CN115885835B - Urban planning artificial ecological green island - Google Patents

Urban planning artificial ecological green island Download PDF

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Publication number
CN115885835B
CN115885835B CN202211308621.7A CN202211308621A CN115885835B CN 115885835 B CN115885835 B CN 115885835B CN 202211308621 A CN202211308621 A CN 202211308621A CN 115885835 B CN115885835 B CN 115885835B
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plate
planting
cavity
ecological green
block
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CN115885835A (en
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公莉娜
张涛
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Zaozhuang Urban And Rural Planning Development Center
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Zaozhuang Urban And Rural Planning Development Center
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Abstract

The invention discloses an artificial ecological green island for urban planning, which comprises an ecological green island body, wherein at least one planting groove is formed in the ecological green island body, a planting plate is arranged in the planting groove, a detection mechanism is arranged at the lower end of one side of the planting plate, the detection mechanism comprises a fixed plate connected with the side wall of the planting groove, the center of the fixed plate is provided with a clamping groove, two sides of the clamping groove are respectively provided with a placement cavity, a squeezing plate and a pressure receiving plate which are arranged in the placement cavities in a sliding manner are respectively arranged in the squeezing plate and the pressure receiving plate, and a plurality of groups of clamping pieces are arranged on the opposite sides of the squeezing plate and the pressure receiving plate; and two sides of each planting groove are provided with a pull-up mechanism. When the plants die, the planting plate can be pulled upwards, so that aquatic plants are separated from water, secondary pollution to the water body caused by plants which begin to die and absorb a large amount of pollutants is avoided, and meanwhile, workers are informed of timely treatment of the dead plants through upward movement of the planting plate.

Description

Urban planning artificial ecological green island
Technical Field
The invention mainly relates to the technical field of ecological green islands, in particular to an artificial ecological green island for urban planning.
Background
With the rising of planning and design concepts such as garden city, ecological city and the like and the influence of concepts such as ecology, environmental protection and the like on life of people in recent years, urban greening construction is widely focused and developed. The artificial ecological green island is a common urban planning project, and is very commonly applied to urban greening construction. In the urban planning process, in order to purify water and improve greening area, artificial ecological green islands are often erected, ornamental value is increased and ecological development is promoted through the artificial ecological green islands.
Aquatic plants can be planted on the artificial ecological green island, and when the artificial ecological green island is used for treating eutrophic water, the biological film on the root system surface of the aquatic plants is utilized to efficiently degrade the COD, nitrogen and phosphorus content in the water, so that the aim of purifying the water quality is fulfilled. However, aquatic plants are life-long and die naturally. After the aquatic plants die, a large amount of various compounds absorbed in the plants originally can be released to cause secondary pollution of the water body, so that not only can a large amount of aquatic animals and plants die, but also instant eutrophication of the water body can be caused. Therefore, after the aquatic plants die naturally, the aquatic plants need to be quickly moved out of the water so as to avoid secondary pollution to the water body.
The aquatic plants grow locally, the same batch and the same kind of aquatic plants are positioned in the same water area, and the natural death time is approximately the same. Therefore, the staff can periodically perform spot check on the aquatic plants on the artificial ecological green island to confirm the status of the aquatic plants on the artificial ecological green island. However, the periodic manual spot check mode has time intervals, if the aquatic plants die in batches within the spot check interval time, the dead aquatic plants bubble in the water body, and the secondary pollution of the water body can be caused.
Disclosure of Invention
Aiming at the technical problem that the prior art is too single, the technical scheme of the invention provides a solution which is obviously different from the prior art, and mainly provides an artificial ecological green island for urban planning, which is used for solving the technical problem that after the aquatic plants in the background art die, the aquatic plants are soaked in water, and secondary pollution is caused to the water body.
