CN113455233A

CN113455233A - Roofing energy-saving structure is planted to large tracts of land earthing view

Info

Publication number: CN113455233A
Application number: CN202110657471.XA
Authority: CN
Inventors: 王之怡; 李一峰; 孙华东
Original assignee: Weinan Vocational & Technical College
Current assignee: Weinan Vocational & Technical College
Priority date: 2021-06-12
Filing date: 2021-06-12
Publication date: 2021-10-01
Anticipated expiration: 2041-06-12
Also published as: CN113455233B

Abstract

The invention discloses a large-area soil-covered landscape planting roof energy-saving structure, and relates to the technical field of roof planting landscape. This roofing energy-saving structure is planted to large tracts of land earthing view includes the mounting base, the top of mounting base is provided with self-adaptation drainage protection machanism, self-adaptation drainage protection machanism's top is provided with energy-conserving protection machanism, self-adaptation drainage protection machanism includes the support column, the fixed top that sets up at the mounting base of support column. This roofing energy-saving structure is planted to large tracts of land earthing view is through being provided with self-adaptation drainage protection mechanism, and overall design is simple, compact structure to strengthen supporting spacing connecting axle and strengthening supporting reset spring's mutually supporting, be convenient for discharge ponding, absorb ponding and feed back through absorbing the sponge layer simultaneously, be convenient for to planting view overburden body drainage and humidification, avoid the view to drown or withered, the structure application is ingenious, the drainage of being convenient for, convenient to use.

Description

Roofing energy-saving structure is planted to large tracts of land earthing view

Technical Field

The invention relates to the technical field of roof planting landscape, in particular to an energy-saving structure for a large-area soil-covered landscape planted roof.

Background

Referring to a planted roof, one would understand it as synonymous with a roof garden, in fact covering not only a roof garden or garden therein. Other various forms are also included. In a broad sense, a planted roof refers to greening artificially performed on roofs, terraces, balconies and the like of various buildings and structures. Behind this form, there is great technical force to support the development of roof greening.

However, in actual use, in the prior art, good drainage cannot be performed on roof landscape planting, if in a season with sufficient rainwater, a large amount of accumulated water is easily left in the planting landscape, and water flow cannot be discharged, so that the planting landscape is easily drowned, and because of the reason that the planting landscape is on the roof, birds can dig soil in the landscape and destroy flower buds of the landscape to cause landscape damage, if in a stormy weather, the landscape is easily blown off due to strong wind, so that the landscape is necrotic, and if in a too dry and hot weather, workers need to be arranged to water the landscape vegetation to avoid withering of the landscape vegetation, so that inconvenience is brought to the workers.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the invention discloses an energy-saving structure for a large-area soil-covered landscape planting roof, which aims to solve the problems in the background technology.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a roofing energy-saving structure is planted to large tracts of land earthing view, includes:

the self-adaptive drainage protection device comprises a mounting base, wherein the top of the mounting base is provided with a self-adaptive drainage protection mechanism, and the top of the self-adaptive drainage protection mechanism is provided with an energy-saving protection mechanism;

the self-adaptive drainage protection mechanism comprises a support column, the support column is fixedly arranged at the top of the mounting base, reinforced transition support accumulated water storage frames are arranged on two sides of the surface of the support column, reinforced support reset springs are fixedly arranged at the bottoms of the reinforced transition support accumulated water storage frames, reinforced vegetation planting base frames are arranged at the tops of the reinforced transition support accumulated water storage frames, and a drainage assembly is arranged between the reinforced transition support accumulated water storage frames and the reinforced vegetation planting base frames;

the energy-saving protection mechanism comprises a reinforcing column, the reinforcing column is arranged on one side of the surface of a supporting column and is fixedly connected with the mounting base, a first driving meshing rotating gear is arranged at the top of the reinforcing column, a second driving meshing rotating gear is arranged on one side of the first driving meshing rotating gear, a first reinforcing support protection baffle is arranged at the top of the first driving meshing rotating gear, and a second reinforcing support protection baffle is arranged at the top of the second driving meshing rotating gear.

Preferably, two T-shaped clamping grooves are formed in the top surface of the supporting column, T-shaped clamping blocks are arranged in the two T-shaped clamping grooves, the T-shaped clamping grooves are matched with the T-shaped clamping blocks, and the T-shaped clamping grooves are clamped with the supporting column to which the T-shaped clamping blocks belong.

