CN214460126U - Slope protection device for hydraulic and hydroelectric engineering - Google Patents

Abstract

The utility model discloses a hydraulic and hydroelectric engineering side slope protector relates to the hydraulic and hydroelectric engineering field, which comprises a fixing plate and i, the both ends of fixed plate all are connected with the spud pile, and the upper surface both ends of fixed plate are close to one side of spud pile and have seted up the spacing groove, the inboard block of spacing groove is connected with the stopper, the spout has all been seted up to two opposite face ends of spud pile. The utility model connects two adjacent fixed plates together through the limiting block, which can enhance the stability of the fixed plates on the whole slope; the protection blocks which are mutually clamped and connected can be connected into a whole to form a protection net, so that the whole protection performance is enhanced, and in addition, the slope can be greened by using vegetation, so that the ecological environment damaged by engineering construction can be recovered; the fixing rod and the connecting plate are connected through the grabbing ring, so that the fixing rod and the connecting plate can be used when facing slope surfaces with different gradients, and the problem that the slope surfaces cannot be installed due to too large or too small slope is solved.

Description

Slope protection device for hydraulic and hydroelectric engineering

Technical Field

The utility model relates to a hydraulic and hydroelectric engineering field specifically is a hydraulic and hydroelectric engineering side slope protector.

Background

Engineering slope protection is mainly used for protecting the phenomena of weathering spalling, breaking, few falling rocks and chipping of rocks on the excavated slope surface, the protected slope has enough stability, engineering reinforcement measures are adopted, and the method has good effects of reducing instability and erosion at the initial stage of slope surface construction and has obvious effects.

However, the slope protection that prior art used to hydraulic and hydroelectric engineering is adopted mostly, materials such as concrete reinforcing bar all reinforce domaticly, but this kind of reinforcement mode is along with the passage of time, the morals and manners of rock, the ageing of concrete and the corruption of reinforcing bar, the intensity of protection reduces gradually, the effect is also more and more poor, secondly current side slope protector is not very good to the reinforcement nature of side slope, do not form a holistic protection plate, when domatic a atress, can not reach the effect of common resistance, the regional domatic gradient of difference is different in addition, and then strengthened the difficult way of installation protector, current protector installation is comparatively complicated, the installation effectiveness is low, delay the engineering period.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic and hydroelectric engineering side slope protector to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a slope protection device for water conservancy and hydropower engineering comprises a fixed plate, wherein two ends of the fixed plate are both connected with fixing piles, limiting grooves are formed in two ends of the upper surface of the fixed plate, which are close to one sides of the fixing piles, limiting blocks are clamped and connected to the inner sides of the limiting grooves, sliding grooves are formed in two opposite vertical surfaces of the fixing piles, second studs are arranged at the lower ends of the fixing piles, protective guards are slidably connected between the two fixing piles, fixing holes are formed in four corners of the upper surface of the fixed plate, a fixing rod is arranged at one end of the fixed plate, a grabbing ring is sleeved on the outer wall of the fixing rod, a connecting plate is fixedly connected to one end of the grabbing ring, a protection block is connected to one end of the connecting plate, a fixing strip is fixedly connected to one end of the protection block, and a plurality of first studs distributed at equal intervals are arranged at the lower ends of the fixing strips;

the protection block comprises a block body, four clamping grooves, clamping blocks and an inner groove, the block body is located on one side of the connecting plate, the four clamping grooves are formed in four adjacent outer walls of the block body respectively, the four clamping blocks are located at positions, close to one sides of the clamping grooves, of four adjacent outer wall ends of the block body respectively, and the inner groove penetrates through the middle of the upper surface of the block body.

As a further aspect of the present invention: the fixed plate and the ground are fixedly connected with each other through steel nails, the limiting blocks are sleeved at the lower ends of the fixed piles, and the thickness of the limiting blocks is the same as the depth of the limiting grooves.

As a further aspect of the present invention: the guard rail is connected with the fixing pile in a sliding mode through the sliding groove.

As a further aspect of the present invention: grab the ring and be provided with a plurality ofly altogether it is a plurality of grab the ring equidistance and cup joint on the outer wall of dead lever, the internal diameter of grabbing the ring slightly is greater than the external diameter of dead lever.

As a further aspect of the present invention: the connecting plate is fixedly connected with the grabbing ring through welding, and clamping blocks and clamping grooves which are distributed at equal intervals are arranged at one end, far away from the grabbing ring, of the connecting plate.

As a further aspect of the present invention: the clamping groove and the clamping block on the block body are fixedly connected with the clamping groove and the clamping block on the connecting plate through clamping.

