CN113615428A - Green energy-saving ecological building structure and construction method thereof - Google Patents

Abstract

The application relates to a green energy-saving ecological building structure and a construction method thereof, which comprises a wall body and at least one planting pot, wherein a base is arranged on the wall body, a rotating assembly is arranged on the base, the rotating assembly comprises a rotating piece and a driving piece, the rotating piece corresponds to the planting pot and is used for driving the rotating piece to rotate, the rotating piece is rotatably arranged on the base, and the planting pot is arranged on the rotating piece. This application has the phenomenon that improves plant on the wall body and incline towards a direction and grow, improves the effect of wall body ornamental performance.

Description

Green energy-saving ecological building structure and construction method thereof

Technical Field

The application relates to the field of green buildings, in particular to a green energy-saving ecological building structure and a construction method thereof.

Background

The green ecological building is a building capable of achieving energy conservation and emission reduction, saves resources, protects the environment, reduces pollution, provides healthy, applicable and efficient use space for people in the whole life cycle, and realizes harmonious symbiosis between people and nature to the maximum extent; with the development of the building industry, green ecological buildings gradually enter the visual field of people and become the mainstream trend of the development of the current building industry.

The related art discloses a green building wall body, including the wall body of vertical setting, is provided with on a wall of wall body and plants the groove, plants the inslot and has planted green planting to reach cooling, pleasing to the eye effect.

In view of the above-described related art, the inventors consider that the following drawbacks exist: because the plants have phototaxis, the plants on the wall are easy to grow obliquely in one direction, and the ornamental performance of the wall is poor.

Disclosure of Invention

In order to improve the phenomenon that plants grow obliquely towards one direction on a wall body and improve the ornamental performance of the wall body, the application provides a green energy-saving ecological building structure and a construction method thereof.

The application provides a green energy-saving ecological building structure and a construction method thereof, which adopt the following technical scheme:

the utility model provides a green energy-conserving ecological building structure, includes wall body and at least one planting basin, be provided with the base on the wall body, be provided with the runner assembly on the base, the runner assembly includes and corresponds the rotation piece that sets up and be used for the drive to rotate a pivoted driving piece with planting the basin, it rotates and installs on the base to rotate the piece, it sets up on rotating the piece to plant the basin.

Through adopting above-mentioned technical scheme, rotate the piece through the driving piece drive and rotate, drive and plant the basin and rotate to make and plant the basin and can evenly accept illumination, reduce the plant towards the probability of a direction slope growth, improve wall body plant's ornamental performance.

Optionally, the rotating member is configured as a driven sprocket, the driving member is configured as a chain, and the chain is engaged with the driven sprocket.

Through adopting above-mentioned technical scheme, chain drive can drive the sprocket and rotate to drive and plant the basin rotation, simple structure, simple to operate.

Optionally, plant the basin and be provided with two at least, driven sprocket and the setting of planting the basin one-to-one, the chain meshes with two at least driven sprocket simultaneously.

Through adopting above-mentioned technical scheme, through setting up a plurality of planting basins to increase the greening area on the wall body, can drive a plurality of driven sprocket rotations simultaneously through the chain, thereby drive a plurality of planting basins and rotate simultaneously, easy and simple to handle.

Optionally, a mounting disc is mounted on the base, and the driven sprocket is rotatably mounted on the mounting disc.

Through adopting above-mentioned technical scheme, through setting up the mounting disc, at first rotate driven sprocket and install on the mounting disc, then install the mounting disc on the base, it is more convenient to install.

Optionally, the chain wheel is provided with a limiting groove, and the planting pot is provided with a limiting block matched with the limiting groove.

Through adopting above-mentioned technical scheme, the stopper on planting the basin inlays and establishes the spacing inslot at the sprocket, and the sprocket rotation can drive and plant the basin synchronous rotation to reduce the possibility that the phenomenon of skidding appears between planting basin and the sprocket.

Optionally, be provided with the irrigation subassembly on the base, the irrigation subassembly includes trunk line and the small transfer line that communicates each other, be provided with on the small transfer line with plant the corresponding irrigation pipe of basin, the irrigation pipe is pegged graft in planting the basin.

