CN115559260A

CN115559260A - Ecological retaining wall based on bank slope is strutted

Info

Publication number: CN115559260A
Application number: CN202210514487.XA
Authority: CN
Inventors: 邵俊华
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-11
Filing date: 2022-05-11
Publication date: 2023-01-03

Abstract

The invention relates to the technical field of river retaining walls, in particular to an ecological retaining wall based on bank slope support, which comprises a retaining wall body, an ecological frame, a water tank, a turning component, a drainage component, a water supply component and two plant display components, wherein the ecological frame is arranged on the inner side wall of the retaining wall body, the water tank is arranged at the top of the ecological frame, the two plant display components are arranged inside the ecological frame at intervals, one ends of the two plant display components extend to the outside of the ecological frame, the turning component is arranged on the outer side wall of the ecological frame, the drainage component is arranged at the top of the ecological frame, one end of the drainage component extends to the inside of the water tank, and the water supply component is arranged on the outer side wall of the ecological frame.

Description

Ecological retaining wall based on bank slope is strutted

Technical Field

The invention relates to the technical field of riverway retaining walls, in particular to an ecological retaining wall based on bank slope support.

Background

The river bank is washed by water flow, so that the erosion and the collapse are easy to occur, and in order to protect the river bank, a retaining wall needs to be built at the position where the top of the river bank is flushed and the slope is steep to protect the river bank. The traditional retaining wall is mainly made of hardened materials and structural forms such as grouted blockstones, dry blockstones, precast concrete blocks, cast-in-place concrete and the like. Such hardened retaining walls pose various ecological problems: the hard retaining wall seals the surface of the river bank, blocks the organic connection between the river water area ecological system and the land ecological system on the bank, isolates the material exchange between the river water area ecological system and the land ecological system on the bank, causes the loss or continuity interruption of the biological habitat, and accelerates the fragmentation of the habitat and the occurrence of edge effect. The ecological retaining wall has the functions of ecological environment protection, landscape function and water and soil loss prevention. The ecological retaining wall has wide market development prospect and can be fully applied to urban river regulation.

The existing ecological retaining wall generally adopts various plants planted on the surface of the retaining wall, and under rainstorm weather, the planted plants are easily damaged by rainstorm, maintenance personnel are required to transfer the plants in advance according to weather forecast, the workload is very heavy, and some sudden rainstorm weather maintenance personnel can not transfer the plants in time in summer, so that the probability of plant damage is increased, and unnecessary loss is caused.

Disclosure of Invention

The invention aims to provide an ecological retaining wall based on bank slope support, and aims to solve the problems that maintenance personnel are provided to transfer plants in advance according to weather forecast, the workload is very heavy, and sudden heavy rain weather maintenance personnel cannot transfer the plants in time in summer, the probability of plant damage is increased, and unnecessary loss is caused in the background technology.

The technical scheme of the invention is as follows:

the utility model provides an ecological barricade based on bank slope is strutted, includes barricade body, ecological frame, water tank, upset subassembly, drainage subassembly, water supply subassembly and two plant show subassemblies, ecological frame installs on the inside wall of barricade body, the water tank sets up at ecological frame's top, two plant show subassembly interval sets up the inside at ecological frame to the one end of two plant show subassemblies extends to ecological frame's outside, the upset unit mount is on ecological frame's lateral wall, and the upset subassembly is used for overturning two plant show subassemblies, the drainage unit mount is at ecological frame's top to the one end of drainage subassembly extends to the inside of water tank, water supply unit mount is on ecological frame's lateral wall to water supply unit's one end is linked together with two plant show subassemblies respectively.

Further, every plant show subassembly all includes first pivot, second pivot, diaphragm, plant case, apron, conveyer pipe, gear, dwang, arc spout, slip post and a plurality of and plants the basin, first pivot and second pivot are rotated and are installed on ecological frame's inside wall to the one end of first pivot extends to ecological frame's outside, the diaphragm level sets up in ecological frame, and the both ends of diaphragm are connected with first pivot and second pivot respectively, the top at the diaphragm is installed to the plant case, the apron spiro union is at the top of plant case, a plurality of plant equidistant setting on the apron to the bottom of a plurality of planting basin extends to the inside of plant case, every the bottom of planting the basin all is equipped with a plurality of through-hole, the conveyer pipe level sets up in the inside of plant case to the one end of conveyer pipe extends to the outside of apron, be equipped with a plurality of round hole, a plurality of plant the basin one-to-one-to-slide connection spout of ecological frame, the arc spout is installed on the slide post to the outside wall of slide post.

