second railings (6) are uniformly provided with a plurality of second railings along the side slope (7), and a third transverse board (9) is connected between the two second railings (6) arranged along the side slope (7).

2. The soil erosion resistant plant barrier of claim 1, wherein: the center of the bottom of the first railing (1) is connected with a first plug-in connector (13), one end of the connecting rod (41) is provided with a jack (412), and the first plug-in connector (13) penetrates through the jack (412) and is connected to the top surface of the side slope (7) in an inserting mode.

3. The soil erosion resistant plant barrier of claim 2, wherein: the bottom of the first railing (1) is provided with two positioning columns (12), the two positioning columns (12) are symmetrically arranged relative to the vertical center line of the bottom surface of the first railing (1), two ends of the connecting rod (41) are respectively located on two sides of the insertion hole 412 and provided with two positioning holes (411), and the positioning columns (12) are inserted into the positioning holes (411).

4. The soil erosion resistant plant barrier of claim 3, wherein: four lateral walls of first railing (1) all are provided with first fixed block (11), the side that first railing (1) is close to second railing (6) is provided with two first fixed blocks (11), the side that second railing (6) is close to first railing (1) is provided with two second fixed blocks (61), adjacent both sides limit that second railing (6) are equipped with two second fixed blocks (61) all is equipped with one second fixed block (61), oblique sideboard (3) one side is pegged graft inside first fixed block (11), the opposite side is pegged graft inside second fixed block (61).

5. The soil erosion resistant plant barrier of claim 4, wherein: the bottom of the second railing (6) is connected with a second plug-in connector (64), the first railing (1) and the second railing (6) are arranged in a mutually staggered and plugged mode, and an inclined railing panel (3) is connected between the first railing (1) and two adjacent second railings (6) respectively.

6. The soil erosion resistant plant barrier of claim 1, wherein: bottom bar mechanism (4) still include interior pole (42) and connector (43), connecting rod (41) both ends are fixed with interior pole (42) respectively, and interior pole (42) lateral wall has cup jointed connector (43), and connector (43) lateral wall through connection has fixed knob (431), and first recess (433) have been seted up to connector (43) one end, and first recess (433) internal fixation has first switching post (432), and first switching post (432) lateral wall wraparound has tendril (5).

7. The soil erosion resistant plant barrier of claim 5, wherein: the bottom of the second railing (6) is provided with a second groove (62), a second switching column (63) is fixed in the second groove (62), vines (5) are wound in the second switching column (63), and the vines (5) are wound between the adjacent first switching column (432) and the second switching column (63) in a staggered manner.

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