Through adopting above-mentioned technical scheme, rivers pass through the trunk line and get into the small transfer line, then get into through the irrigation pipe and plant in the basin to provide moisture for the plant.

Optionally, the irrigation pipe includes fixed part and rotation portion, rotation portion rotates and sets up on the fixed part, rotation portion pegs graft in planting the basin.

Through adopting above-mentioned technical scheme, plant the basin and can drive the rotation portion rotation of irrigation pipe when following the sprocket rotation to reduce irrigation pipe and the possibility that the soil in planting the basin takes place to rub.

Optionally, one side that is close to planting the basin on the base is provided with protective assembly, protective assembly includes protection frame, main guard plate and side guard plate, the one side that the basin was planted in the base setting is installed to the protection frame, main guard plate and side guard plate all set up on the protection frame.

Through adopting above-mentioned technical scheme, the protection frame erects on the base, and main guard plate and side guard plate enclose to be established in the protection frame outside, can play sheltering from and the guard action to planting basin and rotating assembly, improves the ornamental performance of wall body simultaneously.

Optionally, the main protection plate corresponds the setting with planting the basin, the one side that the main protection plate is close to the base with plant the basin butt.

Through adopting above-mentioned technical scheme, main guard plate and planting basin butt can play limiting displacement to planting the basin, reduce the possibility that the planting basin emptys.

A construction method of a green energy-saving ecological building structure comprises the following steps:

firstly, mounting a base on a wall;

and secondly, mounting a plurality of mounting discs provided with driven chain wheels on the base, and winding the chain on the driven chain wheels so that the chain is meshed with the driven chain wheels.

Through adopting above-mentioned technical scheme, at first with pedestal mounting on the wall body, install driven sprocket on the mounting disc, install the mounting disc on the base again, can be afterwards around establishing on driven sprocket with the chain, it is comparatively convenient to operate.

Drawings

Fig. 1 is a schematic view of the overall structure of a green energy-saving ecological building structure in example 1 of the present application.

Fig. 2 is a schematic view of the connection between the rotating assembly and the irrigation assembly in example 1 of the present application.

Fig. 3 is an exploded view of the planting pot and the mounting plate in embodiment 1 of the present application.

Fig. 4 is a schematic structural view of a protective frame in embodiment 1 of the present application (to show a power member).

Reference numerals: 1. a wall body; 11. planting surface; 2. planting pots; 21. water permeable holes; 22. a connecting seat; 23. a limiting block; 3. a base; 4. a rotating assembly; 41. a driven sprocket; 411. a circular through hole; 412. a limiting groove; 42. a chain; 421. a serpentine; 422. a straight portion; 43. a connecting ring; 44. a drive sprocket; 45. a guide sprocket; 5. mounting a disc; 51. connecting grooves; 6. an irrigation assembly; 61. a main pipeline; 62. branch pipelines; 63. an irrigation pipe; 631. a fixed part; 632. a rotating part; 633. a rotary joint; 64. a control valve; 7. a guard assembly; 71. a protective frame; 711. a strut; 712. a cross bar; 713. a longitudinal bar; 714. a rectangular frame opening; 72. a main protection plate; 721. a hole of abdication; 73. a side guard plate; 8. and a power part.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Example 1

A green energy-saving ecological building structure. Referring to fig. 1, a green energy-conserving ecological building structure includes wall body 1, and wall body 1 is the cuboid form and vertically fixes subaerial, and a wall of wall body 1 is planting face 11, is provided with base 3 on the planting face 11, installs a plurality of planting basins 2 through runner assembly 4 on the base 3, and runner assembly 4 can drive and plant basin 2 and rotate to make the plant of planting in the basin 2 evenly receive illumination, reduce the plant on the wall body 1 towards the probability of a direction slope growth.