Further, the turnover assembly comprises an L-shaped frame, a guide rail, a sliding block, a rack, a U-shaped frame, an upper mounting block, a lower mounting block, a screw, a moving block, a connecting plate, first conical teeth, a rotating handle, a transmission part and two vertical rods, wherein the L-shaped frame is mounted on the outer side wall of the ecological frame, the guide rail is vertically arranged on the outer side wall of the L-shaped frame, the sliding block is mounted on the guide rail in a sliding manner, the rack is mounted on the outer side wall of the sliding block and meshed with gears in the two plant display assemblies, the U-shaped frame is mounted on the outer side wall of the ecological frame, the upper mounting block and the lower mounting block are respectively mounted in the U-shaped frame, the two vertical rods are symmetrically arranged on the upper mounting block and the lower mounting block, the screw is rotatably mounted on the upper mounting block and the lower mounting block, the top end of the screw extends to the top of the U-shaped frame, the moving block is slidably mounted on the two vertical rods and is in threaded fit with the screw, two ends of the connecting plate are respectively connected with the moving block and the sliding block, the sliding block and the first conical teeth and the rotating handle are arranged at intervals on the top end of the outer side wall of the ecological frame, and the transmission part is used for driving the first conical teeth.

Further, the transmission part comprises a first mounting seat, a second mounting seat, a first rotating shaft, a second rotating shaft, a mounting sleeve, a driving sprocket, a driven sprocket, a chain, a second conical tooth and a power part, wherein the first mounting seat and the second mounting seat are arranged on the outer side wall of the ecological frame at intervals, the first rotating shaft and the second rotating shaft are respectively installed on the first mounting seat and the second mounting seat in a rotating mode, the mounting sleeve is arranged at the end portion of the first rotating shaft, a plurality of rotating blades which are arranged at equal intervals around the circle center of the mounting sleeve are arranged on the outer wall of the mounting sleeve, the driving sprocket is installed on the first rotating shaft, the driven sprocket is installed on the second rotating shaft, the chain is sleeved on the outer portions of the driving sprocket and the driven sprocket, the second conical tooth is installed at the end portion of the second rotating shaft and meshed with the first conical tooth, the power part is installed on the outer side wall of the top end of the ecological frame, and the power part is located above the plurality of rotating blades.

Further, the power spare includes transfer case, first kickboard and limiting plate, the transfer case is installed on ecological frame's top lateral wall to the transfer case is located a plurality of rotating vane's top, the bottom of transfer case is equipped with the rectangular channel, the symmetry is provided with two recesses on the inner wall of transfer case, first kickboard sets up in the transfer case to the both sides and two recess sliding fit of first kickboard, the bottom at first kickboard is installed to the limiting plate to the bottom of limiting plate is passed the rectangular channel and is extended to between two adjacent rotating vane.

Further, the drainage subassembly includes supporting seat, pipe chute, drain pipe, stifled ball and water supply part, the top at ecological frame is installed to the supporting seat, the pipe chute sets up the top at the supporting seat, the drain pipe is installed in the bottom of pipe chute lower to the drain pipe is linked together with the pipe chute, the bottom of drain pipe is located the top of transfer box, stifled ball sets up the inside at the pipe chute, the inside at the water tank is installed to the water supply part to the one end and the pipe chute of water supply part are linked together.

Furthermore, the water supply part comprises a water supply cylinder, a second floating plate, a water supply pipe and a plurality of water supply grooves, the water supply cylinder is vertically arranged inside the water tank, the second floating plate is arranged inside the water supply cylinder, two ends of the water supply pipe are respectively communicated with the water supply cylinder and the inclined pipe, and the plurality of water supply grooves are arranged on the top end of the water supply cylinder at equal intervals.

Further, the water supply assembly comprises a collecting cylinder, a water supply pipe, a one-way valve, a water supply tank and two hoses, wherein the collecting cylinder is vertically arranged on the outer side wall of the ecological frame, the top end of the collecting cylinder is located below a plurality of rotating blades, the water supply tank is arranged at the bottom end of the ecological frame, two ends of the water supply pipe are respectively communicated with the collecting cylinder and the water supply tank, the one-way valve is arranged on the water supply pipe, the two hoses are communicated with the water supply tank at one end, and the other ends of the hoses are respectively communicated with conveying pipes in the two plant display assemblies.

Furthermore, a pull rope is arranged at the top of the first floating plate, and one end of the pull rope extends to the outside of the transfer box.

Furthermore, a plurality of tree planting grooves which are arranged at equal intervals are formed in the top of the retaining wall body.

Compared with the prior art, the ecological retaining wall based on bank slope supporting has the following improvements and advantages that:

one is as follows: the two plant display assemblies are used for planting various plants, the water tank collects rainwater, the rainwater in the water tank quickly falls onto the turnover assembly through the drainage assembly after reaching a certain liquid level height, the impact force of the rainwater falling onto the turnover assembly drives the turnover assembly to work, the turnover assembly works to turn over the two plant display assemblies, the two plant display assemblies turn over for 90 degrees and are stored in the ecological frame, damage to various plants planted in the two plant display assemblies due to rainstorm is avoided, meanwhile, maintenance personnel do not need to transfer the plants in advance according to weather forecast, workload of maintenance personnel is reduced, the rainwater falling from the turnover assembly can automatically drive the turnover assembly to turn over the two plant display assemblies, sudden rainstorm weather maintenance personnel cannot timely transfer the plants in summer is avoided, the probability of damage to the plants is greatly reduced, unnecessary loss is prevented, the water supply assembly collects the rainwater falling from the turnover assembly, the water supply assembly supplies the rainwater into the two plant display assemblies, water supply for the plants planted in the two plant display assemblies is further achieved, and waste of various plants is avoided.