The technical scheme adopted for solving the technical problems is as follows:
the utility model provides an artificial ecological green island of urban planning, includes ecological green island body, be equipped with the planting groove of at least one department on the ecological green island body, the planting inslot portion is equipped with the planting board, planting board one side lower extreme is equipped with detection mechanism, detection mechanism is including the fixed plate of being connected with planting groove lateral wall, the fixed plate center is established to the centre gripping groove, the centre gripping groove both sides are equipped with respectively and settle the chamber, two settle the intracavity portion and be equipped with slidable mounting's stripper plate and pressure receiving plate respectively, multiunit clamping piece is installed to stripper plate and pressure receiving plate opposite one side; at least two groups of elastic components are connected between the extrusion plate and the inner wall of the placement cavity, wherein a plurality of limiting blocks positioned between the extrusion plate and the placement cavity are installed in one placement cavity, and a plurality of groups of power components and a single-row component are arranged on one side of the pressure receiving plate away from the extrusion plate; the two sides of each planting groove are provided with a pull-up mechanism positioned on the ecological green island body, the pull-up mechanism comprises a hydraulic cavity and a transfer cavity, a channel is connected between the hydraulic cavity and the transfer cavity, a control valve is arranged on the channel, and the upper end of the transfer cavity is connected with a plurality of lifting cavities; a control cavity is arranged on one side of the control valve, the control valve handle is positioned in the control cavity, a control mechanism is arranged on the control valve handle, a pull rope is connected between the control mechanism and the extrusion plate, and the extrusion plate controls the switch of the control valve through the pull rope and the control mechanism; the inside of the hydraulic cavity is provided with a hydraulic piston in a sliding manner, the lower end of the hydraulic piston is provided with hydraulic oil, the upper end of the hydraulic piston is provided with a balancing weight, each lifting cavity is provided with a lifting piston in a sliding manner, the lifting piston is provided with a Qu Lagan penetrating through the lifting cavity, and the curved pull rod is detachably connected with the planting plate; the control mechanism comprises a special-shaped block, the control valve handle is located inside the special-shaped block, a counterweight ball slides on the inner wall of the special-shaped block, a rack slides on one side of the upper end of the special-shaped block, the counterweight ball is located on the rack, a gear is meshed on one side of the rack, a wheel disc is connected with the axle center of the gear, the diameter of the gear is larger than that of the wheel disc, and the pull rope is connected to the wheel disc.
Preferably, the upper end of the planting plate is provided with a plurality of planting holes, each planting hole is cultivated with water-purifying plants, and each group of clamping pieces is positioned right below the planting hole.
Preferably, each group of clamping pieces is two semicircular rubber arc sleeves, and the two semicircular rubber arc sleeves are respectively arranged on the extrusion plate and the pressure receiving plate.
Preferably, the elastic piece is an extrusion spring, and when the extrusion plate is contacted with the limiting block, the extrusion spring is in an extruded state.
Preferably, each group of power components comprises a hydraulic pipe, a horizontal piston block and a vertical piston block are slidably mounted in the hydraulic pipe, hydraulic oil is filled between the horizontal piston block and the vertical piston block, a pressing block is mounted on the vertical piston block, and a transmission rod is connected between the horizontal piston block and the pressure receiving plate.
Preferably, each group of single-row assemblies comprises a bottom strip embedded on the bottom wall of the placement cavity, a plurality of blocking blocks distributed at equal intervals are mounted on the bottom strip, a limiting block is arranged on the pressure receiving plate, a clamping groove is formed in one side of the limiting block, a limiting strip in contact with the blocking block is rotatably mounted in the clamping groove, and the maximum rotation angle of the limiting strip is 90 degrees.
Preferably, the single file subassembly is equipped with two sets of, and is located the fixed plate both sides respectively, every single file subassembly one side all is equipped with the regulation box, regulation box one side is equipped with the opening, just the inside rectangle spout that is equipped with of opening, it has the regulating block to slide on the rectangle spout, the regulating block is connected with the cover plate, the inside fixture block that is equipped with the cover plate detachable connection, just the fixture block is installed on the regulation box inside wall, be connected with multisection telescopic link between cover plate and the restriction piece, restriction piece slidable mounting is on the pressure receiving plate.