Referring to fig. 1, a base 3 is rectangular plate-shaped, the base 3 is arranged perpendicular to the ground, one surface of the rectangular plate of the base 3 is attached to a planting surface 11, the surface of the base 3 attached to the planting surface 11 is equal to the planting surface 11 in shape and size, and the base 3 is fixedly installed on the planting surface 11 through expansion bolts; the planting pot 2 is in a round table shape, soil is filled in the planting pot and plants are planted in the planting pot, protective cloth is laid at the opening of the planting pot 2, and in the embodiment, the protective cloth is geotextile so as to reduce soil loss at the opening of the planting pot 2 (soil, plants and protective cloth are not shown in the figure); planting basin 2 is provided with a plurality ofly, uses twenty as an example in this embodiment, and twenty are planted basin 2 and are four rows five rows of distributions, and set up in the one side that base 3 kept away from planting surface 11.

Referring to fig. 2 and 3, the rotating assembly 4 includes a rotating member and a driving member, the rotating member is configured as a driven sprocket 41 in the present embodiment, and the driving member is configured as a chain 42; referring to fig. 1, in order to facilitate installation of the driven sprocket 41, a mounting plate 5 is arranged on the base 3 corresponding to the driven sprocket 41 (hereinafter, the base 3 may refer to fig. 1), the mounting plate 5 is in a flat cylindrical shape, an axis of the mounting plate 5 is perpendicular to the planting surface 11, one end surface of the mounting plate 5 is attached to one surface of the base 3 far away from the planting surface 11, and the mounting plate 5 is installed on the base 3 through a plurality of bolts; driven sprocket 41 sets up the one side of keeping away from base 3 at mounting disc 5, and with the coaxial setting of mounting disc 5, driven sprocket 41 is close to integrative being provided with go-between 43 on the terminal surface of mounting disc 5, go-between 43 is the ring form, go-between 43 is along being "L" shape along the cross-section of self axis, mounting disc 5 is close to driven sprocket 41's side and has seted up the spread groove 51 with go-between 43 matched with, go-between 43 rotates and supports in spread groove 51, driven sprocket 41 rotates through go-between 43 promptly and installs on mounting disc 5.

Referring to fig. 1 and 2, the driven sprockets 41 are also distributed in four rows and five columns on the surface of the base 3 far away from the planting surface 11, and the driven sprockets 41 are arranged in one-to-one correspondence with the planting pots 2. Referring to fig. 3, the driven sprocket 41 is provided with a circular through hole 411 along its own axial direction, the planting pot 2 and the driven sprocket 41 are coaxially arranged, and the bottom of the planting pot 2 is arranged close to the driven sprocket 41; the bottom of the planting pot 2 is integrally provided with a connecting seat 22, the connecting seat 22 is disc-shaped, and the connecting seat 22 coaxially penetrates through a circular through hole 411 of the driven sprocket 41 to limit the planting pot 2; four limiting blocks 23 are integrally arranged on the connecting seat 22, the limiting blocks 23 are rectangular, the four limiting blocks 23 are uniformly arranged on the outer circumferential surface of the connecting seat 22 at intervals along the circumferential direction of the connecting seat 22, four limiting grooves 412 matched with the limiting blocks 23 are formed in the driven sprocket 41, the limiting grooves 412 are communicated with the circular through hole 411, and the four limiting blocks 23 are respectively embedded in the four limiting grooves 412, so that the planting pot 2 rotates along with the driven sprocket 41.

Referring to fig. 1 and 2, the driven sprocket 41 is defined as a first row, a second row, a third row, a fourth row and a fifth row in turn from left to right with reference to the left and right direction of the user when standing facing the planting pot 2, and a transmission sprocket 44 is provided between the second row and the third row and between the fourth row and the fifth row in order to facilitate the installation of the chain 42; referring to fig. 1, a driving sprocket 44 is rotatably supported on the base 3, and the axis of the driving sprocket 44 is lower than the axis of the lowermost driven sprocket 41 to facilitate the installation of the chain 42.