As a further aspect of the present invention: the block is provided with a plurality ofly altogether, and a plurality of blocks pass through draw-in groove and fixture block one-to-one block and connect.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the two adjacent fixing plates are connected together through the limiting block, so that the stability of the fixing plates on the whole slope can be enhanced, the problem that the fixing plates are loosened due to overlarge stress of a single fixing plate is avoided, and the potential protection hazard is reduced;

2. the protective blocks which are mutually clamped and connected are arranged, so that the protective blocks on the side slope can be connected into a whole to form a protective net, the integral protective performance is enhanced, then the vegetation can be planted in the grooves of the protective blocks, the roots of the vegetation penetrate through the loose weathered layer of the shallow layer of the slope body and are anchored on the soil layer which is deeper and more stable, the effect of a prestressed anchor rod is achieved, in addition, the slope surface can be greened by the vegetation, and the ecological environment damaged by engineering construction can be recovered;

3. dead lever and connecting plate are connected through grabbing the ring, and then can both use when facing domatic of different gradients, have solved the too big or undersize of domatic slope and the problem that can not install, secondly the utility model discloses the installation is simple and easy, helps shortening side slope protection installation period, has improved work efficiency.

Drawings

FIG. 1 is a schematic structural view of a slope protection device for hydraulic and hydroelectric engineering;

FIG. 2 is a schematic view of a fixing plate structure of a slope protection device for hydraulic and hydroelectric engineering;

FIG. 3 is a schematic view of a mounting structure of a limiting block of a slope protection device in hydraulic and hydroelectric engineering;

fig. 4 is a schematic view of a protective block structure of a slope protection device in hydraulic and hydroelectric engineering.

In the figure: 1. a fixing plate; 2. a protection block; 201. a block body; 202. a card slot; 203. a clamping block; 204. an inner tank; 3. a fixing strip; 4. a first stud; 5. a connecting plate; 6. protecting the fence; 7. fixing the pile; 8. a limiting block; 9. grabbing a ring; 10. fixing the rod; 11. a second stud; 12. a chute; 13. a limiting groove; 14. and (7) fixing holes.

Detailed Description

Referring to fig. 1-4, in the embodiment of the present invention, a slope protection device for water conservancy and hydropower engineering comprises a fixing plate 1, fixing piles 7 connected to both ends of the fixing plate 1, and one side of the two ends of the upper surface of the fixed plate 1 close to the fixed pile 7 is provided with a limiting groove 13, the inner side of the limiting groove 13 is clamped and connected with a limiting block 8, the two opposite surface ends of the fixed pile 7 are both provided with a sliding groove 12, the lower ends of the fixing piles 7 are provided with second pegs 11, guard rails 6 are connected between the two fixing piles 7 in a sliding manner, fixing holes 14 are formed in four corners of the upper surface of the fixing plate 1, a fixing rod 10 is arranged at one end of the fixing plate 1, a grabbing ring 9 is sleeved on the outer wall of the fixing rod 10, a connecting plate 5 is fixedly connected to one end of the grabbing ring 9, a protection block 2 is connected to one end of the connecting plate 5, a fixing strip 3 is fixedly connected to one end of the protection block 2, and a plurality of first pegs 4 distributed at equal intervals are arranged at the lower end of the fixing strip 3;

wherein, the protection block 2 includes block 201, draw-in groove 202, fixture block 203 and interior groove 204, and block 201 is located one side of connecting plate 5, and four draw-in grooves 202 are seted up respectively on four adjacent outer walls of block 201, and four fixture blocks 203 are located four adjacent outer wall ends of block 201 respectively and are close to draw-in groove 202 one side position department, and interior groove 204 runs through in the upper surface middle part of block 201.

In FIGS. 1-2: fixed plate 1 runs through in fixed orifices 14 fixed connection through the steel nail with ground, and stopper 8 cup joints the lower extreme in spud pile 7, and stopper 8's thickness is the same with the degree of depth size of spacing groove 13, and rail guard 6 passes through spout 12 sliding connection with spud pile 7.

This kind links together two adjacent fixed plates 1 through stopper 8, can strengthen the steadiness of whole piece slope upper fixed plate 1.

In fig. 2-3: grab ring 9 and be provided with a plurality ofly altogether, grab a plurality of rings 9 equidistance and cup joint on the outer wall of dead lever 10, grab ring 9's internal diameter slightly and be greater than the external diameter of dead lever 10, connecting plate 5 with grab ring 9 and pass through welded fastening and be connected, the fixture block 203 and the draw-in groove 202 that the equidistance distributes are seted up to the one end of grabbing ring 9 is kept away from to the one end of connecting plate 5.

This kind is through grabbing ring 9 and connecting dead lever 10 and connecting plate 5, and then can both use when facing the domatic of different gradients, has solved the too big or undersize problem that can not install of domatic slope.