The second step is as follows: according to the invention, rainwater falls into the power part, then the rainwater in the power part falls into the surfaces of the plurality of rotating blades, the plurality of rotating blades drive the first rotating shaft to rotate by using the impact force of the rainwater, the first rotating shaft drives the driving sprocket to rotate, the driving sprocket drives the driven sprocket to rotate by using the chain, the driven sprocket drives the second rotating shaft and the second conical teeth to rotate, and the second conical teeth drive the first conical teeth to rotate, so that the purpose of driving the first conical teeth to rotate is realized.

And thirdly: in sunny weather, a maintainer pulls the first floating plate to move upwards for a certain distance by using the pull rope, the first floating plate drives the limiting plate to move upwards for a certain distance, the bottom end of the limiting plate is far away from the rotating blade, and the maintainer can conveniently rotate the rotating handle, and the rotating handle can drive the first rotating shaft to rotate synchronously.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a partial perspective view of the first embodiment of the present invention;

FIG. 5 is a partial perspective view of the second embodiment of the present invention;

FIG. 6 is an enlarged view at A in FIG. 5;

FIG. 7 is a partial cross-sectional view of the present invention;

FIG. 8 is a schematic view of a third embodiment of the present invention;

FIG. 9 is a perspective view of a first embodiment of the transmission assembly of the present invention;

FIG. 10 is a second perspective view of the transmission member of the present invention;

FIG. 11 is a third schematic perspective view of the transmission component of the present invention;

FIG. 12 is a first perspective view of the drain assembly of the present invention;

FIG. 13 is a second perspective view of the drain assembly of the present invention;

FIG. 14 is a partial cross-sectional view of the drain assembly of the present invention.

Description of reference numerals:

the retaining wall body 1, the tree planting trough 11, the ecological frame 2, the water tank 3, the turnover assembly 4,L type frame 41, the guide rail 411, the slider 412, the rack 413, the u-shaped frame 42, the upper mounting block 43, the lower mounting block 44, the screw 45, the moving block 46, the connecting plate 461, the first conical tooth 462, the rotating handle 463, the transmission member 47, the first mounting seat 471, the second mounting seat 472, the first rotating shaft 473, the second rotating shaft 474, the mounting sleeve 475, the rotating blade 4751, the driving sprocket 476, the driven sprocket 477, the chain 478, the second conical tooth 479, the power member 4791, the middle rotating box 4792, the first floating plate 4793, the limiting plate 4794, the rectangular trough 4795, the groove 4796, the pulling rope 4797, the vertical bar 48, the drainage assembly 5, the supporting seat 51, the rotating rod 52, the drainage pipe 53, the blocking ball 54, the water supply member 55, the water supply cylinder 56, the second floating plate 57, the water supply pipe 58, the water supply tank 59, the water supply assembly 6, the collection cylinder 61, the water supply pipe 62, the water supply valve 7965, the plant growth tank cover plate 797, the plant growth tank 797, the plant growth pipe 794, the plant growth trough 797, the plant growth trough 794, the plant growth trough 79, the plant growth pipe 794, the plant growth trough 71, the plant growth pipe 794, the plant growth trough 794, the plant growth pipe 794, the plant growth trough 79.

Detailed Description

The present invention is described in detail below, and technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides an ecological retaining wall based on bank slope support through improvement, as shown in fig. 1-14, the ecological retaining wall comprises a retaining wall body 1, an ecological frame 2, a water tank 3, an overturning component 4, a water discharging component 5, a water supplying component 6 and two plant displaying components 7, wherein the ecological frame 2 is installed on the inner side wall of the retaining wall body 1, the water tank 3 is arranged at the top of the ecological frame 2, the two plant displaying components 7 are arranged at intervals in the ecological frame 2, one ends of the two plant displaying components 7 extend to the outside of the ecological frame 2, the overturning component 4 is installed on the outer side wall of the ecological frame 2, the overturning component 4 is used for overturning the two plant displaying components 7, the water discharging component 5 is installed at the top of the ecological frame 2, one end of the water discharging component 5 extends to the inside of the water tank 3, the water supplying component 6 is installed on the outer side wall of the ecological frame 2, and one end of the water supplying component 6 is respectively communicated with the two plant displaying components 7; two plant show subassemblies 7 are used for planting all kinds of plants, under heavy rain weather, water tank 3 is collected the rainwater, rainwater in the water tank 3 reaches certain liquid level height after, rainwater in the water tank 3 falls into to upset subassembly 4 through drainage component 5 fast, the rainwater falls into the impact force drive upset subassembly 4 work on the upset subassembly 4, upset subassembly 4 work overturns two plant show subassemblies 7, two plant show subassemblies 7 upset 90 accomodate to ecological frame 2 in, and then avoid heavy rain to cause the damage to all kinds of plants of planting in two plant show subassemblies 7, need not the maintainer simultaneously and shift the plant according to the weather forecast in advance, reduce maintainer's work load, because the rainwater of heavy rain can automatically drive upset subassembly 4 and overturn two plant show subassemblies 7, also avoid taking place some proruption rain maintainer's condition that the plant can't in time carry out the weather shift in summer, and then greatly reduced the probability of plant damage, prevent to cause unnecessary loss, collect for water subassembly 6 and from overturning subassembly 4, the rainwater that supplies water to wherein, and then realize that the rainwater of two plant show subassemblies wastes, the rainwater of planting of the plant is carried out to the waste.