Referring to fig. 2, the chain 42 is divided into a serpentine 421 and a straight 422, the serpentine 421 and the straight 422 form a complete and closed loop; the serpentine 421 extends vertically upward from the side of the driven sprocket 41 at the lowermost end of the first row away from the driven sprocket 41 of the second row, and meshes with the driven sprocket 41 of the first row; then, the driven sprocket 41 at the uppermost end of the first row extends upwards to the driven sprocket 41 at the uppermost end of the second row, and the driven sprocket 41 at the second row extends downwards from the side, away from the driven sprocket 41 of the first row, and is meshed with the driven sprocket 41 of the second row; the serpentine portion 421 of the chain 42 then extends upwardly around the drive sprocket 44 between the second and third rows and engages the third row of driven sprockets 41 on the side thereof adjacent the second row of driven sprockets 41; in the same manner, the serpentine portion 421 of the chain 42 is wound up from the side of the fifth row of driven sprockets 41 close to the fourth row of driven sprockets 41, and then vertically extends downward from the side of the fifth row of driven sprockets 41 away from the fourth row of driven sprockets 41, thereby meshing the chain 42 with the plurality of driven sprockets 41.

Referring to fig. 1 and 2, in order to connect the straight portion 422 and the serpentine portion 421 to each other, two guide sprockets 45 are rotatably mounted on the base 3, the two guide sprockets 45 are respectively located below the first row of driven sprockets 41 and the fifth row of driven sprockets 41, the straight portion 422 of the chain 42 is disposed below the two guide sprockets 45, and two ends of the straight portion 422 respectively extend upward from a side, away from each other, of the two guide sprockets 45 and are respectively connected to two ends of the serpentine portion 421; the serpentine portion 421 of the chain 42 intermeshes with all of the driven sprockets 41, thereby enabling the chain 42 to rotate a plurality of the driven sprockets 41 simultaneously.

Referring to fig. 2, for convenient to irrigate the plant, be provided with irrigation assembly 6 on base 3, irrigation assembly 6 includes trunk line 61 and four spinal branch pipes 62, spinal branch pipes 62 level sets up, four spinal branch pipes 62 correspond the setting with four rows of driven sprocket 41 respectively, the vertical setting of trunk line 61, trunk line 61 is located the one side that base 3 is close to first row driven sprocket 41, trunk line 61 and four spinal branch pipes 62 intercommunication set up, trunk line 61 upper end is bent and is 90 degrees and extends to base 3 outward, so that connect the water source, control valve 64 is installed to the position that trunk line 61 upper end is located base 3 is outer, the solenoid valve is chooseed for use to control valve 64 in this embodiment, can control the break-make of trunk line 61 through control valve 64.

Referring to fig. 2 and 3, five irrigation pipes 63 are communicated with one branch pipe 62, and the five irrigation pipes 63 are respectively arranged corresponding to five planting pots 2 arranged in the same row; the irrigation pipe 63 includes a fixed portion 631 and a rotating portion 632, the fixed portion 631 being provided integrally with the branch pipe 62, and a rotating joint 633 being provided between the fixed portion 631 and the rotating portion 632 so that the rotating portion 632 can rotate relative to the fixed portion 631; combine figure 1, rotary joint 633 inlays to be established in mounting disc 5, plants 2 bottoms of basin and has seted up the hole 21 of permeating water, and the hole 21 of permeating water is the circular port, and rotation portion 632 is pegged graft in planting basin 2 through the hole 21 of permeating water, so the rivers can get into through irrigation pipe 63 and plant in basin 2, permeate into the soil of planting in the basin 2 to provide moisture for the plant.

Referring to fig. 1 and 4, a protection component 7 is arranged on one side of the base 3, which is far away from the planting surface 11, so as to protect the planting pot 2 and the rotating component 4 and improve the ornamental performance of the wall body 1. The protection assembly 7 comprises a protection frame 71, a main protection plate 72 and a side protection plate 73, the protection frame 71 comprises a support rod 711, a cross rod 712 and a longitudinal rod 713, and the support rod 711, the cross rod 712 and the longitudinal rod 713 are all made of square pipes; the cross rods 712 are arranged in parallel with the ground and the planting surface 11, and five cross rods 712 are uniformly arranged at intervals along the vertical direction; the longitudinal rods 713 are perpendicular to the cross rods 712, two end faces of the longitudinal rods 713 are respectively welded to the side faces, close to each other, of the two adjacent cross rods 712, the longitudinal rods 713 are evenly arranged in the length direction of the cross rods 712 at intervals, rectangular frame openings 714 are formed between the two adjacent longitudinal rods 713 and the two adjacent cross rods 712, a plurality of rectangular frame openings 714 are formed between the cross rods 712 and the vertical rods, and the rectangular frame openings 714 are arranged in one-to-one correspondence with the planting pots 2.