Preferably, strengthen transition support ponding storage frame and seted up spacing installation shaft hole towards one side of T type fixture block, the inner wall in spacing installation shaft hole has been seted up two and has been electroplated arc and cross the aqueduct, the middle part in spacing installation shaft hole is provided with strengthens supporting spacing connecting axle, the fixed surface who strengthens supporting spacing connecting axle is provided with two and strengthens the spacing rib of arc, electroplate the arc and cross the aqueduct and strengthen the spacing rib phase-match of arc, strengthen the one end and the T type fixture block fixed connection of supporting spacing connecting axle

Preferably, the drainage subassembly includes muddy water filter screen board, muddy water filter screen board sets up and supports ponding storage frame and strengthen between the vegetation planting base frame strengthening the transition, the ponding transition chamber has been seted up at the middle part of strengthening transition support ponding storage frame, two electroplating mounting grooves have all been seted up to the inner wall both sides in ponding transition chamber, and is a plurality of all set up in the electroplating mounting groove and be connected with the electroplating installation piece, electroplating installation piece and electroplating mounting groove phase-match, the inner wall sliding connection of one side and the electroplating mounting groove of electroplating installation piece.

Preferably, it is a plurality of electroplate fixedly between the installation piece and be provided with and strengthen installation sponge frame, the middle part of strengthening installation sponge frame is provided with the absorption sponge layer, it is provided with planting view overburden body in the basic frame to strengthen the vegetation.

Preferably, the first driving engagement rotating gear and the second driving engagement rotating gear are fixedly provided with a reinforcing rotating shaft in the middle, the bottom of the reinforcing rotating shaft is arranged at the top of the reinforcing column and movably connected with the reinforcing column, and the second driving engagement rotating gear is engaged with the first driving engagement rotating gear.

Preferably, a second transition ring is fixedly arranged between the second driving meshing rotating gear and the second reinforcing support protective baffle, a first transition ring is fixedly arranged between the first driving meshing rotating gear and the first reinforcing support protective baffle, and a solar photovoltaic panel is fixedly arranged at the tops of the second reinforcing support protective baffle and the first reinforcing support protective baffle.

Preferably, a rotating handle is arranged on one side of the solar photovoltaic panel to which the second reinforced support protective baffle belongs, the bottom of the rotating handle is fixedly arranged at the top of the second reinforced support protective baffle, the bottom of the second reinforced support protective baffle and the bottom of the first reinforced support protective baffle are both provided with a placing groove, and the placing grooves are internally provided with ultraviolet lamp tubes.

Preferably, the reinforced transition support accumulated water storage frame is provided with a transition water guide hole at one side far away from the limiting installation shaft hole, the surface of the transition water guide hole is provided with a reinforced installation conduit, and one end of the reinforced installation conduit is provided with an accumulated water filter frame.

Preferably, the bottom of ponding filter frame is provided with corrugated hose, corrugated hose's bottom is provided with stainless steel ponding storage box, one side of stainless steel ponding storage box is provided with the air pump, the output of air pump is provided with the trachea, tracheal one end is linked together with stainless steel ponding storage box.

The invention discloses a large-area soil-covered landscape planting roof energy-saving structure, which has the following beneficial effects:

1. the large-area earthing landscape planting roof energy-saving structure is provided with the self-adaptive drainage protection mechanism, is simple in overall design and compact in structure, is used as a supporting point of the reinforced transition support ponding storage frame by matching the reinforced support limiting connecting shaft and the reinforced support reset spring, is convenient to rotate along the axial center point of the reinforced support limiting connecting shaft when the reinforced transition support ponding storage frame is stressed, is convenient to discharge ponding, is convenient to absorb and feed the ponding through the absorption sponge layer, is convenient to drain and humidify a planting landscape overburden body, avoids the landscape from being drowned or withered, is ingenious in structural application, is convenient to drain and is convenient to use;

