CN114753572A

CN114753572A - Green building structure and construction method thereof

Info

Publication number: CN114753572A
Application number: CN202210243581.6A
Authority: CN
Inventors: 赵素琴; 刘英杰; 谢刚毅
Original assignee: Ningbo Huanhu Construction Co ltd
Current assignee: Ningbo Huanhu Construction Co ltd
Priority date: 2022-03-12
Filing date: 2022-03-12
Publication date: 2022-07-15

Abstract

The utility model relates to a green building structure and construction method thereof, belong to the building field, it includes the house body, house body inside is equipped with the purifying box that is used for placing green planting, be equipped with the irrigation subassembly on house body's the side wall, the irrigation subassembly includes driving piece and spraying piece, the driving piece sets up in the outside of side wall, spraying piece sets up the inboard at the side wall, this application has utilized the rainwater of rainy day collection effectively to irrigate green planting in the purifying box in the in-process that uses, be difficult for producing extra energy consumption when adjusting indoor environment.

Description

Green building structure and construction method thereof

Technical Field

The application relates to the field of buildings, in particular to a green building structure.

Background

The green building is a building capable of saving energy and reducing emission, can save resources, protect the environment and reduce pollution in the whole life cycle, provides healthy, practical and efficient use space for people, and the container type green building is also frequently used nowadays for saving cost.

In daily life, the environment in the container formula building is easily influenced by external environment, and people use air purifier to improve indoor environment this moment usually to obtain a comfortable living environment.

In view of the above-mentioned related technologies, the inventors found that when an indoor environment is improved, people usually directly use an air purifier to improve the indoor environment, and the air purifier is easy to generate a large amount of extra energy consumption after being used for a long time, and has a defect of excessive use of resources.

Disclosure of Invention

In order to reduce the energy consumption that improves indoor environment needs, this application provides a green building structure.

The application provides a green building structure adopts following technical scheme:

a green building structure comprises a house body, wherein a purification box for placing green plants is arranged in the house body, an irrigation assembly is arranged on a side wall of the house body and comprises a driving part and a spraying part, the driving part is arranged on the outer side of the side wall, and the spraying part is arranged on the inner side of the side wall;

the spray part comprises a sleeve, a compression leg and a pressing plate, a mounting plate is arranged on the inner side of the side wall, the mounting plate is arranged at the bottom of the purification box, the sleeve is arranged on one side, close to the first water tank, of the mounting plate, the compression leg is connected into the sleeve in a sliding manner, one side, close to the purification box, of the side wall is connected with a roller in a rotating manner, a first pull rope is arranged on the roller in a winding manner, one end of the first pull rope is connected with a driving part, the other end of the first pull rope is connected with the compression leg, a first water tank is arranged in the purification box, the pressing plate is connected into the first water tank in a sliding manner along the vertical direction, a push rod is arranged below the pressing plate, the push rod extends downwards to form the first water tank, the compression leg is arranged under the push rod, and one end, far away from the pressing plate, of the first water tank is communicated with an atomization spray nozzle.

Through adopting the above technical scheme, during the rainy day, the rainwater falls to in the driving piece and provides power for the driving piece, the driving piece moves down and drives first stay cord and moves down, first stay cord drives the gyro wheel and rotates, make first stay cord on the compression leg drive the compression leg and move towards the push rod, the compression leg drives the direction that the push rod orientation is close to atomizer and moves, the push rod drives the clamp plate again and moves towards atomizer, exert pressure for first water tank, make things convenient for the clamp plate to follow atomizer blowout with the water in the first water tank, in order to accomplish the irrigation of planting green, make green planting obtain sufficient moisture, so that green plant the follow-up internal environment that improves house body.

Preferably, the top of house body is equipped with the header tank, header tank bottom intercommunication has first outlet pipe, first outlet pipe extends to in the house body and is linked together with first water tank, first outlet pipe articulates with the intercommunication department of first water tank has the first baffle that is used for blockking first outlet pipe, one side that the compression leg was kept away from to first baffle and clamp plate is inconsistent, one side that the compression leg was kept away from to the clamp plate is equipped with the pull ring, the pull ring is connected through the second stay cord with first baffle.

Through adopting above-mentioned technical scheme, during rainy day, the rainwater is collected at the top of water catch tank house body again, and the rainwater of collecting gets into in the first water tank from first outlet pipe again, provides the basis for the first water tank waters green planting. In the process that the pressing plate moves towards the direction far away from the first water tank, when the pressing plate is in contact with the first baffle, the pressing plate drives the first baffle to rotate towards the direction close to the first water outlet pipe, the first baffle seals the first water outlet pipe, so that water in the water collecting tank is not easy to leave from a gap between the pressing column and the first water tank, meanwhile, the pressure in the first water tank is increased, and the pressing plate is convenient to spray the water in the first water tank from the atomizing spray head; after the green watering of planting is accomplished, the clamp plate moves towards the direction of keeping away from house body top, the clamp plate drives the pull ring and moves towards the direction of keeping away from house body, pull ring pulling second stay cord this moment, the second stay cord makes first baffle move towards the direction of keeping away from first outlet pipe, make first outlet pipe and first water tank be linked together, make the rainwater that the header tank will collect carry to first water tank in, so that first water tank waters green planting once more, make green plant sustainable for the inside air-purifying of house body.

Preferably, the driving piece includes collecting box, control panel, sliding plate and gyro wheel, collecting box sliding connection has seted up the sliding tray along vertical direction in the side wall on the one side that the purifying box was kept away from to the side wall, sliding plate sliding connection has seted up the groove of stepping down in the sliding tray, the groove of stepping down has seted up the groove of stepping down on the one side that the purifying box was kept away from to the side wall, the groove of stepping down communicates with the sliding tray, control panel sliding connection is in the groove of stepping down and is connected with the sliding plate, the collecting box sets up in the control panel top, the gyro wheel rotates to be connected in the side wall near the purifying box one side, first stay cord is around establishing on the gyro wheel, the one end that the compression leg was kept away from to the stay cord is connected with the sliding plate near one side of purifying box.