Specifically, each of the plant display assemblies 7 includes a first rotating shaft 71, a second rotating shaft 72, a transverse plate 73, a plant box 74, a cover plate 75, a conveying pipe 76, a gear 77, a rotating rod 78, an arc chute 79, a sliding column 791 and a plurality of planting pots 792, the first rotating shaft 71 and the second rotating shaft 72 are rotatably installed on the inner side wall of the ecological frame 2, one end of the first rotating shaft 71 extends to the outside of the ecological frame 2, the transverse plate 73 is horizontally arranged in the ecological frame 2, both ends of the transverse plate 73 are respectively connected with the first rotating shaft 71 and the second rotating shaft 72, the plant box 74 is installed on the top of the transverse plate 73, the cover plate 75 is screwed on the top of the plant box 74, the plurality of planting pots 792 are equidistantly arranged on the cover plate 75, the bottom ends of the plurality of planting pots 792 extend to the inside of the plant box 74, the bottom of each of the rotating rods 792 is provided with a plurality of through holes 793, the conveying pipe 76 is horizontally arranged inside the plant box 74, one end of the conveying pipe 76 extends to the outside of the ecological frame 794, the sliding column 792 is arranged on the outside of the ecological frame 792, and the ecological frame 791 is connected with the sliding chute 792; fall into the impact force drive upset subassembly 4 work on the upset subassembly 4 through the rainwater, upset subassembly 4 work drives gear 77 and rotates, gear 77 drives first pivot 71, second pivot 72 and diaphragm 73 rotate, first pivot 71 drives dwang 78 and rotates simultaneously, dwang 78 drives slip post 791 and slides in arc spout 79, the contained angle of arc spout 79 is 90, and then make things convenient for diaphragm 73 to overturn 90 back stall, diaphragm 73 drives a plurality of and plants basin 792 upset 90 and accomodates to ecological frame 2 in, feed water assembly 6 supplies the rainwater that falls down from upset subassembly 4 to in conveyer pipe 76, conveyer pipe 76 utilizes a plurality of round hole 794 to carry the rainwater to the plant box 74 in, the plant of planting in basin 792 absorbs the rainwater in the plant box 74 through a plurality of through-hole 793, need not that maintainer regularly waters the plant, reduce maintainer's work load.

Specifically, the turning assembly 4 includes an L-shaped frame 41, a guide rail 411, a sliding block 412, a rack 413, a U-shaped frame 42, an upper mounting block 43, a lower mounting block 44, a screw 45, a moving block 46, a connecting plate 461, a first conical tooth 462, a rotating handle 463, a transmission part 47 and two vertical rods 48, the L-shaped frame 41 is mounted on the outer side wall of the ecological frame 2, the guide rail 411 is vertically arranged on the outer side wall of the L-shaped frame 41, the sliding block 412 is slidably mounted on the guide rail 411, the rack 413 is mounted on the outer side wall of the sliding block 412, the rack 413 is meshed with gears 77 in the two plant display assemblies 7, the U-shaped frame 42 is mounted on the outer side wall of the ecological frame 2, the upper mounting block 43 and the lower mounting block 44 are respectively mounted in the U-shaped frame 42, the two vertical rods 48 are symmetrically arranged on the upper mounting block 43 and the lower mounting block 44, the screw 45 is rotatably mounted on the upper mounting block 43 and the lower mounting block 44, the top end of the screw 45 extends to the top of the U-shaped frame 42, the moving block 46 is slidably mounted on the two vertical rods 48, the transmission block 46 is in threaded fit with the transmission block 462, the first conical tooth 462, the transmission block 47 is mounted on the top end of the transmission block 462, and the transmission block 47, the first conical tooth is mounted on the transmission block 462, and the transmission block 47, the transmission block 47 is mounted on the top end of the ecological frame 2; the rainwater falls into the impact force drive transmission part 47 work on transmission part 47, transmission part 47 work drives first toper tooth 462 rotation, first toper tooth 462 drives and drives screw rod 45 rotation, screw rod 45 drives movable block 46 and moves down on two montants 48, movable block 46 utilizes connecting plate 461 to drive slider 412 and moves down, slider 412 slides down on guide rail 411, slider 412 drives rack 413 and moves down in step, rack 413 drives the gear 77 rotation among two plant display components 7, make things convenient for gear 77 to rotate and accomodate a plurality of planting basin 792 in ecological frame 2 in overturning 90, in sunny weather, maintainer rotates rotation handle 463 and drives screw rod 45 to rotate, screw rod 45 drives movable block 46 rebound and resets, and then diaphragm 73 drives a plurality of planting basin 792 and resets.