Compared with the prior art, the invention has the beneficial effects that:
the aquatic plants are subjected to death detection judgment by adopting a detection mechanism, when the detected aquatic plants die, the inside plants of the planting groove area are considered to die in batches, the roots of the dead plants begin to wither first, the roots of the dead plants cannot prop up the clamping pieces, the distance between the two rubber arc sleeves can be reduced, only the extrusion plate can move due to the limitation of the single-row assembly, the movement of the extrusion plate drives the pull rope to move, then the control valve is opened by the control mechanism, so that the hydraulic cavity and the transfer cavity are communicated, hydraulic oil enters the transfer cavity and then enters the lifting cavity respectively, so that the lifting piston moves upwards, the curved pull rod drives the planting plate to move upwards, the planting plate is pulled upwards, all the aquatic plants in the planting groove area are separated from water, the aquatic plants can be moved out of the water body in the beginning stage of death of the aquatic plants, and secondary pollution to the water body caused by the aquatic plants dying in batches can be avoided by timely moving out of the aquatic plants;
each group of detection mechanism is provided with at least two groups of clamping pieces, so that the detection mechanism can simultaneously carry out death detection and judgment on a plurality of aquatic plants, and the unexpected death of a certain detected aquatic plant caused by other special factors is avoided, thereby influencing the detection and judgment result of the detection mechanism on the planting groove area, and further improving the practicability of the whole structure;
after a plurality of aquatic plant death leads to planting the board to shift up, on the one hand can avoid the contact of dead plant and water, and then avoid follow-up plant to die in batches to the pollution of water, on the other hand, can judge through this result that the like plant in this region reaches life cycle, the plant board condition of rising can be observed from the distance to the staff, the convenience is in time changed the plant on this planting board, need not the staff and regularly reach near green island through the instrument on water and observe, on the one hand improves staff's work efficiency, on the other hand, avoid appearing too much aquatic plant death in the clearance of staff periodic inspection and cause adverse effect to the water, improve the water purification efficiency and the sight of whole green island, the plant board is after shifting up simultaneously, also be convenient for the staff to plant the plant board again, staff's work load has been greatly reduced.
The invention will be explained in detail below with reference to the drawings and specific embodiments.
Drawings
FIG. 1 is a schematic perspective view of an ecological green island body of the present invention;
FIG. 2 is a schematic diagram of a partial side view of an ecological green island body according to the present invention;
FIG. 3 is an enlarged view of FIG. 2A in accordance with the present invention;
FIG. 4 is a schematic perspective view of a planting plate and a fixing plate according to the present invention;
FIG. 5 is a schematic view of a partial top view of a mounting plate according to the present invention;
FIG. 6 is an enlarged view of FIG. 5B in accordance with the present invention;
FIG. 7 is a schematic side view of a power assembly of the present invention;
FIG. 8 is a schematic side view of a single row assembly of the present invention.
Description of the drawings: 1. an ecological green island body; 101. a planting groove; 102. planting plates; 103. planting holes; 2. a detection mechanism; 201. a fixing plate; 202. a clamping groove; 203. a placement cavity; 204. an extrusion plate; 205. a pressure receiving plate; 206. a rubber arc sleeve; 207. extruding a spring; 208. a limiting block; 21. a power assembly; 211. a hydraulic pipe; 212. a horizontal piston block; 213. a vertical piston block; 214. briquetting; 215. a transmission rod; 22. a single row of components; 221. a bottom strip; 222. a blocking block; 223. a limiting block; 224. a clamping groove; 225. a restriction strip; 226. an adjustment box; 227. a cover plate; 228. a clamping block; 229. a multi-section telescopic rod; 2210. rectangular sliding grooves; 2211. an adjusting block; 3. a pull-up mechanism; 301. a hydraulic chamber; 302. a transfer cavity; 303. a channel; 304. a control valve; 305. a lifting cavity; 306. a hydraulic piston; 307. balancing weight; 308. a lifting piston; 309. qu Lagan; 310. a control chamber; 4. a control mechanism; 401. a special-shaped block; 402. a weight ball; 403. a rack; 404. a gear; 405. a wheel disc; 5. and (5) pulling the rope.
Detailed Description
In order that the invention may be more fully understood, a more particular description of the invention will be rendered by reference to the appended drawings, in which several embodiments of the invention are illustrated, but which may be embodied in different forms and are not limited to the embodiments described herein, which are, on the contrary, provided to provide a more thorough and complete disclosure of the invention.
It will be understood that when an element is referred to as being "mounted" on another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to the other element, it may be directly connected to the other element or intervening elements may also be present, the terms "vertical", "horizontal", "left", "right" and the like are used herein for the purpose of illustration only.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly connected to one of ordinary skill in the art to which this invention belongs, and the knowledge of terms used in the description of this invention herein for the purpose of describing particular embodiments is not intended to limit the invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.