Through adopting above-mentioned technical scheme, during the rainy day, the rainwater drops in the collection box, the weight of collecting box increases and removes towards the bottom of house body, when collecting box and control panel contact, the collecting box drives the bottom removal of control panel towards the house body, the control panel drives the sliding plate and removes towards the bottom of house body, the control panel drives first stay cord and removes towards the bottom of house body, first stay cord drives the gyro wheel and rotates, the gyro wheel makes the first stay cord that is close to the compression leg drive the compression leg and removes towards the direction of house body, make the compression leg provide power for the atomizer, current resource has been utilized effectively, make things convenient for green indoor air of planting simultaneously, the required energy consumption of indoor air of clean-up has been reduced, and resources are saved.

Preferably, the side wall is provided with a bearing groove, the bearing groove is arranged below the collecting box, and a bearing part is arranged in the bearing groove;

the bearing part includes a plurality of heel posts, and is a plurality of equal sliding connection of heel post is in the bearing groove, adjacent two the heel post is connected, is close to be equipped with first spring between heel post and the bearing groove of the tank bottom of bearing groove.

Through adopting above-mentioned technical scheme, when the rainwater was collected to the collecting box, the whole weight of collecting box increased gradually, and the collecting box moved down to the heel post on this moment gradually, and when the whole weight of collecting box was greater than the quality of heel post, the heel post was split, and the collecting box moved down with the control panel contact and drive the control panel this moment, provides great kinetic energy for the control panel, irrigates the facility for follow-up spraying to green planting. In the process of moving the collecting box downwards, the first spring is in a compressed state, so that the rest bearing column is tightly propped against the outer wall of the collecting box; after the rainwater in the collecting box disappears, the collecting box moves upwards, and after the blocking of the collecting box on the residual bearing column disappears, the residual bearing column partially extends out of the bearing groove under the action of the first spring so as to be continuously used.

Preferably, a limiting groove is formed in the side wall in the vertical direction, a limiting plate is connected to the limiting groove in a sliding mode, the limiting groove is communicated with the abdicating groove, the limiting plate extends into the abdicating groove and is connected with the control panel, the limiting groove is communicated with the bearing groove, a limiting hole is formed in the limiting plate, a first guide surface is formed in the bearing column, and a second guide surface matched with the first guide surface is formed in the inner wall of the limiting hole.

Through adopting above-mentioned technical scheme, when the whole weight of collecting box is greater than the bearing capacity of heel post, the heel post fracture, make the collecting box continue to move down, remaining heel post is inconsistent with the outer wall of collecting box this moment, the collecting box moves down with the control panel after the control panel touching, the control panel moves down and drives the limiting plate and moves down, the in-process that the limiting plate moved down, the second spigot surface in spacing hole contacts with the first spigot surface on the heel post, the limiting plate drives remaining heel post orientation again and moves near the direction of the tank bottom of bearing groove, make remaining heel post and limiting plate counterbalance tightly, the possibility that the heel post stretches out and influence the collecting box and reset when the notch separation of collecting box and bearing groove has been reduced.

Preferably, the second outlet pipe has been seted up to the collecting box bottom, second outlet pipe department is equipped with the bearing ring, one side that the bearing ring was kept away from to the second outlet pipe articulates there is the second baffle, the second baffle is inconsistent with the bearing ring, be equipped with the adapter box under the collecting box, one side intercommunication that the adapter box is close to the collecting box has first inlet tube, first inlet tube and the inner wall looks adaptation of bearing ring, the inside constant temperature component that is equipped with of house body, the collecting box is connected through the second inlet tube with constant temperature component.

Through adopting above-mentioned technical scheme, when the second baffle of first inlet tube and second outlet pipe contacted, first inlet tube obtained the direction rotation that the collecting box was kept away from to the second baffle orientation for in rainwater in the collecting box got into the switching box from first inlet tube, get into the switching box with during rainwater rethread second inlet tube gets into constant temperature component, make things convenient for constant temperature component to use the rainwater of collecting to adjust indoor temperature.

Preferably, the constant temperature subassembly includes thermostated container and thermostated pipe, the thermostated container sets up inside the house body, the second inlet tube is linked together with the thermostated container, the thermostated pipe sets up in the thermostated container top and is linked together with the thermostated container, the last filter tube that can dismantle of thermostated pipe is connected with, the one end intercommunication that the thermostated pipe was kept away from to the filter tube has the atomizer, house body top is equipped with solar cell panel, be equipped with the battery in the house body, solar cell panel is connected with the battery, the battery is connected with the atomizer.

Through adopting above-mentioned technical scheme, when fine day, solar panel absorbs and converts the electric energy after the sunlight after and charges to the battery, and during the rainy day, the rainwater gets into the thermostat from the second inlet tube, and the battery provides power for the atomizer for the rainwater in the thermostat filters the back at the filter tube and spouts from the atomizer, conveniently adjusts this internal temperature in house on the one hand, and on the other hand has reduced the influence of impurity in the rainwater to house body internal environment.

Preferably, a diffusion assembly is arranged inside the house body and is opposite to the output end of the atomizer.

By adopting the technical scheme, when the temperature of the atomizer in the house body is adjusted, the diffusion component is started, and the coverage range of water mist sprayed by the atomizer is enlarged, so that the adjustment of the indoor environment is accelerated, and a better living environment is provided.