2. the energy-saving structure for the large-area soil-covered landscape planting roof is provided with the limiting installation shaft holes, the electroplating arc-shaped transition grooves, the reinforcing support limiting connecting shafts and the reinforcing arc-shaped limiting ribs, the limiting installation shaft holes, the electroplating arc-shaped transition grooves, the reinforcing support limiting connecting shafts and the reinforcing arc-shaped limiting ribs are matched with each other, so that the supporting and limiting effects can be achieved, the reinforcing transition support ponding storage frame can be conveniently rotated when being supported by the reinforcing transition support ponding storage frame under pressure, the stability of the reinforcing transition support ponding storage frame in rotation is improved, meanwhile, birds are driven in a mode of reinforcing the rotation displacement of the transition support ponding storage frame, the landscape is not easy to be spoiled by the birds, the damage of the birds to the landscape can be effectively avoided, and the use of workers is facilitated;

3. the energy-saving structure for the large-area soil-covered landscape planting roof is simple in overall design and reasonable in structure, the first reinforcing support protective baffle and the second reinforcing support protective baffle are displaced in opposite directions in a mode that the first driving meshing rotary gear and the second driving meshing rotary gear rotate in opposite directions, the landscape can be supplemented with ultraviolet rays, damage to the landscape caused by external material resources or natural phenomena can be effectively avoided, and the landscape can grow conveniently;

4. according to the large-area soil-covered landscape planting roof energy-saving structure, the stainless steel accumulated water storage box, the corrugated hose and the air pump are arranged, accumulated water stored in the stainless steel accumulated water storage box is ejected out through the corrugated hose in a mode that the air pump pressurizes the stainless steel accumulated water storage box, a sponge layer is convenient to absorb, a landscape planting covering soil layer body is fed backwards, the humidity of the landscape planting covering soil layer body is increased, landscape watering is convenient, and the landscape is prevented from withering;

5. this roofing energy-saving structure is planted to large tracts of land earthing view is through being provided with T type draw-in groove, T type fixture block, electroplate the mounting groove and electroplate the installation piece, T type draw-in groove and T type fixture block and electroplate the mounting groove and electroplate the mutually supporting homoenergetic of installation piece and can play direction and spacing effect, the staff installation of being convenient for strengthens supporting spacing connecting axle and strengthening installation sponge frame, the assembly of being convenient for reduces the assembly step, the staff of being convenient for more dismantles the maintenance, convenient to use.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a bottom view of the first reinforcing support guard, the second reinforcing support guard, the first drive engaging rotating gear and the second drive engaging rotating gear of the present invention;

FIG. 3 is an exploded view of a first reinforced support shield, a second reinforced support shield, a first drive engaging rotating gear and a second drive engaging rotating gear of the present invention;

FIG. 4 is a front view of a reinforced transition support ponding storage frame, an absorption sponge layer, a muddy water filter screen plate and a reinforced vegetation planting base frame of the present invention;

FIG. 5 is a cross-sectional view of the interior structure of the reinforced vegetation planting base frame of the present invention;

FIG. 6 is a schematic view of a portion of the structure of FIG. 1A according to the present invention;

FIG. 7 is a schematic view of a portion of the structure of FIG. 4 at B in accordance with the present invention;

FIG. 8 is a schematic view of a portion of the structure of FIG. 5 at C in accordance with the present invention;

FIG. 9 is a front view of a partial structure of the connection shaft for reinforcing support and limiting, and the T-shaped fixture block according to the present invention;

FIG. 10 is a front view of the T-shaped fixture block, the reinforced support limit connecting shaft and the reinforced arc-shaped limit rib of the present invention.

In the figure: 1. mounting a base; 2. a support pillar; 3. a T-shaped clamping groove; 4. a T-shaped fixture block; 5. a reinforced support limit connecting shaft; 6. strengthening the transition support ponding storage frame; 7. limiting and mounting the shaft hole; 8. electroplating an arc transition groove; 9. reinforcing arc limiting ribs; 10. a ponding transition chamber; 11. electroplating the mounting groove; 12. electroplating the mounting block; 13. reinforcing and installing a sponge frame; 14. an absorbent sponge layer; 15. a mud water filter screen plate; 16. reinforcing a vegetation planting base frame; 17. planting landscape covering soil layer bodies; 18. a reinforced support return spring; 19. a transitional water guide hole; 20. reinforcing and installing a conduit; 21. a ponding filter frame; 22. a stainless steel accumulated water storage box; 23. a corrugated hose; 24. an air pump; 25. an air tube; 26. a reinforcement column; 27. a first drive engaging rotating gear; 28. a second drive engaging rotating gear; 29. reinforcing the rotating shaft; 30. a first transition ring; 31. a second transition ring; 32. a first reinforcing support guard; 33. a second reinforcing support guard; 34. a solar photovoltaic panel; 35. rotating the handle; 36. a placement groove; 37. an ultraviolet lamp tube.