Referring to fig. 1, the present invention provides a technical solution: the utility model provides an artificial ecological green island of urban planning, includes ecological green island body 1, be equipped with the planting groove 101 of at least one department on the ecological green island body 1, the inside planting board 102 that is equipped with of planting groove 101, planting board 102 upper end is equipped with a plurality of planting hole 103, every all cultivate the water purification plant on the planting hole 103, the water purification plant is realized purifying the water.
Referring to fig. 1, 2, 4 and 5, a detection mechanism 2 is disposed at a lower end of one side of the planting plate 102, the detection mechanism 2 includes a fixing plate 201 connected to a side wall of the planting groove 101, a clamping groove 202 is disposed at a center of the fixing plate 201, positioning cavities 203 are disposed at two sides of the clamping groove 202, a pressing plate 204 and a pressure receiving plate 205 are disposed in the two positioning cavities 203, at least two groups of clamping members are disposed at opposite sides of the pressing plate 204 and the pressure receiving plate 205, each group of clamping members is located under the planting hole 103, each group of clamping members is two semicircular rubber arc sleeves 206, and the two rubber arc sleeves 206 are respectively disposed on the pressing plate 204 and the pressure receiving plate 205, and the rubber arc sleeves 206 are used as clamping members, so that aquatic plants can be better clamped due to certain elasticity of the rubber arc sleeves 206. The aquatic plants on the same planting plate 102 are grown in the same environment, so that the natural death time of the aquatic plants is approximately the same, and the clamping pieces are provided with at least two groups, so that multiple groups of aquatic plants can be detected and judged at the same time, and the phenomenon that a certain detected aquatic plant accidentally dies due to special factors and influences the detection and judgment result of the detection mechanism 2 is avoided.
Referring to fig. 4 and 5, a plurality of groups of elastic members are connected between the pressing plate 204 and the inner wall of the positioning cavity 203, the elastic members are pressing springs 207, when the pressing plate 204 contacts with the limiting block 208, the pressing springs 207 are in a pressed state, so that the pressing plate 204 still contacts with the limiting block 208 after the clamping member clamps the root of the aquatic plant, wherein a plurality of limiting blocks 208 located between the pressing plate 204 and the positioning cavity 203 are installed in the positioning cavity 203, a plurality of groups of power assemblies 21 and a single row assembly 22 are arranged on one side of the pressure receiving plate 205, which is far away from the pressing plate 204, the elastic members provide thrust to the pressing plate 204, the power assemblies 21 provide thrust to the pressure receiving plate 205, and under the action of the two pushing forces, the clamping member can clamp the root of the aquatic plant rapidly, and meanwhile, the thrust provided by the power assemblies 21 is required to be greater than the thrust provided by the elastic members, so that the pressing plate 204 still contacts with the limiting block 208 after the clamping member clamps the root of the aquatic plant, the pressing plate 204 can not move towards one side far away from the pressure receiving plate 205, and the single row assembly 22 can only move towards one side far away from the pressure receiving plate 205.
Referring to fig. 4-7, each group of the power assemblies 21 includes a hydraulic pipe 211, a horizontal piston block 212 and a vertical piston block 213 are slidably mounted in the hydraulic pipe 211, hydraulic oil is filled between the horizontal piston block 212 and the vertical piston block 213, a pressing block 214 is mounted on the vertical piston block 213, and a transmission rod 215 is connected between the horizontal piston block 212 and the pressure receiving plate 205. The power assembly 21 provides thrust to the pressure receiving plate 205, and adopts a hydraulic manner so that the pressure received by the pressure receiving plate 205 is constant.
Referring to fig. 4, 5 and 8, each of the single row units 22 includes a bottom bar 221 embedded in a bottom wall of the placement cavity 203, a plurality of blocking blocks 222 are installed on the bottom bar 221, a limiting block 223 is disposed on the pressure receiving plate 205, a slot 224 is formed on one side of the limiting block 223, a limiting bar 225 contacting with the blocking block 222 is rotatably installed in the slot 224, and a maximum rotation angle of the limiting bar 225 is 90 °. When the pressure receiving plate 205 moves toward the side away from the compression plate 204, the restriction bars 225 and the blocking blocks 222 are in contact, and the restriction bars 225 rotate, so that when the pressure receiving plate 205 moves toward the side of the compression plate 204, the restriction bars 225 and the blocking blocks 222 are in contact, and the restriction bars 225 cannot rotate, so that the pressure receiving plate 205 cannot move toward the side of the compression plate 204, and the single row assembly 22 realizes unidirectional movement of the pressure receiving plate 205.