Referring to fig. 1 and 4, the supporting rods 711 are arranged perpendicular to the planting surface 11, one supporting rod 711 is arranged at each joint of the transverse rod 712 and the longitudinal rod 713, one surface of the supporting rod 711, which is far away from the base 3, is welded on the transverse rod 712, and one surface of the supporting rod 711, which is close to the base 3, is fixed on the base 3 through bolts, so that the transverse rod 712 and the longitudinal rod 713 are stably supported on the base 3.

Referring to fig. 1 and 3, the main protection plate 72 is arranged corresponding to the rectangular frame opening 714, the main protection plate 72 is rectangular plate-shaped, the shape and the size of the main protection plate correspond to those of the rectangular frame opening 714, the main protection plate 72 is mounted on two cross bars 712 and two vertical bars forming the rectangular frame opening 714 through screws, the rectangular frame opening 714 can be completely shielded by the main protection plate 72, the side surfaces of every two adjacent main protection plates 72 are attached to each other, and the cross bars 712 and the vertical bars 713 can be completely shielded by the plurality of main protection plates 72; the face that main protection plate 72 is close to planting face 11 is kept away from the terminal surface looks butt of planting face 11 with planting basin 2 to play the effect of blockking to planting basin 2, reduce the possibility that the one end that planting basin 2 kept away from planting face 11 emptys downwards. The main protection plate 72 is provided with a yielding hole 721, the yielding hole 721 is a circular through hole 411, the diameter of the yielding hole 721 is smaller than that of the planting pot 2, and plants can extend outwards from the yielding hole 721 to achieve the effect of greening the wall 1.

Referring to fig. 1 and 2, the side protection plates 73 are fixed on the protection frame 71 through bolts, the number of the side protection plates 73 is four, and the four side protection plates 73 are respectively arranged on four sides of the protection frame 71, so that the four sides of the protection frame 71 are shielded, the rotating assembly 4 is protected, and the ornamental performance of the wall body 1 is improved.

Referring to fig. 1 and 4, in order to facilitate the rotation of the driving chain 42, a power member 8 is disposed on the protection frame 71, in this embodiment, the power member 8 is a motor, the motor is mounted on the supporting rod 711 through a rectangular plate, an output shaft of the motor is coaxially and fixedly disposed on the guide sprocket 45 near the first row of driven sprockets 41, and the starting motor can drive the guide sprocket 45 near the first row of driven sprockets 41 to rotate, so as to drive the plurality of driven sprockets 41 to rotate through the chain 42.

The implementation principle of the green energy-saving ecological building structure in the embodiment of the application is as follows: starting the power member 8, the power member 8 driving the guide chain wheel 45 close to the first row of driven chain wheels 41 to rotate, and the chain 42 driving the plurality of driven chain wheels 41 to rotate simultaneously, thereby driving the plurality of planting pots 2 to rotate simultaneously; the user needs to regularly rotate the planting pot 2 so that the plants in the planting pot 2 can uniformly receive illumination, and therefore the plants can grow uniformly and have high ornamental value.

Example 2

A construction method of a green energy-saving ecological building structure comprises the following steps:

firstly, embedding and installing a main pipeline 61 and a branch pipeline 62 in a base 3, extending a fixing part 631 of an irrigation pipe 63 out of the base 3, bending the upper end of the main pipeline 61 by 90 degrees in a direction away from the branch pipeline 62 and extending out of the base 3, and installing a control valve 64 on the part of the main pipeline 61 outside the base 3;

secondly, aligning the base 3 with the wall body 1, and stably installing the base 3 on the wall body 1 through a plurality of expansion bolts; one end of the main pipeline 61 provided with the control valve 64 is communicated with a water source;

thirdly, the driven sprocket 41 is rotatably connected to the mounting disc 5 through the connecting ring 43, the rotating part 632 is mounted on the rotary joint 633, the rotary joint 633 is mounted on the mounting disc 5, the mounting disc 5 is mounted on the base 3 through bolts, and the mounting discs 5 are distributed in four rows and five columns; then, two driving chain wheels 44 and two guiding chain wheels 45 are rotatably arranged at corresponding positions on the base 3, and the chain 42 is sequentially wound on the driven chain wheel 41, the driving chain wheels 44 and the guiding chain wheels 45;