Detailed Description

The embodiment of the invention discloses an energy-saving structure of a large-area soil-covered landscape planting roof, which is shown in figures 1-10 and comprises the following components:

the self-adaptive drainage protection device comprises a mounting base 1, wherein a self-adaptive drainage protection mechanism is arranged at the top of the mounting base 1, and an energy-saving protection mechanism is arranged at the top of the self-adaptive drainage protection mechanism;

the self-adaptive drainage protection mechanism comprises a support column 2, the support column 2 is fixedly arranged at the top of the mounting base 1, reinforced transition support accumulated water storage frames 6 are arranged on two sides of the surface of the support column 2, reinforced support reset springs 18 are fixedly arranged at the bottoms of the reinforced transition support accumulated water storage frames 6, reinforced vegetation planting base frames 16 are arranged at the tops of the reinforced transition support accumulated water storage frames 6, and a drainage assembly is arranged between the reinforced transition support accumulated water storage frames 6 and the reinforced vegetation planting base frames 16;

the energy-saving protection mechanism comprises a reinforcing column 26, the reinforcing column 26 is arranged on one side of the surface of the supporting column 2 and is fixedly connected with the mounting base 1, a first driving meshing rotating gear 27 is arranged at the top of the reinforcing column 26, a second driving meshing rotating gear 28 is arranged on one side of the first driving meshing rotating gear 27, a first reinforcing supporting protective baffle 32 is arranged at the top of the first driving meshing rotating gear 27, and a second reinforcing supporting protective baffle 33 is arranged at the top of the second driving meshing rotating gear 28.

Referring to fig. 6, 9, 10 and showing, two T type draw-in grooves 3 have been seted up to the top surface of support column 2, all be provided with T type fixture block 4 in two T type draw-in grooves 3, T type draw-in groove 3 and T type fixture block 4 phase-match, T type draw-in groove 3 and the affiliated support column 2 looks block of T type fixture block 4, T type draw-in groove 3 can play spacing effect, the staff of being convenient for installs T type fixture block 4, stability when can effectually ensure T type fixture block 4 installation simultaneously.

Referring to the attached drawings 6 and 9, one side of the reinforced transition support accumulated water storage frame 6 facing the T-shaped fixture block 4 is provided with a limiting installation shaft hole 7, the inner wall of the limiting installation shaft hole 7 is provided with two electroplating arc-shaped transition grooves 8, the middle part of the limiting installation shaft hole 7 is provided with a reinforced support limiting connecting shaft 5, the surface of the reinforced support limiting connecting shaft 5 is fixedly provided with two reinforcing arc-shaped limiting ribs 9, the electroplating arc-shaped transition grooves 8 are matched with the reinforcing arc-shaped limiting ribs 9, one end of the reinforced support limiting connecting shaft 5 is fixedly connected with the T-shaped fixture block 4, the reinforced support limiting connecting shaft 5 can play a supporting role, the reinforced support accumulated water storage frame 6 is conveniently supported through the mutual matching of the reinforced support limiting connecting shaft 5 and the limiting installation shaft hole 7, the stability of the reinforced transition support accumulated water storage frame 6 during installation is ensured, and the electroplating arc-shaped transition grooves 8 are matched with the reinforcing arc-shaped limiting ribs 9, when being convenient for strengthen transition support ponding storage frame 6 and rotate along the axle center point of strengthening support limit connecting axle 5 through spacing installation shaft hole 7, strengthen the surface of the spacing rib 9 of arc and can cross the inner wall of aqueduct 8 with electroplating arc and contact, support ponding storage frame 6 to strengthen transition and carry on spacingly, convenient to use avoids strengthening the too big planting view overburden body 17 that makes of angle that transition support ponding storage frame 6 rotation slope and drops, and convenient to use is used

