CN217500072U - Movable shunting and blocking structure for slope debris flow - Google Patents

Abstract

The utility model provides a domatic debris flow movable reposition of redundant personnel retaining structure. Domatic mud-rock flow movable reposition of redundant personnel retaining structure includes: the plastic tunnel comprises a repairing road, two edge protection walls are built on the repairing road, a plurality of positioning piles are fixedly mounted on the repairing road, triangular diversion blocks are mounted on the positioning piles in a rotating mode, two edge protection walls are mounted on the rotating wall in a rotating mode, the rotating rod is provided with two driving wheels in a fixing mode, a blocking dam is built on the repairing road, two ends of the blocking dam are connected with the two edge protection walls respectively, two supporting walls are built on the repairing road, one ends of the two supporting walls are connected with the two edge protection walls respectively, the two supporting walls are rotatably mounted on the same two-way auger, the rotating rod is connected with the two-way auger in a transmission mode, and openings are formed in the two edge protection walls. The utility model provides a domatic debris flow movable reposition of redundant personnel structure of blocking has the advantage that can shunt the buffering to the debris flow.

Description

Movable shunting and blocking structure for slope debris flow

Technical Field

The utility model relates to a debris flow blocks technical field, especially relates to a movable reposition of redundant personnel of domatic debris flow blocks structure.

Background

The slope debris flow is also called a hillside type debris flow, the area of a watershed of the slope debris flow is relatively small, and the slope debris flow is debris flow flowing through a hillside.

When the domatic mud-rock flow appears, mud-rock flow can be along the hillside torrent and down, can cause broken falling to the highway or the building under the mountain, at present, in order to intercept mud-rock flow, generally can build the dam at the waist of a mountain or the rib of a mountain, but because domatic mud-rock flow impact force is too strong, directly intercept it through the dam and probably appear the condition that the dam is directly destroyed by the washing, consequently, it is necessary to provide a movable reposition of redundant personnel of novel domatic mud-rock flow and blocks the structure and solve above-mentioned technical problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a can shunt the domatic debris flow movable reposition of redundant personnel retaining structure of buffering to the debris flow.

In order to solve the technical problem, the utility model provides a movable reposition of redundant personnel of domatic debris flow structure of blocking includes: the trimming road is built with two side protection walls, a plurality of positioning piles are fixedly arranged on the trimming road, triangular diversion blocks are rotatably arranged on the positioning piles, the two side protection walls are rotatably provided with the same rotating rod, two driving wheels are fixedly sleeved on the rotating rod, a dam is built on the trimming road, two ends of the dam are respectively connected with two edge protection walls, two supporting walls are built on the finishing road, one end of each supporting wall is respectively connected with the two edge protection walls, the two supporting walls are rotatably provided with the same bidirectional auger, the rotating rod is in transmission connection with the two-way auger, the two edge protection walls are both provided with through holes, two ends of the two-way auger respectively penetrate through the two through holes and are in sliding connection with the two through holes, two half-angle flow guide blocks are fixedly installed on the trimming road, and one sides of the two half-angle flow guide blocks are fixedly connected with the two edge protection walls respectively.

Preferably, fixed mounting has first support pier on the finishing road, the dwang runs through first support pier and rotates with first support pier to be connected.

Preferably, one side fixed mounting of dam has the second to support the mound, two-way auger runs through the second and supports the mound and rotate with the second and be connected.

Preferably, two guide walls are built on the finishing road, one ends of the two guide walls are respectively connected with the corresponding edge protection walls, and a plurality of overflow holes are formed in the guide walls.

Preferably, the equal fixed mounting in both ends of dwang has first bevel gear, two actuating levers are installed in the last rotation of lane of repairing, and the equal fixed mounting in both ends of two actuating levers has second bevel gear, two first bevel gears and the second bevel gear meshing that corresponds, the equal fixed mounting in both ends of two-way auger has third bevel gear, and two third bevel gears mesh with the second bevel gear that corresponds respectively.

Preferably, all cover on two actuating levers and be equipped with the cover body, the bottom of two cover bodies all with finishing way fixed connection, the both ends of dwang and two-way auger extend respectively to two cover internally and with two cover bodies rotate to be connected.