Referring to fig. 4, 5 and 8, the single row assembly 22 is provided with two groups, and is respectively located at two sides of the fixing plate 201 and located at two sides of the fixing plate 201, so that a worker can conveniently adjust the single row assembly, one side of each group of single row assembly 22 is provided with an adjusting box 226, one side of each adjusting box 226 is provided with an opening, a rectangular sliding groove 2210 is formed in each opening, an adjusting block 2211 is slidingly arranged on each rectangular sliding groove 2210, each adjusting block 2211 is connected with a cover plate 227, a clamping block 228 detachably connected with the cover plate 227 is arranged in each cover plate 227, the clamping blocks 228 are mounted on the inner side wall of each adjusting box 226, a plurality of telescopic rods 229 are connected between each cover plate 227 and each limiting block 223, and each limiting block 223 is slidingly mounted on the corresponding pressure receiving plate 205. When the detection mechanism 2 is reused, the pressure receiving plate 205 needs to be reset and adjusted, at this time, the cover plate 227 is pulled by the adjusting block 2211, the multi-section telescopic rod 229 stretches, the cover plate 227 is not clamped with the clamping block 228 any more, then the cover plate 227 is moved, the limiting bar 225 moves along with the movement, the limiting bar 225 is not contacted with the blocking block 222 any more, at this time, the pressure receiving plate 205 can move reversely to reset, and after resetting, the cover plate 227 is reset and fixed.
Referring to fig. 1-3, each of two sides of the planting groove 101 is provided with a pull-up mechanism 3 located on the ecological green island body 1, the pull-up mechanism 3 includes a hydraulic cavity 301 and a transfer cavity 302, a channel 303 is connected between the hydraulic cavity 301 and the transfer cavity 302, a control valve 304 is installed on the channel 303, the upper end of the transfer cavity 302 is connected with a plurality of lifting cavities 305, a hydraulic piston 306 slides in the hydraulic cavity 301, hydraulic oil is provided at the lower end of the hydraulic piston 306, lifting pistons 308 slide in the lifting cavities 305, a balancing weight 307 is installed at the upper end of the hydraulic piston 306, qu Lagan penetrating through the lifting cavities 305 is installed on the lifting pistons 308, the Qu Lagan is detachably connected with the planting plates 102, and the Qu Lagan is detachably connected with the planting plates 102, so that the position adjustment in practical use is facilitated. The control valve 304 is opened to enable the hydraulic cavity 301 to be communicated with the transfer cavity 302, hydraulic oil enters the transfer cavity 302 and then enters the lifting cavity 305 respectively, so that the lifting piston 308 moves upwards, the curved pull rod 309 drives the planting plate 102 to move upwards, the planting plate 102 is pulled upwards, aquatic plants are separated from water, and secondary pollution of the aquatic plants to the water body is prevented.
Referring to fig. 1-3, a control cavity 310 is disposed on one side of the control valve 304, a control mechanism 4 is disposed on the control valve 304 handle and located inside the control cavity 310, a pull rope 5 is connected between the control mechanism 4 and the extrusion plate 204, the extrusion plate 204 controls the opening and closing of the control valve 304 through the pull rope 5 and the control mechanism 4, the control mechanism 4 comprises a special-shaped block 401, the control valve 304 handle is located inside the special-shaped block 401, a counterweight ball 402 slides on the inner wall of the special-shaped block 401, a rack 403 slides on one side of the upper end of the special-shaped block 401, the counterweight ball 402 is located on the rack 403, a gear 404 is meshed on one side of the rack 403, a wheel disc 405 is connected to the axle center of the gear 404, the diameter of the gear 404 is larger than that of the wheel disc 405, and the pull rope 5 is connected to the wheel disc 405. When the plant dies, the root of the plant begins to wilt, the extrusion plate 204 moves under the pushing of the extrusion spring 207, the extrusion plate 204 drives the pull rope 5 to move, the wheel disc 405 rotates, the gear 404 rotates along with the wheel disc 405, the rack 403 is driven to move, after the rack 403 moves, the weight ball 402 is not supported, the weight ball 402 moves downwards under the action of gravity, and the handle of the control valve 304 is impacted, so that the control valve 304 is opened.