Referring to fig. 4, 7 and 8, the drainage assembly comprises a mud-water filter screen plate 15, the mud-water filter screen plate 15 is arranged between a reinforced transition support accumulated water storage frame 6 and a reinforced vegetation planting base frame 16, a accumulated water transition chamber 10 is arranged in the middle of the reinforced transition support accumulated water storage frame 6, two electroplating installation grooves 11 are arranged on two sides of the inner wall of the accumulated water transition chamber 10, electroplating installation blocks 12 are arranged and connected in the electroplating installation grooves 11, the electroplating installation blocks 12 are matched with the electroplating installation grooves 11, one side of the electroplating installation blocks 12 is connected with the inner wall of the electroplating installation grooves 11 in a sliding manner, the electroplating installation grooves 11 and the electroplating installation blocks 12 are matched with each other to play a limiting role, so that a worker can install the structure conveniently, the mud-water filter screen plate 15 can play a filtering role to prevent soil loss and is convenient to use, the accumulated water seeped out by the reinforced planting base frame 16 is convenient to store in the accumulated water vegetation transition chamber 10, avoids the water resource waste, avoids the accumulated water from causing environmental pollution, and is convenient to use

Referring to fig. 4, 7 and 8, a reinforced installation sponge frame 13 is fixedly arranged among a plurality of electroplating installation blocks 12, an absorption sponge layer 14 is arranged in the middle of the reinforced installation sponge frame 13, a planting landscape covering soil layer body 17 is arranged in a reinforced vegetation planting base frame 16, the planting landscape covering soil layer body 17 is convenient for workers to plant landscape plants, the reinforced installation sponge frame 13 can play a role in limiting, the absorption sponge layer 14 is convenient to install and use, the absorption sponge layer 14 is convenient to absorb excessive water in the planting landscape covering soil layer body 17 and store the excessive water in the absorption sponge layer 14, when the excessive water in the absorption sponge layer 14 is absorbed, the water drops in the ponding transition cavity 10 to facilitate drainage, the ponding in the ponding transition cavity 10 is convenient to absorb by the absorption sponge layer 14, the ponding is fed back to the landscape covering soil layer body 17, and the humidity of the planting landscape covering soil layer body 17 is increased, has the function of watering the landscape and is convenient to use.

Referring to fig. 1, 2 and 3, a reinforcing rotating shaft 29 is fixedly arranged in the middle of each of the first driving engagement rotating gear 27 and the second driving engagement rotating gear 28, the bottom of the reinforcing rotating shaft 29 is arranged on the top of the reinforcing column 26 and movably connected with the reinforcing column 26, the second driving engagement rotating gear 28 is engaged with the first driving engagement rotating gear 27, the reinforcing rotating shaft 29 can play a role of supporting, the stability of the first driving engagement rotating gear 27 and the second driving engagement rotating gear 28 during rotation is increased, the second driving engagement rotating gear 28 is engaged with the first driving engagement rotating gear 27, the second driving engagement rotating gear 28 and the first driving engagement rotating gear 27 can rotate oppositely, the use is convenient, and the stability of the first driving engagement rotating gear 27 and the second driving engagement rotating gear 28 during rotation due to torsion can be effectively ensured by the limit of the reinforcing rotating shaft 29, mechanical abrasion is reduced, and the service life of the mechanism is further prolonged.

Referring to fig. 1, 2 and 3, a second transition ring 31 is fixedly arranged between the second driving meshing rotary gear 28 and the second reinforcing support guard plate 33, a first transition ring 30 is fixedly arranged between the first driving meshing rotary gear 27 and the first reinforcing support guard plate 32, solar photovoltaic panels 34 are fixedly arranged at the tops of the second reinforcing support guard plate 33 and the first reinforcing support guard plate 32, the second transition ring 31 and the first transition ring 30 can play a role of transition, and the interference between the second reinforcing support guard plate 33 and the first reinforcing support guard plate 32 and the reinforcing rotating shaft 29 is staggered when the second reinforcing support guard plate 33 and the first reinforcing support guard plate 32 are installed, so that the first reinforcing support guard plate 32 and the second reinforcing support guard plate 33 can be conveniently installed by workers, and are convenient to use, and the solar photovoltaic panels 34 facilitate the conversion of solar energy into electric energy required by the device and are convenient to use, and simultaneously reduces energy waste.