Preferably, four support frames are fixedly mounted on the trimming channel, and the two drive rods respectively penetrate through the corresponding support frames and are rotatably connected with the corresponding support frames.

Compared with the prior art, the utility model provides a domatic debris flow movable reposition of redundant personnel structure of blocking has following beneficial effect:

the utility model provides a movable reposition of redundant personnel of domatic debris flow structure of blocking, through protecting the side wall, the guide pile triangle water conservancy diversion piece cooperatees, can concentrate and the buffering is handled to the debris flow, both can avoid the debris flow large tracts of land diffusion, simultaneously can shunt the impact strength in order to reduce the debris flow to the debris flow, through the dwang, driving wheel and two-way auger cooperate, power that produces when can flowing with the help of the debris flow shunts the debris flow, so as to the impact force that can further reduce the debris flow, simultaneously also can avoid the debris flow excessive gathering back overflow dam, and the dam can regard as the last line of defending of keeping off the debris flow, with thoroughly solving the subsequent threat of debris flow.

Drawings

Fig. 1 is a first front sectional view of a slope debris flow movable diversion retaining structure provided by the present invention;

fig. 2 is a second front sectional view of the movable diversion blocking structure for slope debris flow provided by the present invention;

fig. 3 is a schematic top view of the structure of the movable diversion blocking structure for slope debris flow of the present invention.

Reference numbers in the figures: 1. trimming the road; 2. a side wall; 3. positioning a pile; 4. a triangular diversion block; 5. rotating the rod; 6. driving the wheel; 7. blocking a dam; 8. a support wall; 9. a bidirectional auger; 10. a port; 11. a half-angle flow guide block; 12. a first support pier; 13. a second support pier; 14. a guide wall; 15. an overflow aperture.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2 and fig. 3 in combination, wherein fig. 1 is a first schematic front sectional view of a slope debris flow movable type diversion retaining structure according to the present invention; fig. 2 is a second front sectional view of the movable diversion blocking structure for slope debris flow provided by the present invention; fig. 3 is a schematic top view of the structure of the movable diversion blocking structure for slope debris flow of the present invention. Domatic mud-rock flow movable reposition of redundant personnel retaining structure includes: the construction of the retaining structure is more convenient because the trimming road 1 is a slightly flat part constructed by mountain legs, two side protecting walls 2 are built on the trimming road 1, the side protecting walls 2 and the retaining dam 7 can be made of local materials and constructed by taking mountain gravel as main concrete, a plurality of positioning piles 3 are fixedly mounted on the trimming road 1, triangular guide blocks 4 are rotatably mounted on the positioning piles 3, the triangular guide blocks 4 are rotatably sleeved on the positioning piles 3, so that the triangular guide blocks 4 can not only divide the debris flow after receiving the impact of the debris flow, but also can be adjusted in the direction along the flow direction of the debris flow, the impact force of the debris flow on the triangular guide blocks 4 can be reduced, the triangular guide blocks 4 are prevented from being damaged by flushing, the triangular guide blocks 4 are distributed in a staggered manner from front to back, the debris flow can be better divided by rotating rods, the same 5 is rotatably mounted on the two side protecting walls 2, the two side protection walls 2 are respectively provided with a rotating hole, the rotating rod 5 penetrates through the two rotating holes and is rotatably connected with the two rotating holes through a bearing, the rotating rod 5 is fixedly sleeved with two driving wheels 6, the driving wheels 6 are matched with the bidirectional auger 9, not only can play a role of buffering debris flow, but also can divide the debris flow, not only can reduce the impact force of the debris flow, and simultaneously can avoid overflow caused by excessive accumulation of the debris flow, a dam 7 is built on the finishing road 1, two ends of the dam 7 are respectively connected with the two side protection walls 2, two support walls 8 are built on the finishing road 1, one end of each support wall 8 is respectively connected with the two side protection walls 2, the same bidirectional auger 9 is rotatably mounted on the two support walls 8, two sides of spiral wheels on the bidirectional auger 9 are opposite, so that the spiral wheels on the bidirectional auger 9 can convey the debris flow to two sides when rotating, dwang 5 is connected with the transmission of two-way auger 9, opening 10 has all been seted up on two edge wall 2, opening 10 makes the mud-rock flow can lead edge wall 2 outside under the transport of two-way auger 9, two ends of two-way auger 9 run through respectively two openings 10 and with two opening 10 sliding connection, fixed mounting has two half angle water conservancy diversion blocks 11 on finishing way 1, half angle water conservancy diversion block 11 can cooperate triangle water conservancy diversion block 4 to shunt and the water conservancy diversion of mud-rock flow, one side of two half angle water conservancy diversion blocks 11 respectively with two edge wall 2 fixed connection that protect.