Preferably, a drain hole is formed in the bottom of the inner wall of the sliding groove, one end, far away from the sliding groove, of the drain hole extends to the outer wall of the side wall, an air inlet hole is formed in the top of the inner wall of the sliding groove, and one end, far away from the sliding groove, of the air inlet hole extends to the inner wall of the side wall.

By adopting the technical scheme, air enters the sliding groove through the drain hole and the air inlet hole, so that the sliding plate can conveniently move up and down in a reciprocating manner. In rainy days, part of rainwater enters the sliding groove and can flow out of the drainage holes, so that the possibility of rainwater accumulation in the sliding groove is reduced.

The application also discloses a construction method of the green building, which comprises the following steps:

s1, fixing the purification box on the top of the house body, fixing the water collection box on the top of the house body, and communicating the water collection box with a first water tank in the purification box by using a first water outlet pipe;

s2, connecting the driving part with the side wall, placing the spraying part below the first water tank, and connecting the spraying part with the driving part;

s3, placing the constant temperature component inside the house body, placing the adapter box under the driving piece, and communicating the adapter box with the constant temperature component by using a second water outlet pipe;

and S4, fixing the diffusion component in the house body.

By adopting the technical scheme, in rainy days, the water collecting tank collects rainwater and conveys the rainwater into the first water tank through the first water inlet pipe, the driving part collects the rainwater and provides power for the spraying part, and the spraying part waters the rainwater onto green plants to provide moisture for the green plants, so that the environment in the house body can be conveniently improved by the subsequent green plants; the rainwater of the collection in the driving piece falls into the transfer box again and provides power to control assembly, and control assembly provides power for the constant temperature subassembly again, and the constant temperature subassembly adjusts indoor temperature again, for this internal comparatively comfortable living environment that provides in house, has utilized the resource effectively when improving the inside living environment in house, has reduced the waste of resource.

In summary, the present application includes at least one of the following beneficial technical effects:

by arranging the driving part and the spraying part, in rainy days, the driving part collects rainwater and provides power for the spraying part, and the spraying part waters green plants in the purifying box, so that the green plants can be conveniently improved, the living environment in the house body can be improved, and the existing resources can be effectively utilized while the indoor living environment is improved;

through setting up the constant temperature subassembly, utilize the rainwater of collecting to adjust indoor temperature, provide a better living environment.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram for showing the positional relationship among the collection box, the transfer box and the thermostatic assembly in the embodiment of the application;

FIG. 3 is a schematic structural diagram for showing a positional relationship between a purification box and a spraying member according to an embodiment of the present application;

FIG. 4 is an enlarged view of the portion A of FIG. 3;

FIG. 5 is an enlarged schematic view of the portion B of FIG. 2;

FIG. 6 is a schematic structural view for embodying the positional relationship of the slide plate and the second spring;

FIG. 7 is an enlarged schematic view of the portion C of FIG. 6;

FIG. 8 is a schematic structural diagram of a thermostat assembly embodying embodiments of the present application;

FIG. 9 is an enlarged schematic view of the portion D in FIG. 8;

FIG. 10 is a schematic structural diagram illustrating the positional relationship between the diffuser and the atomizer according to an embodiment of the present application;

FIG. 11 is an enlarged view of the section E in FIG. 10;

fig. 12 is an enlarged schematic view of a portion F in fig. 10.

Description of the reference numerals: 1. a house body; 11. a purification box; 12. a first water tank; 13. a water collection tank; 131. a first water outlet pipe; 132. a first baffle plate; 133. a pull ring; 134. a second pull cord; 14. an atomizing spray head; 15. a recovery wheel; 151. recovering the rope; 152. a coil spring; 16. a water collection tank; 161. a water supply pipe; 2. an irrigation assembly; 3. a spraying member; 31. a sleeve; 32. pressing the column; 33. pressing a plate; 34. a push rod; 4. a drive member; 41. a collection box; 411. a dovetail-shaped chute; 412. a dovetail shaped slider; 413. a second water outlet pipe; 414. a second baffle; 415. a bearing ring; 42. a control panel; 43. a sliding plate; 5. a side wall; 51. mounting a plate; 52. a roller; 53. a first pull cord; 54. a load bearing groove; 55. a sliding groove; 551. a drain hole; 552. an air inlet; 56. a yielding groove; 57. a limiting groove; 571. a limiting plate; 572. a limiting hole; 573. a first guide surface; 574. a second guide surface; 58. a second spring; 581. a bellows; 6. a bearing member; 61. a load-bearing column; 62. a first spring; 7. a transfer box; 71. a first water inlet pipe; 72. a second water inlet pipe; 8. a constant temperature component; 81. a thermostat; 82. a thermostatic tube; 821. a first mounting groove; 822. a second mounting groove; 823. a second mounting block; 824. fixing the spring; 825. disassembling the groove; 826. disassembling the rod; 83. a filter tube; 831. a first mounting block; 832. mounting holes; 84. an atomizer; 85. a solar panel; 9. a diffusion component; 91. a diffusion fan; 92. a control member; 921. a drive gear; 922. a drive rack; 923. a drive slot; 93. a transmission member; 931. a drive shaft; 932. a first gear; 933. a second gear; 934. an inner ratchet wheel; 935. rotating the sleeve; 936. rotating the disc; 937. a claw; 938. a spring plate; 939. and (4) a transmission belt.

Detailed Description

The present application is described in further detail below with reference to figures 1-12.

The embodiment of the application discloses green building structure. Referring to fig. 1 and 2, a green building structure, including house body 1, house body 1 is inside to be fixed with the purifying box 11 that is used for placing green planting, is equipped with on the side wall 5 of house body 1 and irrigates subassembly 2, irrigates subassembly 2 including spraying 3 and driving piece 4, sprays 3 and sets up in the inside of house body 1, and driving piece 4 sets up on the side wall 5 of house body 1 and is connected with spraying 3. During the rainy day, the rainwater falls to in driving piece 4 and for driving piece 4 provides power, and driving piece 4 drives again and sprays 3 works, sprays 3 and provides the water source for green planting, improves the environment in the house body 1 for green planting and facilitates, and the resource has been practiced thrift to difficult production extra energy consumption simultaneously.