Referring to fig. 1, 2 and 3, a rotating handle 35 is disposed on one side of a solar photovoltaic panel 34 to which the second reinforced supporting and protecting baffle 33 belongs, the bottom of the rotating handle 35 is fixedly disposed on the top of the second reinforced supporting and protecting baffle 33, placing grooves 36 are disposed on the bottoms of the second reinforced supporting and protecting baffle 33 and the first reinforced supporting and protecting baffle 32, ultraviolet lamps 37 are disposed in the two placing grooves 36, the rotating handle 35 is convenient for workers to rotate, when the rotating handle 35 rotates, the second reinforced supporting and protecting baffle 33 rotates, and simultaneously the second driving meshing rotating gear 28 rotates along the reinforced rotating shaft 29 to which the second driving meshing rotating gear 28 belongs, and simultaneously, due to the meshed relationship between the first driving meshing rotating gear 27 and the second driving meshing rotating gear 28, when the second driving meshing rotating gear 28 rotates, the first driving meshing rotating gear 27 is driven to rotate, the second support guard 32 and the first support guard 33 opposite rotation of strengthening of being convenient for, convenient to use, and when the second support guard 32 and the first support guard 33 of strengthening contacted, can produce spacing function, it is spacing to first drive meshing rotating gear 27 and second drive meshing rotating gear 28, facilitate the use.

Referring to the attached

drawings

1, 4, 7, it is shown to strengthen one side that transition support ponding storage frame 6 kept away from spacing installation shaft hole 7 and seted up transition water guide hole 19, the surface of transition water guide hole 19 is provided with strengthens installation pipe 20, the one end of strengthening installation pipe 20 is provided with ponding filter frame 21, transition water guide hole 19 is convenient for support the drainage of the inside unnecessary ponding of ponding storage frame 6 with strengthening the transition, simultaneously again through the filtration of ponding filter frame 21, the ponding water conservancy diversion of being convenient for, avoid strengthening installation pipe 20 and block up, and convenient to use.

Referring to fig. 1, the bottom of the ponding filter frame 21 is provided with a corrugated hose 23, the bottom of the corrugated hose 23 is provided with a stainless steel ponding storage box 22, one side of the stainless steel ponding storage box 22 is provided with an air pump 24, the output end of the air pump 24 is provided with an air pipe 25, one end of the air pipe 25 is communicated with the stainless steel ponding storage box 22, the stainless steel ponding storage box 22 can play a storage role for ponding, waste of water resources is reduced, the internal air pressure of the stainless steel ponding storage box 22 is enhanced by the air pump 24, ponding in the stainless steel ponding storage box 22 is led into the ponding filter frame 21 through the corrugated hose 23, ponding flows into the interior of the strengthening transition support ponding storage box 6 conveniently, the humidity of the planting landscape overburden body 17 is increased, the planting landscape overburden body 17 is prevented from being too dry, and the landscape is prevented from being dry.

When the invention is used, a worker firstly installs the structure manufactured by the invention at a designated position, plants landscape vegetation on the top of the planting landscape covering soil body 17, when the rainstorm weather occurs, the accumulated water in the planting landscape covering soil body 17 is filtered by the muddy water filter screen 15 and absorbed by the absorption sponge layer 14, so that the phenomenon that the accumulated water in the planting landscape covering soil body 17 is too much to cause landscape drowning is avoided, meanwhile, the planting landscape covering soil body 17 is prevented from losing through the filtering of the muddy water filter screen 15, the phenomenon that the soil of the planting landscape covering soil body 17 is too much is avoided, so that roots and stems of the landscape are exposed, when the absorption sponge layer 14 continuously absorbs too much accumulated water, the accumulated water drops in the reinforced transition support accumulated water storage frame 6, and the accumulated water flows into the accumulated water filter frame 21 through the reinforced installation conduit 20 and is filtered by the accumulated water filter frame 21, the sludge impurities in the accumulated water are prevented from flowing into the stainless steel accumulated water storage box 22 and being blocked by the corrugated hose 23 through the accumulated water filtering frame 21 for filtering the accumulated water, and the stainless steel accumulated water storage box 22 is prevented from being stored after the sludge impurities in the accumulated water flow;