Fixed mounting has first support mound 12 on the finishing road 1, and dwang 5 runs through first support mound 12 and rotates with first support mound 12 to be connected, and first support mound 12 can support the mid portion of dwang 5 to this improves the shock resistance of dwang 5, and the place ahead of first support mound 12 is the cone angle, and this reduces its impact strength who receives the mud-rock flow.

A second support pier 13 is fixedly arranged on one side of the dam 7, the bidirectional auger 9 penetrates through the second support pier 13 and is rotatably connected with the second support pier 13, and the second support pier 13 can support the middle part of the bidirectional auger 9.

Two guide walls 14 are built on the finishing road 1, one ends of the two guide walls 14 are respectively connected with the corresponding edge protection walls 2, a plurality of overflow holes 15 are formed in the guide walls 14, the guide walls 14 are matched with the overflow holes 15, the debris flow can be guided after being divided, and part of the debris flow is discharged through the overflow holes 15 during guiding, so that the debris flow is further differentiated.

Equal fixed mounting in both ends of dwang 5 has first conical gear, it installs two actuating levers to rotate on finishing track 1, the equal fixed mounting in both ends of two actuating levers has second conical gear, two first conical gear and the second conical gear meshing that corresponds, the equal fixed mounting in both ends of two-way auger 9 has third conical gear, two third conical gear respectively with the second conical gear meshing that corresponds, first conical gear, the actuating lever, second conical gear and third conical gear, mainly regard as the driving medium between dwang 5 and the two-way auger 9, make driving wheel 6 can drive two-way auger 9 and rotate after receiving the impact of mud-rock flow.

All cover on two actuating levers and be equipped with the cover body, the bottom of two cover bodies all with finishing track 1 fixed connection, the both ends of dwang 5 and two-way auger 9 extend to respectively in two cover bodies and with two cover body rotation connection, the cover body is formed by plastics preparation, its mainly used keeps apart dwang 5 and two-way auger 9's drive mechanism, avoids its corrosion to appear after drenching with rain.

Fixed mounting has four support frames on the finishing road 1, and two actuating levers run through corresponding support frame respectively and rotate with the support frame that corresponds and be connected, and four support frames are in the inside of two covers bodies, can support two actuating levers for the actuating lever can be stable rotate.

The utility model provides a domatic debris flow movable reposition of redundant personnel structure of blocking's theory of operation as follows:

when the retaining structure is constructed, the retaining structure is generally located under the feet of the two ridges, when debris flow occurs, the debris flow generally flows along the front of the two ridges, a relatively flat finishing road 1 is constructed first, then a plurality of retaining structures are constructed on the finishing road 1, when the debris flow occurs, the debris flow flows along the groove between the two ridges and then flows into the space between the two side protecting walls 2, the flushed debris flow is contacted with the triangular guide block 4 before the debris flow, the triangular guide block 4 can buffer and shunt the debris flow so as to reduce the impact force of the debris flow, because the triangular guide block 4 can be adjusted in direction by taking the positioning pile 3 as a fulcrum, the triangular guide block 4 can swing along the debris flow to a certain degree after being impacted by the debris flow, the impact of the debris flow on the triangular guide block 4 can be reduced, meanwhile, the flow velocity of the debris flow can be reduced in the swing process, when the debris flow passes through the triangular diversion block 4, the debris flow can contact with the two driving wheels 6, so that the two driving wheels 6 start to rotate, the two driving wheels 6 drive the rotating rod 5 to rotate, the rotating rod 5 drives the corresponding two second bevel gears to rotate through the two first bevel gears, the corresponding two second bevel gears drive the other two second bevel gears to rotate through the two driving rods, the other two second bevel gears drive the two-way packing auger 9 to rotate through the two third bevel gears, the two-way packing auger 9 can divide the debris flow impacting on the dam 7 through rotation, so that the debris flow can be discharged out of the side wall 2 through the two through holes 10, then, the divided debris flow flows onto the diversion wall 14, and the diversion wall 14 can conduct diversion while letting a portion of the debris flow seep through the overflow hole 15 to be discharged, the blocking and shunting work of the debris flow is realized, so that the destructive power of the debris flow is reduced.