Referring to fig. 2 and 3, a first water tank 12 is fixed at the bottom of the purification tank 11, a water collection tank 13 with an open top is fixed at the top of the house body 1, a first water outlet pipe 131 is communicated with the bottom of the water collection tank 13, and the first water outlet pipe 131 extends into the house body 1 and is communicated with the first water tank 12.

In rainy days, the water collecting tank 13 collects the falling rainwater, and the rainwater flows into the first water tank 12 through the first water outlet pipe 131, so that a water source is provided for the subsequent use of the spraying piece 3, resources are effectively utilized, and convenience is provided for improving the internal environment of the house body 1 for the subsequent green plants.

Referring to fig. 3, the spraying member 3 includes a sleeve 31, a pressing post 32 and a pressing plate 33, a mounting plate 51 is fixed on one side of the side wall 5 close to the purifying box 11, the mounting plate 51 is arranged below the purifying box 11, and the sleeve 31 is fixed on one side of the mounting plate 51 close to the purifying box 11; the pressure column 32 is connected in the sleeve 31 in a sliding manner, the pressure plate 33 is connected in the sleeve 31 in a sliding manner, a push rod 34 is fixed on one side of the pressure plate 33 close to the mounting plate 51, and the push rod 34 extends out of the first water outlet pipe 131 and is positioned right above the pressure column 32; the inner wall of the side wall 5 is rotatably connected with a roller 52, a first pull rope 53 is wound on the roller 52, one end of the first pull rope 53 is connected with the driving part 4, and the other end of the first pull rope 53 is connected with the compression column 32; one end of the first water tank 12 far away from the pressure plate 33 is communicated with the atomizing nozzle 14.

During rainy day, the rainwater falls to driving piece 4 and provides power for driving piece 4, driving piece 4 moves down and drives first stay cord 53 to move down, first stay cord 53 drives gyro wheel 52 and rotates, make first stay cord 53 on compression leg 32 drive compression leg 32 and move towards push rod 34, compression leg 32 drives push rod 34 and moves towards the direction that is close to atomizer 14, push rod 34 drives clamp plate 33 again and moves towards atomizer 14, exert pressure for first water tank 12, make things convenient for the water of clamp plate 33 in with first water tank 12 to spout from atomizer 14, in order to accomplish the irrigation of planting green, make green plant and obtain sufficient moisture, so that green plant the follow-up internal environment that improves house body 1.

Referring to fig. 3 and 4, a first baffle 132 for sealing the first water outlet pipe 131 is hinged to a communication part of the first water outlet pipe 131 and the first water tank 12, the first baffle 132 is abutted to one side of the pressing plate 33 away from the pressing post 32, a pull ring 133 is fixed to one side of the pressing plate 33 away from the pressing post 32, a second pull rope 134 is arranged between the pull ring 133 and the first baffle 132, one end of the second pull rope 134 is fixed to the pull ring 133, and the other end of the second pull rope 134 is fixed to the first baffle 132.

In rainy days, the water collecting tank 13 collects rainwater at the top of the house body 1, and the collected rainwater enters the first water tank 12 from the first water outlet pipe 131 to provide a foundation for the first water tank 12 to water green plants. In the process of irrigating green plants, the pressing plate 33 moves towards the direction far away from the first water tank 12, when the pressing plate 33 contacts with the first baffle plate 132, the pressing plate 33 drives the first baffle plate 132 to rotate towards the direction close to the first water outlet pipe 131, so that the first baffle plate 132 seals the first water outlet pipe 131, water in the first water outlet pipe 131 is not easy to leave from a gap between the pressing column 32 and the first water tank 12, and the pressing plate 33 is convenient to pressurize the first water tank 12; after the first water tank 12 finishes the irrigation of green plants, the pressing plate 33 moves towards the direction far away from the top of the house body 1, the pressing plate 33 drives the pull ring 133 to move towards the direction far away from the house body 1, at the moment, the pull ring 133 pulls the second pull rope 134, the second pull rope 134 drives the first baffle 132 to move towards the direction far away from the first water outlet pipe 131, so that the first water outlet pipe 131 is communicated with the first water tank 12, the collected rainwater is conveyed into the first water tank 12 again by the water collecting tank 13, so that the first water tank 12 irrigates the green plants again, and the green plants can continuously improve the living environment in the house body 1.

Referring to fig. 1 and 3, the driving member 4 includes a collecting box 41, a control plate 42 and a sliding plate 43, a dovetail-shaped sliding groove 411 is formed in one side of the side wall 5 away from the purifying box 11 along the vertical direction, a dovetail-shaped sliding block 412 is arranged on the collecting box 41, the collecting box 41 is slidably connected in the dovetail-shaped sliding groove 411, and the dovetail-shaped sliding block 412 is matched with the dovetail-shaped sliding groove 411, so that the collecting box 41 is not easily separated from the side wall 5;

the top of the collecting box 41 is open, the side wall 5 is provided with the water collecting tank 16 along the circumferential direction, one side of the water collecting tank 16 close to the collecting box 41 is fixedly provided with the water feeding pipe 161 communicated with the water collecting tank 16, one end of the water feeding pipe 161 far away from the water collecting tank 16 is positioned right above the opening of the collecting box 41, and in rainy days, rainwater falling on the top of the house body 1 flows into the water collecting tank 16 and then falls into the collecting box 41 from the water feeding pipe 161 through the water collecting tank 16, so that the collection of the rainwater by the collecting box 41 is accelerated.