Specifically, the transmission member 47 includes a first mounting seat 471, a second mounting seat 472, a first rotating shaft 473, a second rotating shaft 474, a mounting sleeve 475, a driving sprocket 476, a driven sprocket 477, a chain 478, second tapered teeth 479, and a power member 4791, the first mounting seat 471 and the second mounting seat 472 are arranged at intervals on the outer side wall of the ecological frame 2, the first rotating shaft 473 and the second rotating shaft are rotatably mounted on the first mounting seat 471 and the second mounting seat 472, respectively, the mounting sleeve 475 is arranged at the end of the first rotating shaft 473, the mounting sleeve 475 is provided on the outer wall thereof with a plurality of rotating blades 4751 arranged at equal intervals around the center thereof, the driving sprocket 476 is mounted on the first rotating shaft 474, the driven sprocket 477 is mounted on the second rotating shaft 474, the chain 478 is sleeved outside the driving sprocket 476 and the driven sprocket 477, the second tapered teeth 479 is mounted at the end of the second rotating shaft 474, and the second tapered teeth 479 are engaged with the first tapered teeth 462, the tip 4791 of the power member is mounted on the outer side wall 4791 of the ecological frame 2, and the plurality of rotating blades 4751 are located above the power member 4791; the rainwater falls into power piece 4791 in, then the rainwater in the power piece 4791 falls into a plurality of rotating blade 4751 surface, a plurality of rotating blade 4751 utilizes the impact force of rainwater to drive first rotation axis 473 and rotates, first rotation axis 473 drives drive sprocket 476 and rotates, drive sprocket 476 utilizes chain 478 to drive driven sprocket 477 and rotates, driven sprocket 477 drives second rotation axis 474 and second toper tooth 479 and rotates, second toper tooth 479 drives first toper tooth 462 and rotates, the realization drives first toper tooth 462 and carries out the pivoted purpose.

Specifically, the power member 4791 comprises a transfer box 4792, a first floating plate 4793 and a limit plate 4794, wherein the transfer box 4792 is mounted on the top end outer side wall of the ecological frame 2, the transfer box 4792 is positioned above the plurality of rotating blades 4751, the bottom of the transfer box 4792 is provided with a rectangular groove 4795, the inner wall of the transfer box 4792 is symmetrically provided with two grooves 4796, the first floating plate 4793 is arranged in the transfer box 4792, the two sides of the first floating plate 4793 are in sliding fit with the two grooves 4796, the limit plate 4794 is mounted at the bottom of the first floating plate 4793, and the bottom end of the limit plate 4794 extends to between the two adjacent rotating blades 4751 through the rectangular groove 4795; the rainwater is continuous to fall into to transfer case 4792 in, transfer case 4792 is filled with fast to the rainwater, simultaneously first kickplate 4793 floats in transfer case 4792 fast, first kickplate 4793 drives limiting plate 4794 rebound, limiting plate 4794 rebound to the top of transfer case 4792, the rainwater in transfer case 4792 falls into to a plurality of rotating blade 4751 surface through rectangular channel 4795 this moment, a plurality of rotating blade 4751 utilizes the impact force of rainwater and then drives first rotation axis 473 and rotate, two recesses 4796 carry on spacingly to the removal of first kickplate 4793.

Specifically, the drainage assembly 5 comprises a supporting base 51, an inclined pipe 52, a drainage pipe 53, a blocking ball 54 and a water supply part 55, wherein the supporting base 51 is installed at the top of the ecological frame 2, the inclined pipe 52 is arranged at the top end of the supporting base 51, the drainage pipe 53 is installed at the lowest position of the bottom end of the inclined pipe 52, the drainage pipe 53 is communicated with the inclined pipe 52, the bottom end of the drainage pipe 53 is positioned above the transfer box 4792, the blocking ball 54 is arranged inside the inclined pipe 52, the water supply part 55 is installed inside the water tank 3, and one end of the water supply part 55 is communicated with the inclined pipe 52; rainwater in the water tank 3 enters the water supply part 55 after reaching a certain liquid level height, rainwater in the water supply part 55 enters the inclined tube 52, the blocking ball 54 is impacted to the highest position in the inclined tube 52 by the rainwater in the inclined tube 52, at the moment, the blocking ball 54 cannot block the top end of the drain tube 53, the rainwater in the inclined tube 52 is quickly drained into the transfer box 4792 through the drain tube 53, and continuous rainwater filling operation of the transfer box 4792 is realized.