when the accumulated water in the reinforced vegetation planting base frame 16 is too much or the top of the reinforced vegetation planting base frame 16 is under pressure, the gravity center of the reinforced vegetation planting base frame 16 changes, the reinforced vegetation planting base frame 16 inclines to the side with too much or heavier accumulated water through the axial center point of the reinforced support limiting connecting shaft 5 along the limiting mounting shaft hole 7, the reinforced support reset spring 18 is compressed to reinforce the inclination angle of the vegetation planting base frame 16, the accumulated water in the reinforced vegetation planting base frame 16 is discharged, the landscaping caused by the accumulated water or birds can be effectively avoided, when the accumulated water is discharged, the reinforced support reset spring 18 can rebound by the elasticity of the reinforced vegetation planting base frame 16 due to the loss of the weight pressure, and when the birds fall in the reinforced vegetation planting base frame 16, the gravity center of the reinforced vegetation planting base frame 16 is changed again, the reinforced vegetation planting base frame 16 is inclined and overturned towards the stress point, and birds fly away due to frightened reasons, so that the damage of the birds to the landscape is avoided;

if the weather is too dry, the air pump 24 is started to continuously pressurize the inside of the stainless steel accumulated water storage box 22, when the air pressure inside the stainless steel accumulated water storage box 22 is too high, accumulated water stored in the stainless steel accumulated water storage box 22 through the rainwater weather is guided into the reinforced transition support accumulated water storage frame 6 through mutual matching of the corrugated hose 23, the accumulated water filter frame 21 and the reinforced installation conduit 20, the absorbed sponge layer 14 absorbs the accumulated water inside the reinforced transition support accumulated water storage frame 6 and feeds the absorbed water back to the planting landscape covering soil layer body 17, the humidity of the planting landscape covering soil layer body 17 is increased, and the situation that the weather is too dry and the landscape is withered is avoided;

if there is a long period of cloudy days, the worker rotates the rotating handle 35 clockwise, when the rotating handle 35 rotates, the second reinforcing support guard 33 rotates along the axial center point of the reinforcing rotating shaft 29 through the second driving engagement rotating gear 28, because of the meshing relationship between the second driving engagement rotating gear 28 and the first driving engagement rotating gear 27, when the second driving engagement rotating gear 28 rotates, the first driving engagement rotating gear 27 rotates along with the second driving engagement rotating gear 28, so that the second reinforcing support guard 33 and the first reinforcing support guard 32 move in opposite directions, the ultraviolet lamp tube 37 rotates to the top of the landscape, and when the second reinforcing support guard 33 contacts with the first reinforcing support guard 32, the second driving engagement rotating gear 28 and the first driving engagement rotating gear 27 are limited, and through the ultraviolet tube that ultraviolet tube 37 shines, carry out the light filling to the view, increase the required illumination of view vegetation, when the second is strengthened supporting guard flap 33 and first enhancement and is supported guard flap 32 and remove to the view top simultaneously, further can play the effect of protection, avoid strengthening the inside view of vegetation planting base frame 16 and receive natural weather and external material resources and damage, avoid the view necrotic.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a roofing energy-saving structure is planted to large tracts of land earthing view which characterized in that: the method comprises the following steps:

the self-adaptive drainage protection device comprises a mounting base (1), wherein a self-adaptive drainage protection mechanism is arranged at the top of the mounting base (1), and an energy-saving protection mechanism is arranged at the top of the self-adaptive drainage protection mechanism;

the self-adaptive drainage protection mechanism comprises a support column (2), the support column (2) is fixedly arranged at the top of the mounting base (1), reinforced transition support accumulated water storage frames (6) are arranged on two sides of the surface of the support column (2), reinforced support reset springs (18) are fixedly arranged at the bottoms of the reinforced transition support accumulated water storage frames (6), reinforced vegetation planting base frames (16) are arranged at the tops of the reinforced transition support accumulated water storage frames (6), and a drainage assembly is arranged between the reinforced transition support accumulated water storage frames (6) and the reinforced vegetation planting base frames (16);

the energy-saving protection mechanism comprises a reinforcing column (26), wherein the reinforcing column (26) is arranged on one side of the surface of a supporting column (2) and is fixedly connected with an installation base (1), a first driving meshing rotating gear (27) is arranged at the top of the reinforcing column (26), a second driving meshing rotating gear (28) is arranged on one side of the first driving meshing rotating gear (27), a first reinforcing support protective baffle (32) is arranged at the top of the first driving meshing rotating gear (27), and a second reinforcing support protective baffle (33) is arranged at the top of the second driving meshing rotating gear (28).

2. The large-area soil-covered landscape planting roof energy-saving structure as claimed in claim 1, characterized in that: two T type draw-in grooves (3) have been seted up on the top surface of support column (2), two all be provided with T type fixture block (4) in T type draw-in groove (3), T type draw-in groove (3) and T type fixture block (4) phase-match, support column (2) looks block that T type draw-in groove (3) and T type fixture block (4) belong to.