fourthly, firstly welding the protection frame 71, then installing the protection frame 71 on the base 3 through bolts, welding a rectangular plate on the protection frame 71 near the guide chain wheel 45 arranged close to the first row of driven chain wheels 41, then installing the power piece 8 on the rectangular plate through bolts, and enabling the output shaft of the power piece 8 to be coaxially and fixedly arranged on the guide chain wheel 45 in a penetrating manner;

fifthly, the limiting block 23 of the planting pot 2 is matched with the limiting groove 412, the base 3 on the planting pot 2 is inserted into the circular through hole 411 of the driven chain wheel 41, and meanwhile, the irrigation pipe 63 is also inserted into the planting pot 2 through the water permeable hole 21, so that the planting pot 2 is installed on the driven chain wheel 41;

sixthly, firstly, respectively installing a plurality of main protection plates 72 on the protection frame 71 through screws so as to block the planting pot 2; and then four side shields 73 are mounted to the four sides of the shield frame 71 by screws, respectively.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a green ecological building structure of energy-conserving, includes wall body (1) and at least one planting basin (2), its characterized in that: be provided with base (3) on wall body (1), be provided with runner assembly (4) on base (3), runner assembly (4) include with plant basin (2) correspond the rotation piece that sets up and be used for the drive to rotate a pivoted driving piece, it rotates and installs on base (3) to rotate a piece, it sets up on rotating a piece to plant basin (2).

2. The green energy-saving ecological building structure according to claim 1, characterized in that: the rotating piece is arranged as a driven chain wheel (41), the driving piece is arranged as a chain (42), and the chain (42) is meshed with the driven chain wheel (41).

3. The green energy-saving ecological building structure according to claim 2, characterized in that: plant basin (2) and be provided with two at least, driven sprocket (41) and plant basin (2) one-to-one setting, chain (42) mesh with two at least driven sprocket (41) simultaneously.

4. A green energy-saving ecological building structure according to claim 3, characterized in that: install mounting disc (5) on base (3), driven sprocket (41) rotate and install on mounting disc (5).

5. The green energy-saving ecological building structure according to claim 2, characterized in that: the driven chain wheel (41) is provided with a limiting groove (412), and the planting pot (2) is provided with a limiting block (23) matched with the limiting groove (412).

6. The green energy-saving ecological building structure according to claim 1, characterized in that: be provided with on base (3) and irrigate subassembly (6), irrigate subassembly (6) including trunk line (61) and the lateral conduit (62) of mutual intercommunication, be provided with on lateral conduit (62) and plant corresponding irrigation pipe (63) of basin (2), irrigation pipe (63) are pegged graft in planting basin (2).

7. The green energy-saving ecological building structure according to claim 6, characterized in that: irrigation pipe (63) include fixed part (631) and rotation portion (632), rotation portion (632) rotate and set up on fixed part (631), rotation portion (632) are pegged graft in planting basin (2).

8. The green energy-saving ecological building structure according to claim 1, characterized in that: one side that is close to planting basin (2) on base (3) is provided with protection component (7), protection component (7) are including protection frame (71), main guard plate (72) and side guard plate (73), one side that base (3) set up planting basin (2) is installed in protection frame (71), main guard plate (72) and side guard plate (73) all set up on protection frame (71).

9. The green energy-saving ecological building structure according to claim 8, characterized in that: the main protection plate (72) corresponds the setting with planting basin (2), main protection plate (72) are close to the one side of base (3) and plant basin (2) butt.

10. A construction method of green energy-saving ecological building structure as claimed in claim 4, characterized by comprising the following steps:

firstly, a base (3) is arranged on a wall body (1);

and a second step of mounting a plurality of mounting plates (5) provided with driven sprockets (41) on the base (3), and winding a chain (42) around the plurality of driven sprockets (41) so that the chain (42) engages with the plurality of driven sprockets (41).

Images