CN215935662U - Green energy-saving building - Google Patents

Abstract

The application discloses a green energy-saving building, which relates to the technical field of energy-saving buildings and comprises a wall body, wherein placing grooves are arranged on the outer walls of two sides of the wall body at equal intervals, a cultivating basket is arranged in each placing groove, a laminate is arranged in the cultivating basket, two metal plates are fixedly arranged above the laminate, a pair of first wire holes are formed in the laminate, an energy accumulator is arranged below the laminate, and the two metal plates are connected with the energy accumulator through wires, and are respectively a positive electrode plate and a negative electrode plate, when plants are subjected to photosynthesis, water can be decomposed into hydrogen and oxygen, hydrogen can be decomposed into particles with positive and negative charges, the positive electrode plate, the negative electrode plate and electrolyte form a battery unit, the two metal plates are connected with the energy accumulator through wires, so that current collected by each battery unit is stored in the energy accumulator, and a plurality of energy accumulators are connected in series and deliver electric energy to the storage battery, green energy is provided by a plant power generation mode, and energy conservation and emission reduction are realized.

Description

Green energy-saving building

Technical Field

The application relates to the technical field of energy-saving buildings, in particular to a green energy-saving building.

Background

The green building is a high-quality building which saves resources, protects the environment, reduces pollution, provides healthy, applicable and efficient use space for people and furthest realizes harmonious symbiosis between people and nature in the whole life cycle. The green building evaluation is to follow the principle of local conditions and combine the characteristics of climate, environment, resources, economy, culture and the like of the region where the building is located.

Most of the existing green buildings are constructed by reducing consumables or adopting environment-friendly materials, and cannot utilize the natural environment to generate new green energy, so that the environment protection is not obvious enough.

SUMMERY OF THE UTILITY MODEL

In order to solve and only adopt the mode that reduces the consumptive material or adopt the environmental protection material to carry out the construction and lead to the not obvious problem inadequately of the green embodiment of environmental protection, this application provides a green energy-saving building.

The application provides a green energy-saving building, adopts following technical scheme:

a green energy-saving building comprises a building body and a planting wall located on the roof of the building body, wherein the planting wall comprises a wall body, placing grooves are arranged on the outer walls of two sides of the wall body at equal intervals, the placing grooves and the wall body are integrally formed, a cultivation basket is installed in the placing grooves, a laminate is horizontally installed in the cultivation basket, two metal plates are vertically and fixedly arranged above the laminate, a pair of first wire holes are formed in the laminate, an energy accumulator is installed below the laminate, the two metal plates are connected with the energy accumulator through wires, soil is filled in the cultivation basket, plants are planted in the soil, a pair of metal plates are inserted in the soil, the two metal plates are respectively a positive electrode plate and a negative electrode plate, when the plants are subjected to photosynthesis, water can be decomposed into hydrogen and oxygen, and the hydrogen can be decomposed into particles with positive and negative charges, the positive electrode plate, the negative electrode plate and the electrolyte form a battery unit, and the two metal plates are connected with the energy accumulators through wires, so that current collected by each battery unit is stored in the energy accumulators, the energy accumulators are mutually connected in series and deliver electric energy into the storage battery, green energy is provided in a plant power generation mode, and energy conservation and emission reduction are realized.

Optionally, the cavity walls between adjacent placement grooves are insulated from each other.

Optionally, a first partition board is horizontally installed in the wall body, the first partition board divides the interior of the wall body into an upper cavity and a lower cavity, a box door is hinged to one side of the lower cavity through a hinge shaft, a storage battery and a water storage tank are placed in the lower cavity, a pair of second wire holes are formed in the first partition board, and the plurality of energy accumulators are connected in series and are electrically connected with the storage battery through wires.

Optionally, a pair of second baffle is installed perpendicularly in the epicoele body, and a pair of second baffle will go up the cavity inside and separate into the mirror symmetry space with the axis, install inlet tube and outlet pipe between second baffle and the wall body, all communicate first connector on inlet tube and the outlet pipe, first connector is located standing groove department, the open end of inlet tube and outlet pipe links to each other with the storage water tank, and installs the water pump on the outlet pipe.