Referring to fig. 1, a recovery wheel 15 is fixed to the top of the house body 1, a recovery rope 151 is wound around the recovery wheel 15, one end of the recovery rope 151 is fixed to the recovery wheel 15, the other end of the recovery rope 151 is fixed to the top of the collection box 41, and a coil spring 152 is fixed to the recovery wheel 15. A sliding groove 55 is formed in the side wall 5, the sliding plate 43 is arranged in the sliding groove 55 and reciprocates in the vertical direction, a yielding groove 56 is formed in one side of the side wall 5, which is far away from the purification box 11, and the control plate 42 is fixed on one side of the sliding plate 43, which is far away from the purification box 11, and can reciprocate up and down in the yielding groove 56.

In rainy days, rainwater directly falls into the collection box 41 or falls on the top of the house body 1 and then flows into the collection box 41, and the rainwater increases the overall gravity of the collection box 41, so that the collection box 41 overcomes the self gravity and the elasticity of the coil spring 152 and then moves downwards; when the collection box 41 contacts the control panel 42, the collection box 41 drives the control panel 42 to move downwards, the control panel 42 drives the sliding plate 43 to move downwards, the control panel 42 drives the first pull rope 53 to move towards the bottom of the house body 1 and drive the roller 52 to rotate, the first pull rope 53 provides power for the spraying piece 3 at the moment, the spraying piece 3 waters green plants in the purification box 11, the existing resources are effectively utilized, meanwhile, the green plants are convenient to follow up to purify air indoors, the energy consumption required by improving the indoor environment is reduced, and the resources are saved. After the rainwater in the collection tank 41 is evaporated, the collection tank 41 is automatically returned by the resilient force of the coil spring 152 so that the collection tank 41 is used next time.

Referring to fig. 2 and 5, a bearing groove 54 is formed in the side wall 5, the bearing groove 54 is arranged below the collection box 41, a bearing part 6 is slidably connected in the bearing groove 54, the bearing part 6 includes a plurality of bearing columns 61, the bearing columns 61 are all slidably connected in the bearing groove 54, two adjacent bearing columns 61 are connected, a first spring 62 is arranged between one bearing column 61 close to the bottom of the bearing groove 54 and the bearing groove 54, and the first spring 62 provides tension for the bearing column 61, so that the bearing column 61 is not easily separated from the bearing groove 54.

During rainy day, collecting box 41 collects the rainwater and makes the whole quality of collecting box 41 increase for collecting box 41 moves down to contact with heel post 61, and when the whole quality of collecting box 41 was greater than heel post 61, heel post 61 broke, and collecting box 41 moved down this moment continuously, provides great kinetic energy for control panel 42, irrigates the green planting for follow-up spray 3 provides convenience, has utilized the resource simultaneously effectively.

Referring to fig. 2 and 5, a limiting groove 57 is formed in the side wall 5 along the vertical direction, a limiting plate 571 is slidably connected in the limiting groove 57, the limiting groove 57 is communicated with the yielding groove 56, the limiting plate 571 extends into the yielding groove 56 and is connected with the control plate 42, the limiting groove 57 is communicated with the bearing groove 54, a limiting hole 572 is formed in the limiting plate 571, a first guide surface 573 is formed in the bearing column 61, and a second guide surface 574 matched with the first guide surface 573 is formed on the inner wall of the limiting hole 572.

In rainy days, the collection box 41 collects rainwater, and the overall mass of the collection box 41 is increased, so that the collection box 41 moves down and contacts with the bearing column 61; when the overall weight of the collection box 41 is greater than the bearing capacity of the bearing column 61, the bearing column 61 is broken, so that the collection box 41 continues to move downwards, at this time, the remaining bearing column 61 is abutted against the outer wall of the collection box 41 under the action of the first spring 62, the collection box 41 is abutted against the control board 42 to drive the control board 42 to move downwards, the control board 42 moves downwards to drive the position limiting plate 571 to move downwards, in the process that the position limiting plate 571 moves downwards, the second guide surface 574 of the position limiting hole 572 is abutted against the first guide surface 573 on the bearing column 61, the position limiting plate 571 drives the remaining bearing column 61 to move towards the direction close to the bottom of the bearing groove 54, so that the remaining bearing column 61 is abutted against the position limiting plate 571, and the possibility that the collection box 41 is influenced by the fact that the bearing column 61 extends out when the collection box 41 is separated from the notch of the bearing groove 54 is reduced.

Referring to fig. 2, the bottom of the inner wall of the sliding groove 55 is provided with a drain hole 551, the drain hole 551 extends to the outer wall of the side wall 5, and the end of the drain hole 551 close to the inner wall of the side wall 5 is inclined upward, so that in rainy days, part of rainwater enters the sliding groove 55 and then flows out of the sliding groove 55 through the drain hole 551, thereby reducing the possibility of rainwater accumulating in the sliding groove 55.

An air inlet hole 552 is formed in the top of the inner wall of the sliding groove 55, the air inlet hole 552 extends to the inner wall of the side wall 5, and at the moment, air enters the sliding groove 55 through the air inlet hole 552 and the water outlet hole 551 as the mean square, so that convenience is brought to the sliding plate 43 to move in a reciprocating mode in the vertical direction.

Referring to fig. 6 and 7, a second spring 58 is fixed between the sliding plate 43 and the bottom of the sliding groove 55, one end of the second spring 58 is fixed to the sliding plate 43, and the other end is fixed to the bottom of the sliding groove 55, and the second spring 58 provides a buffer for the sliding plate 43.