Specifically, the water supply part 55 comprises a water supply cylinder 56, a second floating plate 57, a water supply pipe 58 and a plurality of water supply grooves 59, the water supply cylinder 56 is vertically arranged inside the water tank 3, the second floating plate 57 is arranged inside the water supply cylinder 56, two ends of the water supply pipe 58 are respectively communicated with the water supply cylinder 56 and the inclined pipe 52, and the plurality of water supply grooves 59 are arranged at the top end of the water supply cylinder 56 at equal intervals; after the rainwater in the water tank 3 reaches a certain liquid level height, the rainwater in the water tank 3 enters the water supply cylinder 56 through the plurality of water supply grooves 59, meanwhile, the second floating plate 57 floats upwards in the water supply cylinder 56, the second floating plate 57 cancels the blocking of the water supply pipe 58, and the rainwater in the water supply cylinder 56 enters the inclined pipe 52 through the water supply pipe 58.

Specifically, the water supply assembly 6 comprises a collecting cylinder 61, a water supply pipe 62, a check valve 63, a water supply tank 64 and two hoses 65, the collecting cylinder 61 is vertically arranged on the outer side wall of the ecological frame 2, the top end of the collecting cylinder 61 is positioned below the plurality of rotating blades 4751, the water supply tank 64 is arranged at the bottom end inside the ecological frame 2, two ends of the water supply pipe 62 are respectively communicated with the collecting cylinder 61 and the water supply tank 64, the check valve 63 is arranged on the water supply pipe 62, one ends of the two hoses 65 are communicated with the water supply tank 64, and the other ends of the two hoses 65 are respectively communicated with the conveying pipes 76 in the two plant display assemblies 7; the rainwater that the surge drum 61 fell on to a plurality of rotating vane 4751 is collected, rainwater in the surge drum 61 enters into to the feed tank 64 through the feed pipe 62, the water flow direction in the feed pipe 62 is ensured to check valve 63, avoid the rainwater in the feed tank 64 to flow back to in the surge drum 61, rainwater in the feed tank 64 enters into the conveyer pipe 76 in two plant display component 7 through two hoses 65 at last, and then realize supplying water to the all kinds of plants of planting in two plant display component 7, avoid the waste of water resource.

Specifically, a pull rope 4797 is arranged at the top of the first floating plate 4793, and one end of the pull rope 4797 extends to the outside of the transfer box 4792; under sunny weather, maintainer utilizes stay cord 4797 to stimulate first kickboard 4793 upwards to move a certain distance, and first kickboard 4793 drives limiting plate 4794 upwards to move a certain distance, and rotating vane 4751 is kept away from to the bottom of limiting plate 4794, makes things convenient for maintainer to rotate turning handle 463 because turning handle 463 can drive first rotation axis 473 and rotate in step.

Specifically, the top of the retaining wall body 1 is provided with a plurality of tree planting grooves 11 which are arranged at equal intervals; the tree planting groove 11 is used for planting trees which are large in size and strong in wind and rain resistance.