The specific operation flow of the invention is as follows:
the staff first plants the aquatic plant in the planting hole 103, then put the planting plate 102 into the corresponding planting groove 101, and make the planting plate 102 be located at the upper end of the fixed plate 201, two rubber arc sleeves 206 clamp the root of the aquatic plant, then connect Qu Lagan 309 with the planting plate 102, at this time, the root of the plant is located between the two rubber arc sleeves 206, the extrusion plate 204 contacts with the limiting block 208, as the aquatic plant grows, the root of the aquatic plant grows up, so that the clamping piece is spread, so that the distance between the two rubber arc sleeves 206 is increased, and because of the limiting block 208, the extrusion plate 204 cannot move to the side far from the pressure receiving plate 205, so that only the pressure receiving plate 205 moves along with the growth of the aquatic plant, when the plant dies, the root of the plant firstly begins to wither, at this time, the root of the aquatic plant cannot spread the clamping piece, the distance between the two rubber arc sleeves 206 becomes smaller, and due to the limitation of the single-row assembly 22, the pressure receiving plate 205 cannot move towards one side of the extrusion plate 204, so that only the extrusion plate 204 moves, the movement of the extrusion plate 204 drives the pull rope 5 to move, the wheel disc 405 rotates, the gear 404 rotates along with the wheel disc 405, the rack 403 is driven to move, after the rack 403 moves, the counterweight ball 402 is not supported, the counterweight ball 402 moves downwards under the action of gravity, the control valve 304 is impacted to the handle of the control valve 304, the control valve 304 is opened, the hydraulic cavity 301 is communicated with the transit cavity 302, hydraulic oil enters the transit cavity 302 and then enters the lifting cavity 305 respectively, the lifting piston 308 moves upwards, the curved pull rod 309 drives the planting plate 102 to move upwards, the planting plate 102 is pulled upwards, aquatic plants are separated from water, preventing the aquatic plants from causing secondary pollution to the water body.
While the invention has been described above with reference to the accompanying drawings, it will be apparent that the invention is not limited to the embodiments described above, but is intended to be within the scope of the invention, as long as such insubstantial modifications are made by the method concepts and technical solutions of the invention, or the concepts and technical solutions of the invention are applied directly to other occasions without any modifications.

Claims (7)

1. The utility model provides an artificial ecological green island of urban planning, includes ecological green island body (1), its characterized in that: the ecological green island is characterized in that at least one planting groove (101) is formed in the ecological green island body (1), a planting plate (102) is arranged in the planting groove (101), a detection mechanism (2) is arranged at the lower end of one side of the planting plate (102), the detection mechanism (2) comprises a fixed plate (201) connected with the side wall of the planting groove (101), the center of the fixed plate (201) is provided with a clamping groove (202), two sides of the clamping groove (202) are respectively provided with a placement cavity (203), a squeezing plate (204) and a pressure receiving plate (205) which are in sliding installation are respectively arranged in the two placement cavities (203), and at least two groups of clamping pieces are arranged on the opposite sides of the squeezing plate (204) and the pressure receiving plate (205);
a plurality of groups of elastic components are connected between the extrusion plate (204) and the inner wall of the placement cavity (203), wherein a plurality of limiting blocks (208) positioned between the extrusion plate (204) and the placement cavity (203) are installed in one placement cavity (203), and a plurality of groups of power components (21) and single-row components (22) are arranged on one side, away from the extrusion plate (204), of the pressure receiving plate (205);
the two sides of each planting groove (101) are provided with a pull-up mechanism (3) positioned on the ecological green island body (1), the pull-up mechanism (3) comprises a hydraulic cavity (301) and a transfer cavity (302), a channel (303) is connected between the hydraulic cavity (301) and the transfer cavity (302), a control valve (304) is arranged on the channel (303), and the upper end of the transfer cavity (302) is connected with a plurality of lifting cavities (305);