In rainy days, rainwater falls into the collection box 41 to increase the total mass of the collection box 41, when the collection box 41 is inconsistent with the control panel 42, the collection box 41 overcomes the self-gravity and the elastic force of the first spring 62 and then moves downwards, at the moment, the second spring 58 is in a compressed state and provides buffering for the sliding plate 43, so that the sliding plate 43 is not easy to directly collide with the bottom of the sliding groove 55, the possibility of damage to the sliding plate 43 is reduced, and the cyclic use of the sliding plate 43 is facilitated.

Referring to fig. 7, a corrugated tube 581 is sleeved outside the second spring 58, one end of the corrugated tube 581 is fixed to the sliding plate 43, and the other end of the corrugated tube 581 is fixed to the bottom of the sliding groove 55, so that in rainy days, part of rainwater enters the sliding groove 55, and the corrugated tube 581 protects the second spring 58, so that the second spring 58 is not easily corroded by rainwater, and the service life of the second spring 58 is prolonged.

Referring to fig. 3 and 6, the bottom of the collecting tank 41 is communicated with a second water outlet pipe 413, a bearing ring 415 is fixed in the second water outlet pipe 413, two second baffles 414 are hinged to one end of the second water outlet pipe 413, which is far away from the bearing ring 415, and the two second baffles 414 are all abutted to the bearing ring 415.

After the watering of green planting is accomplished, operating personnel rotates second baffle 414 towards the direction of keeping away from second outlet pipe 413 for the rainwater in collecting box 41 flows out, and the whole quality of collecting box 41 reduces this moment, and under the effect of first spring 62 resilience force, collecting box 41 rebound, for next green planting in house body 1 waters and provides convenience.

Referring to fig. 2 and 3, an adapter box 7 is fixed on the outer side of the side wall 5, the adapter box 7 is arranged right below the collection box 41, one side of the adapter box 7 close to the collection box 41 is communicated with a first water inlet pipe 71, and the first water inlet pipe 71 is matched with the inner wall of the bearing ring 415; a constant temperature component 8 is arranged in the house body 1, and the transfer box 7 is communicated with the constant temperature component 8 through a second water inlet pipe 72;

The thermostatic assembly 8 comprises a thermostat 81 and a thermostatic tube 82, the thermostat 81 is arranged inside the house body 1, the second water inlet tube 72 extends into the house body 1 and is communicated with the thermostat 81, the thermostatic tube 82 is communicated with the thermostat 81, a filter tube 83 is detachably connected to the thermostatic tube 82, and one end, far away from the thermostatic tube 82, of the filter tube 83 is communicated with an atomizer 84; a solar cell panel 85 is fixed on the top of the house body 1, a storage battery is fixed in the house body 1, the solar cell panel 85 is connected with the storage battery, and the storage battery is connected with the atomizer 84.

In sunny days, the solar panel absorbs sunlight and converts the sunlight into electric energy to charge the storage battery, in rainy days, rainwater enters the constant temperature box 81 from the second water inlet pipe 72 and provides power for the atomizer 84, so that the rainwater in the constant temperature box 81 is filtered by the filter pipe 83 and then is sprayed out from the atomizer 84, and the temperature inside the house body 1 can be adjusted. Meanwhile, under the filtering of the filtering pipe 83, impurities in rainwater are reduced, and the influence of rainwater directly entering the indoor two pairs of indoor environments is reduced.

Referring to fig. 8 and 9, a first mounting block 831 is fixed to a side of the filter pipe 83 adjacent to the thermostatic pipe 82, a first mounting groove 821 is formed in a side of the thermostatic pipe 82 adjacent to the filter pipe 83, and the first mounting block 831 is disposed in the first mounting groove 821; second mounting groove 822 has been seted up to the inner wall of first mounting groove 821, has second installation piece 823 along vertical direction sliding connection in the second mounting groove 822, has seted up mounting hole 832 on first installation piece 831, and second installation piece 823 is inserted and is established to mounting hole 832 in, and is fixed with fixed spring 824 between second installation piece 823 and the second mounting groove 822.

When the filter pipe 83 needs to be installed on the thermostatic pipe 82, an operator inserts the first installation block 831 into the first installation groove 821, when the first installation block 831 is inconsistent with the second installation block 823, the second installation block 823 contracts into the second installation groove 822, when the second installation block 823 opposes to the installation hole 832, under the elastic action of the fixing spring 824, the second installation block 823 is inserted into the installation hole 832 and provides a limit for the first installation block 831, so that the filter pipe 83 is not easily separated from the thermostatic pipe 82, and convenience is provided for installation of the filter pipe 83 and the thermostatic pipe 82.

Referring to fig. 8 and 9, a detaching groove 825 is formed in the outer wall of the thermostatic tube 82, the detaching groove 825 is communicated with the second mounting groove 822, a detaching rod 826 is slidably connected to the detaching groove 825, the detaching rod 826 extends into the second mounting groove 822 and is connected to the second mounting block 823, when the filter tube 83 needs to be replaced, the detaching rod 826 is pulled by an operator in a direction away from the thermostatic tube 82, the detaching rod 826 drives the second mounting block 823 to move in a direction away from the mounting hole 832, and when the second mounting block 823 is separated from the first mounting block 831, the filter tube 83 is pulled by the operator in a direction away from the thermostatic tube 82 so as to replace the filter tube 83, so that the possibility that the living environment inside the house body 1 is influenced due to poor filtering effect of the filter tube 83 is reduced.

Referring to fig. 10, the diffusion assembly 9 is disposed inside the housing body 1, the diffusion assembly 9 is opposite to the output end of the atomizer 84, and when the atomizer 84 sprays water mist indoors, the diffusion assembly 9 increases the coverage of the water mist sprayed by the atomizer 84, thereby providing convenience for adjusting indoor environment.