The working principle of the invention is as follows: in heavy rain, the water tank 3 collects rainwater, after the rainwater in the water tank 3 reaches a certain liquid level, the rainwater in the water tank 3 enters the water supply cylinder 56 through the plurality of water supply grooves 59, meanwhile, the second floating plate 57 floats upwards in the water supply cylinder 56, the second floating plate 57 cancels the blocking of the water supply pipe 58, the rainwater in the water supply cylinder 56 enters the inclined pipe 52 through the water supply pipe 58, the blocking ball 54 is impacted to the highest position in the inclined pipe 52 by the rainwater in the inclined pipe 52, at the moment, the blocking ball 54 cannot block the top end of the water drain pipe 53, the rainwater in the inclined pipe 52 quickly drains into the transfer box 4792 through the water drain pipe 53, the transfer box 4792 is quickly filled with the rainwater, meanwhile, the first floating plate 4793 quickly floats upwards in the transfer box 4792, the first floating plate 4793 drives the limiting plate 4794 to move upwards, the limiting plate 4794 moves upwards to the top end of the transfer box 4792, at the moment, the rainwater in the transfer box 4792 falls into the surfaces of the plurality of rectangular rotating blades 4751 through the grooves 95, the plurality of rotating blades 4751 drive the first rotating shaft 473 to rotate by the impact force of rain water, the first rotating shaft 473 drives the driving sprocket 476 to rotate, the driving sprocket 476 drives the driven sprocket 477 to rotate by the chain 478, the driven sprocket 477 drives the second rotating shaft 474 and the second conical teeth 479 to rotate, the second conical teeth 479 drives the first conical teeth 462 to rotate, the first conical teeth 462 drives the driving screw 45 to rotate, the screw 45 drives the moving block 46 to move downwards on the two vertical rods 48, the moving block 46 drives the sliding block 412 to move downwards by the connecting plate 461, the sliding block 412 slides downwards on the guide rail 411, the sliding block 412 drives the rack 413 to synchronously move downwards, the rack 413 drives the gear 77 in the two plant display assemblies 7 to rotate, the gear 77 drives the first rotating shaft 71, the second rotating shaft 72 and the transverse plate 73 to rotate, and the first rotating shaft 71 drives the rotating shaft 78 to rotate at the same time, dwang 78 drives the slip post 791 and slides in arc spout 79, arc spout 79's contained angle is 90, and then make things convenient for diaphragm 73 upset 90 back stall, diaphragm 73 drives a plurality of and plants basin 792 upset 90 and accomodates to ecological frame 2 in, and then avoid heavy rain to cause the damage to the all kinds of plants of planting in two plant display subassemblies 7, need not maintainer to shift the plant according to the weather forecast in advance simultaneously, reduce maintainer's work load, the rainwater that falls down on a plurality of rotating vane 4751 is collected to the surge drum 61, rainwater in the surge drum 61 enters into to water supply tank 64 through water supply pipe 62, water flow in the water supply pipe 62 is ensured to check valve 63, avoid the rainwater in the water supply tank 64 to flow back to in the surge drum 61, rainwater in the water supply tank 64 enters into to the conveyer pipe 76 in two plant display subassemblies 7 through two hoses 65 at last, and then realize that all kinds of plants of planting in two plant display subassemblies 7 feed water, avoid the waste of.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides an ecological barricade based on bank slope is strutted which characterized in that: including barricade body (1), ecological frame (2), water tank (3), upset subassembly (4), drainage subassembly (5), water supply subassembly (6) and two plant display subassemblies (7), install on the inside wall of barricade body (1) ecological frame (2), water tank (3) set up at the top of ecological frame (2), two plant display subassembly (7) interval sets up in the inside of ecological frame (2) to the one end of two plant display subassemblies (7) extends to the outside of ecological frame (2), upset subassembly (4) are installed on the lateral wall of ecological frame (2) to upset subassembly (4) are used for overturning two plant display subassemblies (7), drainage subassembly (5) are installed at the top of ecological frame (2) to the one end of drainage subassembly (5) extends to the inside of water tank (3), water supply subassembly (6) are installed on the lateral wall of ecological frame (2) to the one end of water supply subassembly (6) is linked together with two plant display subassemblies (7) respectively.

2. An ecological retaining wall based on bank slope support according to claim 1, characterized in that: each plant display assembly (7) comprises a first rotating shaft (71), a second rotating shaft (72), a transverse plate (73), a plant box (74), a cover plate (75), a conveying pipe (76), a gear (77), a rotating rod (78), an arc-shaped sliding groove (79), a sliding column (791) and a plurality of planting pots (792), wherein the first rotating shaft (71) and the second rotating shaft (72) are rotatably installed on the inner side wall of the ecological frame (2), one end of the first rotating shaft (71) extends to the outside of the ecological frame (2), the transverse plate (73) is horizontally arranged in the ecological frame (2), two ends of the transverse plate (73) are respectively connected with the first rotating shaft (71) and the second rotating shaft (72), the plant box (74) is installed on the top of the transverse plate (73), the cover plate (75) is screwed on the top of the plant box (74), the planting pots (792) are equidistantly arranged on the cover plate (75), the bottom ends of the planting pots (792) extend to the inside of the plant box (74), and a plurality of the plant boxes (792) are provided with a plurality of through holes (76) extending from the outside of the plant box (793) to the bottom of each planting pot 792), be equipped with a plurality of round hole (794), a plurality of on conveyer pipe (76) round hole (794) and a plurality of plant basin (792) one-to-one, gear (77) and dwang (78) interval set up the one end that extends to ecological frame (2) outside at first pivot (71), set up on the lateral wall of ecological frame (2) arc spout (79), sliding column (791) slidable mounting is in arc spout (79) to the one end and the dwang (78) of sliding column (791) are connected.

3. An ecological retaining wall based on bank slope support according to claim 2, characterized in that: the turnover component (4) comprises an L-shaped frame (41), a guide rail (411), a sliding block (412), a rack (413), a U-shaped frame (42), an upper mounting block (43), a lower mounting block (44), a screw rod (45), a moving block (46), a connecting plate (461), first conical teeth (462), a rotating handle (463), a transmission part (47) and two vertical rods (48), wherein the L-shaped frame (41) is mounted on the outer side wall of the ecological frame (2), the guide rail (411) is vertically arranged on the outer side wall of the L-shaped frame (41), the sliding block (412) is slidably mounted on the guide rail (411), the rack (413) is mounted on the outer side wall of the sliding block (412), the rack (413) is meshed with gears (77) in the two plant display components (7), the U-shaped frame (42) is mounted on the outer side wall of the ecological frame (2), the upper mounting block (43) and the lower mounting block (44) are respectively mounted in the U-shaped frame (42), the two vertical rods (48) are symmetrically arranged on the upper mounting block (43) and the lower mounting block (44), and the top of the screw rod (45) extends to the top of the screw rod (45), the moving block (46) is slidably mounted on the two vertical rods (48), the moving block (46) is in threaded fit with the screw rod (45), two ends of the connecting plate (461) are respectively connected with the moving block (46) and the sliding block (412), the first conical teeth (462) and the rotating handle (463) are arranged at the top end of the screw rod (45) at intervals, the transmission part (47) is mounted on the outer side wall of the ecological frame (2), and the transmission part (47) is used for driving the first conical teeth (462) to rotate.