Compared with the prior art, the utility model provides a domatic debris flow movable reposition of redundant personnel structure of blocking has following beneficial effect:

the utility model provides a movable reposition of redundant personnel of domatic debris flow structure of blocking, through protecting side wall 2, 3 triangle water conservancy diversion pieces 4 of spud cooperate, can concentrate and the buffer treatment to the debris flow, both can avoid debris flow large tracts of land diffusion, simultaneously can shunt the impact strength in order to reduce the debris flow to the debris flow, through dwang 5, drive wheel 6 and two-way auger 9 cooperate, power that produces when can flow with the help of the debris flow shunts the debris flow, in order can further reduce the debris flow, simultaneously also can avoid the too much back excessive dam 7 of gathering of debris flow, and dam 7 can regard as the last line of defence that blocks the debris flow, with thoroughly solve the subsequent threat of debris flow.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a structure is blocked in movable reposition of redundant personnel of domatic debris flow, is including repairing the whole way, its characterized in that: two edge protection walls are built on the trimming road, a plurality of positioning piles are fixedly arranged on the trimming road, triangular diversion blocks are rotatably arranged on the plurality of positioning piles, the same rotating rod is rotatably arranged on the two edge protection walls, two driving wheels are fixedly sleeved on the rotating rod, a dam is built on the trimming road, two ends of the dam are respectively connected with two edge protection walls, two supporting walls are built on the finishing road, one end of each supporting wall is respectively connected with the two edge protection walls, the two supporting walls are rotatably provided with the same bidirectional auger, the rotating rod is in transmission connection with the two-way auger, the two edge protection walls are both provided with through holes, two ends of the two-way auger respectively penetrate through the two through holes and are in sliding connection with the two through holes, two half-angle flow guide blocks are fixedly installed on the trimming road, and one sides of the two half-angle flow guide blocks are fixedly connected with the two edge protection walls respectively.

2. The structure of claim 1, wherein the finishing road is fixedly provided with a first support pier, and the rotation rod penetrates through and is rotatably connected with the first support pier.

3. The movable type flow dividing and blocking structure for slope debris flow according to claim 1, wherein a second support pier is fixedly mounted on one side of the blocking dam, and the bidirectional auger penetrates through the second support pier and is rotatably connected with the second support pier.

4. The structure of claim 1, wherein two guide walls are constructed on the finishing road, one end of each of the two guide walls is connected to a corresponding edge protection wall, and a plurality of overflow holes are formed in the guide walls.

5. The movable shunting blocking structure for slope debris flow according to claim 1, wherein first bevel gears are fixedly mounted at both ends of the rotating rod, two driving rods are rotatably mounted on the trimming channel, second bevel gears are fixedly mounted at both ends of the two driving rods, the two first bevel gears are engaged with the corresponding second bevel gears, third bevel gears are fixedly mounted at both ends of the bidirectional auger, and the two third bevel gears are engaged with the corresponding second bevel gears respectively.

6. The structure of claim 5, wherein the two driving rods are covered with covers, the bottoms of the two covers are fixedly connected to the finishing track, and the two ends of the rotating rod and the two-way screw conveyer extend into the two covers and are rotatably connected to the two covers.

7. The structure of claim 5, wherein four supports are fixedly mounted on the finishing road, and two driving rods respectively penetrate through and are rotatably connected to the corresponding supports.

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