Referring to fig. 10 and 11, the diffusion assembly 9 includes a diffusion fan 91, a control member 92, and a transmission member 93, the transmission member 93 being disposed on an inner wall of the side wall 5, the control member 92 being disposed in the side wall 5; the control piece 92 comprises a driving gear 921 and a driving rack 922, a driving groove 923 is formed in the side wall 5, the driving gear 921 is rotatably connected in the driving groove 923, the driving rack 922 is fixed on the sliding plate 43, the driving groove 923 is communicated with the sliding groove 55, the driving rack 922 is meshed with the driving gear 921, and a rotating shaft of the driving gear 921 extends out of the side wall 5 towards the inside of the house body 1 and is connected with the transmission piece 93; a diffusion fan 91 is provided at the output end of the atomizer 84 and is connected to the transmission member 93.

When the collection box 41 drives the control plate 42 to move downwards, the control plate 42 drives the sliding plate 43 to move downwards, the sliding plate 43 moves downwards to drive the driving rack 922 to rotate, the driving rack 922 drives the driving gear 921 to rotate, the driving gear 921 rotates to drive the transmission member 93 to start, the transmission member 93 controls the diffusion fan 91 to start, the coverage range of the water mist sprayed by the atomizer 84 is enlarged by the diffusion fan 91, and convenience is brought to improvement of the environment inside the house body 1.

Referring to fig. 11 and 12, the transmission member 93 includes a transmission shaft 931 rotatably coupled to an inner wall of the side wall 5, a diffusion fan 91 coaxially fixed to the transmission shaft 931, a second gear 933, and an inner ratchet 934, the transmission shaft 931 is coaxially fixed to the transmission shaft 931, the first gear 932 is coaxially fixed to a rotation shaft of the drive gear 921, the first gear 932 is disposed inside the house body 1, the inner ratchet 934 is fixed to an inner wall of the second gear 933, the inner ratchet 934 is coaxially disposed on the transmission shaft 931 through a rotation sleeve 935, the rotation sleeve 935 is rotatably coupled to the transmission shaft 931, a rotation disc 936 is coaxially fixed to the transmission shaft 931, the rotation disc 936 is disposed inside the inner ratchet 934, a pawl 937 is disposed on the rotation disc 936, the pawl 937 is engaged with the inner ratchet 934, a spring piece 938 fitted to the pawl 7 is disposed on the rotation disc 936, the spring piece 934 allows the pawl 937 to be always engaged with the inner ratchet 937, the first gear 932 and the second gear 933 are provided with a spring 939 around an outer side thereof, the first gear 932 and the second gear 933 are each engaged with a belt 939.

When the sliding plate 43 moves downwards, the sliding plate 43 drives the driving toothed belt to move downwards, the driving toothed belt moves downwards to drive the driving gear 921 to rotate, the driving gear 921 rotates to drive the first gear 932 to rotate, the first gear 932 rotates to drive the transmission belt 939 to rotate, the transmission belt 939 rotates the second gear 933 to rotate, the second gear 933 rotates to drive the inner ratchet 934 to rotate, the inner ratchet 934 rotates to be tightly abutted to the clamping jaw 937 to enable the rotating disc 936 to rotate, the rotating disc rotates to enable the transmission shaft 931 to rotate, the transmission shaft 936 931 rotates to drive the diffusion fan 91 to rotate, the diffusion fan 91 is convenient to diffuse the water mist sprayed out of the atomizer 84, and the indoor environment inside the house body 1 can be adjusted. When the sliding plate 43 is reset, the second gear 933 rotates reversely, so that the acting force of the inner ratchet wheel 934 on the clamping jaws 937 disappears, the diffusion fan 91 is difficult to rotate reversely, the diffusion fan 91 is difficult to suck water mist onto the inner wall of the side wall 5, and the possibility that the water mist is accumulated on the side wall 5 and flows into the interior of the house body 1 is reduced.

The implementation principle of the green building structure in the embodiment of the application is as follows: when the device is required to be used, an operator firstly fixes the purifying box 11 in the house body 1, then places the spraying piece 3 below the purifying box 11, and then places the driving piece 4 outside the house body 1 and extends the driving piece into the house body 1 to be connected with the spraying piece 3;

in the rainy day, the rainwater falls into driving piece 4 for driving piece 4 provides power for spraying 3, makes spraying 3 water in with first water tank 12 water to the green plant of purifying box 11 on, provides the water source for green plant, makes the follow-up living environment who improves house body 1 of green plant.

Operating personnel places transfer box 7 under driving piece 4 again, places constant temperature component 8 inside house body 1 again, and rethread second inlet tube 72 is connected transfer box 7 and constant temperature component 8, for the water supply of constant temperature component 8, makes things convenient for the temperature in the constant temperature component 8 adjustment chamber, has utilized current resource simultaneously effectively for when improving 1 internal environment in house body, be difficult for producing extra energy consumption.

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

Claims

1. A green building structure, characterized by: the greenhouse comprises a house body (1), wherein a purification box (11) used for placing green plants is arranged in the house body (1), an irrigation component (2) is arranged on a side wall (5) of the house body (1), the irrigation component (2) comprises a driving piece (4) and a spraying piece (3), the driving piece (4) is arranged on the outer side of the side wall (5), and the spraying piece (3) is arranged on the inner side of the side wall (5);

the spray part (3) comprises a sleeve (31), a compression leg (32) and a pressing plate (33), a mounting plate (51) is arranged on the inner side of the side wall (5), the mounting plate (51) is arranged at the bottom of the purifying box (11), the sleeve (31) is arranged on one side, close to the first water tank (12), of the mounting plate (51), the compression leg (32) is connected into the sleeve (31) in a sliding manner, a first pull rope (53) is arranged between the compression leg (32) and the driving part (4), one end of the first pull rope (53) is connected with the driving part (4), the other end of the first pull rope is connected with the compression leg (32), the first water tank (12) is arranged in the purifying box (11), the pressing plate (33) is connected into the first water tank (12) in a sliding manner along the vertical direction, a push rod (34) is arranged below the pressing plate (33), the first water tank (12) extends downwards from the push rod (34), the pressure column (32) is arranged under the push rod (34), and one end, far away from the pressure plate (33), of the first water tank (12) is communicated with the atomizing nozzle (14).