a control cavity (310) is formed in one side of the control valve (304), a control valve (304) handle is positioned in the control cavity (310), a control mechanism (4) is arranged on the control valve (304) handle, a pull rope (5) is connected between the control mechanism (4) and the extrusion plate (204), and the extrusion plate (204) controls the switch of the control valve (304) through the pull rope (5) and the control mechanism (4);
the inside of the hydraulic cavity (301) is provided with a hydraulic piston (306) in a sliding mode, the lower end of the hydraulic piston (306) is provided with hydraulic oil, the upper end of the hydraulic piston (306) is provided with a balancing weight (307), each lifting cavity (305) is provided with a lifting piston (308) in a sliding mode, the lifting pistons (308) are provided with Qu Lagan (309) penetrating through the lifting cavities (305), and the Qu Lagan (309) and the planting plates (102) are detachably connected;
control mechanism (4) are including dysmorphism piece (401), control valve (304) handle is located dysmorphism piece (401) inside, it has counterweight ball (402) to slide on dysmorphism piece (401) inner wall, it has rack (403) to slide on one side of dysmorphism piece (401) upper end, counterweight ball (402) are located rack (403), rack (403) one side meshing has gear (404), gear (404) axle center links to each other has rim plate (405), gear (404) diameter is greater than rim plate (405) diameter, stay cord (5) are connected on rim plate (405).
2. An urban planning artificial ecological green island according to claim 1, characterized in that: the planting plate (102) upper end is equipped with a plurality of planting hole (103), every plant hole (103) is gone up and is all cultivated the water purification plant, every group the holder all is located planting hole (103) below.
3. An urban planning artificial ecological green island according to claim 1, characterized in that: each group of clamping pieces are two semicircular rubber arc sleeves (206), and the two rubber arc sleeves (206) are respectively arranged on the extrusion plate (204) and the pressure receiving plate (205).
4. An urban planning artificial ecological green island according to claim 1, characterized in that: the elastic piece is a pressing spring (207), and when the pressing plate (204) and the limiting block (208) are in contact, the pressing spring (207) is in a pressed state.
5. An urban planning artificial ecological green island according to claim 1, characterized in that: each group of power assembly (21) comprises a hydraulic pipe (211), a horizontal piston block (212) and a vertical piston block (213) are slidably mounted in the hydraulic pipe (211), hydraulic oil is filled between the horizontal piston block (212) and the vertical piston block (213), a pressing block (214) is mounted on the vertical piston block (213), and a transmission rod (215) is connected between the horizontal piston block (212) and the pressure receiving plate (205).
6. An urban planning artificial ecological green island according to claim 1, characterized in that: each group of single-row assemblies (22) comprises a bottom strip (221) embedded on the bottom wall of the placement cavity (203), a plurality of blocking blocks (222) distributed at equal intervals are installed on the bottom strip (221), limiting blocks (223) are arranged on the pressure receiving plate (205), clamping grooves (224) are formed in one sides of the limiting blocks (223), limiting strips (225) in contact with the blocking blocks (222) are installed in the clamping grooves (224) in a rotating mode, and the maximum rotating angle of the limiting strips (225) is 90 degrees.
7. The urban planning artificial ecological green island according to claim 6, wherein: the utility model discloses a solar cell module, including fixed plate (226), single file subassembly (22), adjusting box (226), rectangular slide groove (2210), including fixed plate (201) and limiting block (223), single file subassembly (22) are equipped with two sets of, and are located fixed plate (201) both sides respectively, every single file subassembly (22) one side all is equipped with adjusting box (226), adjusting box (226) one side is equipped with the opening, just the inside rectangle spout (2210) that is equipped with of opening, it has regulating block (2211) to slide on rectangle spout (2210), regulating block (2211) is connected with cover plate (227), cover plate (227) inside be equipped with fixture block (228) with cover plate (227) detachable connection, just fixture block (228) are installed on adjusting box (226) inside wall, be connected with multisection telescopic link (229) between cover plate (227) and the limiting block (223), limiting block (223) slidable mounting is on pressure receiving plate (205).
CN202211308621.7A 2022-10-25 2022-10-25 Urban planning artificial ecological green island Active CN115885835B (en)

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