4. An ecological retaining wall based on bank slope support according to claim 3, characterized in that: the transmission component (47) comprises a first mounting seat (471), a second mounting seat (472), a first rotating shaft (473), a second rotating shaft (474), a mounting sleeve (475), a driving sprocket (476), a driven sprocket (477), a chain (478), a second conical tooth (479) and a power member (4791), the first mounting seat (471) and the second mounting seat (472) are arranged on the outer side wall of the ecological frame (2) at intervals, the first rotating shaft (473) and the second rotating shaft (474) are respectively rotatably mounted on the first mounting seat (471) and the second mounting seat (472), the mounting sleeve (475) is arranged on the end part of the first rotating shaft (473), a plurality of rotating blades (4751) which are arranged around the center of the ecological frame at equal intervals are arranged on the outer wall of the mounting sleeve (475), the driving sprocket (476) is mounted on the first rotating shaft (473), the driven sprocket (477) is mounted on the second rotating shaft (474), the chain (478) is sleeved on the driven sprocket (476) and the second conical tooth (4779) of the driving sprocket (476), the ecological frame (462) is mounted on the top end part of the second conical tooth (479), and the top end part of the ecological frame (462) is meshed with the second conical tooth (479), and the power member (4791) is located above the plurality of rotating blades (4751).

5. An ecological retaining wall based on bank slope support according to claim 4, characterized in that: power spare (4791) includes transfer case (4792), first kickboard (4793) and limiting plate (4794), transfer case (4792) are installed on the top lateral wall of ecological frame (2) to transfer case (4792) are located the top of a plurality of rotating vane (4751), the bottom of transfer case (4792) is equipped with rectangular channel (4795), the symmetry is provided with two recesses (4796) on the inner wall of transfer case (4792), first kickboard (4793) set up in transfer case (4792) to the both sides and two recesses (4796) sliding fit of first kickboard (4793), the bottom at first kickboard (4793) is installed in limiting plate (4794) to the bottom of limiting plate (4794) passes rectangular channel (4795) and extends to between two adjacent rotating vane (4751).

6. An ecological retaining wall based on bank slope support according to claim 5, characterized in that: the drainage assembly (5) comprises a supporting seat (51), an inclined pipe (52), a drainage pipe (53), a blocking ball (54) and a water supply part (55), wherein the supporting seat (51) is installed at the top of the ecological frame (2), the inclined pipe (52) is arranged at the top end of the supporting seat (51), the drainage pipe (53) is installed at the lowest position of the bottom end of the inclined pipe (52), the drainage pipe (53) is communicated with the inclined pipe (52), the bottom end of the drainage pipe (53) is located above a transfer box (4792), the blocking ball (54) is arranged inside the inclined pipe (52), the water supply part (55) is installed inside the water tank (3), and one end of the water supply part (55) is communicated with the inclined pipe (52).

7. An ecological retaining wall based on bank slope support according to claim 6, characterized in that: the water supply component (55) comprises a water supply cylinder (56), a second floating plate (57), a water supply pipe (58) and a plurality of water supply grooves (59), the water supply cylinder (56) is vertically arranged inside the water tank (3), the second floating plate (57) is arranged inside the water supply cylinder (56), two ends of the water supply pipe (58) are respectively communicated with the water supply cylinder (56) and the inclined pipe (52), and the plurality of water supply grooves (59) are arranged on the top end of the water supply cylinder (56) at equal intervals.

8. An ecological retaining wall based on bank slope support according to claim 4, characterized in that: feed water subassembly (6) including surge drum (61), feed pipe (62), check valve (63), feed water tank (64) and two hose (65), surge drum (61) is vertical to be set up on the lateral wall of ecological frame (2) to the top of surge drum (61) is located the below of a plurality of rotating vane (4751), feed water tank (64) set up the inside bottom in ecological frame (2), the both ends of feed pipe (62) are linked together with surge drum (61) and feed water tank (64) respectively, check valve (63) are installed on feed pipe (62), two the one end and the feed water tank (64) of hose (65) are linked together, two the other end of hose (65) is linked together with conveyer pipe (76) in two plant show subassemblies (7) respectively.

9. An ecological retaining wall based on bank slope support according to claim 5, characterized in that: the top of the first floating plate (4793) is provided with a pull rope (4797), and one end of the pull rope (4797) extends to the outside of the transfer box (4792).

10. The ecological retaining wall based on bank slope supporting of claim 1, wherein: the top of the retaining wall body (1) is provided with a plurality of tree planting grooves (11) which are arranged at equal intervals.