2. A green building structure according to claim 1, wherein: the top of house body (1) is equipped with header tank (13), header tank (13) bottom intercommunication has first outlet pipe (131), first outlet pipe (131) extend to in house body (1) and be linked together with first water tank (12), first outlet pipe (131) and the intercommunication department of first water tank (12) articulate first baffle (132) that are used for blockking first outlet pipe (131), one side that compression leg (32) were kept away from to first baffle (132) and clamp plate (33) is inconsistent, one side that compression leg (32) were kept away from in clamp plate (33) is equipped with pull ring (133), pull ring (133) are connected through second stay cord (134) with first baffle (132).

3. A green building structure according to claim 1, wherein: the driving piece (4) comprises a collecting box (41), a control panel (42), a sliding plate (43) and rollers (52), the collecting box (41) is connected to one side, away from the purifying box (11), of the side wall (5) in a sliding mode, a sliding groove (55) is formed in the side wall (5) in the vertical direction, the sliding plate (43) is connected to the sliding groove (55) in a sliding mode, a yielding groove (56) is formed in one side, away from the purifying box (11), of the side wall (5), the yielding groove (56) is communicated with the sliding groove (55), the control panel (42) is connected to the yielding groove (56) in a sliding mode and connected with the sliding plate (43) in a sliding mode, the collecting box (41) is arranged above the control panel (42), the rollers (52) are connected to one side, close to the purifying box (11), of the side wall (5) in a rotating mode, and the first pull rope (53) is wound on the rollers (52), one end of the pull rope, which is far away from the pressure column (32), is connected with one side of the sliding plate (43), which is close to the purifying box (11).

4. A green building structure according to claim 3, wherein: the side wall (5) is provided with a bearing groove (54), the bearing groove (54) is arranged below the collecting box (41), and a bearing part (6) is arranged in the bearing groove (54);

the bearing part (6) comprises a plurality of bearing columns (61), the bearing columns (61) are all connected in a bearing groove (54) in a sliding mode, two adjacent bearing columns (61) are connected, and a first spring (62) is arranged between the bearing column (61) close to the groove bottom of the bearing groove (54) and the bearing groove (54).

5. A green building structure according to claim 4, wherein: the side wall (5) is provided with a limiting groove (57) in the vertical direction, the limiting groove (57) is connected with a limiting plate (571) in the limiting groove (57), the limiting groove (57) is communicated with the abdicating groove (56), the limiting plate (571) extends into the abdicating groove (56) and is connected with the control plate (42), the limiting groove (57) is communicated with the bearing groove (54), the limiting plate (571) is provided with a limiting hole (572), the bearing column (61) is provided with a first guide surface (573), and the inner wall of the limiting hole (572) is provided with a second guide surface (574) matched with the first guide surface (573).

6. A green building structure according to claim 3, wherein: second outlet pipe (413) have been seted up to collecting box (41) bottom, second outlet pipe (413) department is equipped with and holds ring (415), one side that holds ring (415) is kept away from in second outlet pipe (413) articulates there is second baffle (414), second baffle (414) and hold ring (415) inconsistent, be equipped with adapter box (7) under collecting box (41), one side intercommunication that adapter box (7) are close to collecting box (41) has first inlet tube (71), first inlet tube (71) and the inner wall looks adaptation of holding ring (415), house body (1) inside is equipped with constant temperature component (8), collecting box (41) are connected through second inlet tube (72) with constant temperature component (8).

7. A green building structure according to claim 6, wherein: constant temperature subassembly (8) include thermostated container (81) and thermostated tube (82), thermostated container (81) set up inside house body (1), second inlet tube (72) are linked together with thermostated container (81), thermostated tube (82) set up in thermostated container (81) top and are linked together with thermostated container (81), the last filter tube (83) that can dismantle of thermostated tube (82), the one end intercommunication that thermostated tube (82) were kept away from in filter tube (83) has atomizer (84), house body (1) top is equipped with solar cell panel (85), be equipped with the battery in house body (1), solar cell panel (85) are connected with the battery, the battery is connected with atomizer (84).

8. A green building structure according to claim 7, wherein: the house is characterized in that a diffusion component (9) is arranged inside the house body (1), and the diffusion component (9) is opposite to the output end of the atomizer (84).

9. A green building structure according to claim 3, wherein: the bottom of the inner wall of the sliding groove (55) is provided with a drain hole (551), one end, away from the sliding groove (55), of the drain hole (551) extends to the outer wall of the side wall (5), the top of the inner wall of the sliding groove (55) is provided with an air inlet hole (552), and one end, away from the sliding groove (55), of the air inlet hole (552) extends to the inner wall of the side wall (5).

10. A construction method of a green building structure is characterized by comprising the following steps:

s1, fixing the purification box (11) on the top of the house body (1), fixing the water collection box (13) on the top of the house body (1), and communicating the water collection box (13) with a first water tank (12) in the purification box (11) by using a first water outlet pipe (131);

s2, connecting the driving part (4) with the side wall (5), placing the spraying part (3) below the first water tank (12), and connecting the spraying part (3) with the driving part (4);

s3, placing the constant temperature component (8) inside the house body (1), placing the transfer box (7) right below the driving piece (4), and communicating the transfer box (7) with the constant temperature component (8) by using the second water outlet pipe (413);

s4, fixing the diffusion component (9) in the house body (1).