In fig. 4: the clamping grooves 202 and the clamping blocks 203 on the block body 201 are fixedly connected with the clamping grooves 202 and the clamping blocks 203 on the connecting plate 5 in a clamping mode, the block body 201 is provided with a plurality of block bodies 201, and the plurality of block bodies 201 are connected in a one-to-one corresponding clamping mode through the clamping grooves 202 and the clamping blocks 203.

This kind of through having set up protection piece 2 that mutual block is connected, can be even as an organic whole with protection piece 2 on the slope, and then form a protection network, strengthen holistic barrier propterty.

The utility model discloses a theory of operation is: the utility model can connect two adjacent fixing plates 1 together through the limiting block 8, can enhance the stability of the fixing plates 1 on the whole slope, avoid the problem that the fixing plates 1 are not flexible due to overlarge stress of a single fixing plate 1, reduce the hidden danger of protection, can connect the protecting blocks 2 on the slope into a whole through the protecting blocks 2 which are mutually clamped and connected, further form a protective net, strengthen the integral protection performance, secondly plant the vegetation in the inner groove 204 of the protecting block 2, utilize the root of the vegetation to pass through the loose weathered layer of the shallow layer of the slope body, anchor to the more stable rock-soil layer in the deep part, play the role of a prestressed anchor rod, and can also utilize the vegetation to afforest the slope surface, so that the ecological environment damaged by engineering construction can be recovered, the fixing rod 10 and the connecting plate 5 are connected through the grab ring 9, and further can be used when facing the slope surfaces with different gradients, the problem of domatic slope too big or undersize and can not install is solved, secondly the utility model discloses the installation is simple and easy, helps shortening side slope protection installation period, has improved work efficiency.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The water conservancy and hydropower engineering side slope protection device comprises a fixing plate (1) and is characterized in that fixing piles (7) are connected to the two ends of the fixing plate (1), limiting grooves (13) are formed in one side, close to the fixing piles (7), of the two ends of the upper surface of the fixing plate (1), limiting blocks (8) are connected to the inner sides of the limiting grooves (13) in a clamped mode, sliding grooves (12) are formed in the two opposite vertical surface ends of the fixing piles (7), second pile nails (11) are arranged at the lower ends of the fixing piles (7), guard rails (6) are connected between the two fixing piles (7) in a sliding mode, fixing holes (14) are formed in the four corners of the upper surface of the fixing plate (1), a fixing rod (10) is arranged at one end of the fixing plate (1), a grabbing rings (9) are sleeved on the outer wall of the fixing rod (10), and a connecting plate (5) is fixedly connected to one end of the grabbing rings (9), one end of the connecting plate (5) is connected with a protective block (2), one end of the protective block (2) is fixedly connected with a fixed strip (3), and the lower end of the fixed strip (3) is provided with a plurality of first pegs (4) which are distributed at equal intervals;

the protection block (2) comprises a block body (201), clamping grooves (202), clamping blocks (203) and an inner groove (204), wherein the block body (201) is located on one side of a connecting plate (5), the four clamping grooves (202) are respectively formed in four adjacent outer walls of the block body (201), the four clamping blocks (203) are respectively located at positions, close to one side of the clamping grooves (202), of four adjacent outer wall ends of the block body (201), and the inner groove (204) penetrates through the middle of the upper surface of the block body (201).

2. The slope protection device for the water conservancy and hydropower engineering as claimed in claim 1, wherein the fixing plate (1) is fixedly connected with the ground through a steel nail penetrating through a fixing hole (14), the limiting block (8) is sleeved at the lower end of the fixing pile (7), and the thickness of the limiting block (8) is the same as the depth of the limiting groove (13).

3. A water conservancy and hydropower engineering slope protection device according to claim 1, wherein the guard rail (6) is slidably connected with the fixing pile (7) through a sliding chute (12).

4. The slope protection device for the water conservancy and hydropower engineering as claimed in claim 1, wherein the grabbing rings (9) are provided in plurality, the grabbing rings (9) are sleeved on the outer wall of the fixing rod (10) at equal intervals, and the inner diameter of the grabbing rings (9) is slightly larger than the outer diameter of the fixing rod (10).

5. The slope protection device for the water conservancy and hydropower engineering as claimed in claim 1, wherein the connecting plate (5) is fixedly connected with the grabbing ring (9) by welding, and one end of the connecting plate (5) far away from the grabbing ring (9) is provided with clamping blocks (203) and clamping grooves (202) which are distributed at equal intervals.

6. The slope protection device for the water conservancy and hydropower engineering as claimed in claim 1, wherein the clamping groove (202) and the clamping block (203) on the block body (201) are fixedly connected with the clamping groove (202) and the clamping block (203) on the connecting plate (5) through clamping.

7. The slope protection device for the water conservancy and hydropower engineering as claimed in claim 1, wherein the blocks (201) are provided in plurality, and the blocks (201) are correspondingly connected in a one-to-one manner through clamping grooves (202) and clamping blocks (203).

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