3. The large-area soil-covered landscape planting roof energy-saving structure of claim 2, which is characterized in that: strengthen transition support ponding storage frame (6) and seted up spacing installation shaft hole (7) towards one side of T type fixture block (4), the inner wall in spacing installation shaft hole (7) has been seted up two and has been electroplated arc and cross aqueduct (8), the middle part in spacing installation shaft hole (7) is provided with strengthens supporting spacing connecting axle (5), the fixed surface who strengthens supporting spacing connecting axle (5) is provided with two and strengthens arc spacing rib (9), electroplate arc and cross aqueduct (8) and strengthen arc spacing rib (9) phase-match, strengthen the one end and T type fixture block (4) fixed connection who supports spacing connecting axle (5).

4. The large-area soil-covered landscape planting roof energy-saving structure as claimed in claim 1, characterized in that: the drainage subassembly includes muddy water filter screen board (15), muddy water filter screen board (15) set up strengthen transition support ponding storage frame (6) and strengthen between vegetation planting base frame (16), ponding transition chamber (10) have been seted up at the middle part of strengthening transition support ponding storage frame (6), two electroplating mounting groove (11) have all been seted up to the inner wall both sides of ponding transition chamber (10), and are a plurality of all set up in electroplating mounting groove (11) and be connected with electroplating installation piece (12), electroplating installation piece (12) and electroplating mounting groove (11) phase-match, electroplate the inner wall sliding connection of one side and electroplating mounting groove (11) of installation piece (12).

5. The large-area soil-covered landscape planting roof energy-saving structure of claim 4, which is characterized in that: a plurality of it strengthens installation sponge frame (13) to fix being provided with between electroplating installation piece (12), the middle part of strengthening installation sponge frame (13) is provided with absorbs sponge layer (14), it is provided with planting view earthing layer body (17) in advance to strengthen vegetation planting base frame (16).

6. The large-area soil-covered landscape planting roof energy-saving structure as claimed in claim 1, characterized in that: the middle parts of the first driving meshing rotating gear (27) and the second driving meshing rotating gear (28) are fixedly provided with reinforcing rotating shafts (29), the bottoms of the reinforcing rotating shafts (29) are arranged at the tops of the reinforcing columns (26) and movably connected with the reinforcing columns (26), and the second driving meshing rotating gear (28) is meshed with the first driving meshing rotating gear (27).

7. The large-area soil-covered landscape planting roof energy-saving structure as claimed in claim 1, characterized in that: fixed second transition ring (31) that is provided with between second drive meshing rotating gear (28) and second enhancement support guard plate (33), fixed first transition ring (30) that is provided with between first drive meshing rotating gear (27) and first enhancement support guard plate (32), the top of second enhancement support guard plate (33) and first enhancement support guard plate (32) is all fixed solar photovoltaic board (34) that is provided with.

8. The large-area soil-covered landscape planting roof energy-saving structure of claim 7, which is characterized in that: the solar photovoltaic panel (34) one side that second enhancement support protective baffle (33) belong to is provided with rotatory handle (35), the fixed top that sets up at second enhancement support protective baffle (33) in bottom of rotatory handle (35), standing groove (36), two have all been seted up to the bottom of second enhancement support protective baffle (33) and first enhancement support protective baffle (32) all be provided with ultraviolet tube (37) in standing groove (36).

9. The large-area soil-covered landscape planting roof energy-saving structure of claim 2, which is characterized in that: strengthen transition support ponding storage frame (6) and keep away from one side in spacing installation shaft hole (7) and seted up transition water guide hole (19), the surface in transition water guide hole (19) is provided with strengthens installation pipe (20), the one end of strengthening installation pipe (20) is provided with ponding filter frame (21).

10. The large-area soil-covered landscape planting roof energy-saving structure of claim 9, which is characterized in that: the bottom of ponding filter frame (21) is provided with bellows (23), the bottom of bellows (23) is provided with stainless steel ponding storage box (22), one side of stainless steel ponding storage box (22) is provided with air pump (24), the output of air pump (24) is provided with trachea (25), the one end and the stainless steel ponding storage box (22) of trachea (25) are linked together.