Optionally, water inlet and apopore have been seted up in cultivating the basket, it has the hole of permeating water to cultivate to open on the basket, first connector runs through the standing groove respectively and inserts in water inlet and the apopore.

Optionally, the height of the water inlet is higher than that of the water outlet, and the water outlet end of the first connector located in the water inlet penetrates through the water inlet to the soil.

Optionally, a third wire guide hole is formed in the second partition plate, and waterproof male and female connectors are installed in the first wire guide hole, the second wire guide hole and the third wire guide hole.

Optionally, surface mounting has solar panel on the wall body, the charge controller body has been placed on the first baffle, the charge controller body is located between a pair of second baffle, the vent has been seted up to the side of wall body, loop through the wire between solar panel, charge controller body and the battery and link to each other.

In summary, the present application includes at least one of the following benefits:

1. the cultivation basket is filled with soil, plants are planted in the soil, a pair of metal plates are inserted in the soil, the two metal plates are respectively a positive electrode plate and a negative electrode plate, when the plants are subjected to photosynthesis, water can be decomposed into hydrogen and oxygen, the hydrogen can be decomposed into particles with positive charges and negative charges, the positive electrode plate, the negative electrode plate and electrolyte form a battery unit, the two metal plates are connected with an energy accumulator through leads, so that current collected by each battery unit is stored in the energy accumulator, a plurality of energy accumulators are connected in series and deliver electric energy to the inside of the battery, green energy is provided in a plant power generation mode, and energy conservation and emission reduction are realized;

2. plant the inlet tube and the outlet pipe that set up in the wall, the inlet tube is used for collecting the water that spills over to the storage water tank in with irrigating, and the outlet pipe can prevent that the plant from dying in carrying the water in the storage water tank to soil when the plant is dry, reduces the time of artificial cultivation, provides the afforestation effect of hiding the shade for the building.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the present embodiment;

fig. 3 is an enlarged schematic view of the structure at a in fig. 2 of the present embodiment.

Description of reference numerals: 1. a building body; 2. a wall body; 201. a vent; 3. a placement groove; 4. cultivating baskets; 401. a water inlet hole; 402. a water outlet hole; 403. water permeable holes; 5. laminating the board; 6. a metal plate; 7. a first wire guide hole; 8. an energy storage device; 9. a first separator; 10. a box door; 11. a storage battery; 12. a water storage tank; 13. a second wire guide; 14. a second separator; 15. a water inlet pipe; 16. a water outlet pipe; 17. a first connector; 18. a water pump; 19. a third wire guide; 20. a waterproof male and female connector; 21. a solar panel; 22. a charging controller body.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Example (b):

the embodiment of the application discloses a green energy-saving building. Referring to fig. 1-3, the building comprises a building body 1 and a planting wall located on the roof of the building body 1, the planting wall comprises a wall body 2, placing grooves 3 are equally spaced on the outer walls of the two sides of the wall body 2, the placing grooves 3 and the wall body 2 are integrally formed, a cultivating basket 4 is installed in the placing grooves 3, a laminate 5 is horizontally installed in the cultivating basket 4, soil is filled above the laminate 5, plants are planted in the soil, two metal plates 6 are vertically and fixedly arranged above the laminate 5, the metal plates 6 are inserted in the soil, the two metal plates 6 are respectively a positive electrode plate and a negative electrode plate, when the plants are subjected to photosynthesis, water can be decomposed into hydrogen and oxygen, hydrogen can be decomposed into particles with positive and negative charges, the positive electrode plate, the negative electrode plate and electrolyte form a battery unit, a pair of first wire holes 7 is formed in the laminate 5, a sealed space is formed below the laminate 5, an energy storage device 8 is arranged below the layer plate 5, and the two metal plates 6 are connected with the energy storage device 8 through leads, so that the current collected by each battery unit is stored in the energy storage device 8.

Specifically, referring to fig. 1, the energy storages 8 are preferably formed in a serial manner to ensure a larger output voltage, and the key point of the serial connection is that each energy storage 8 is insulated before being connected in series, so that the cavity walls of adjacent placement slots 3 are insulated from each other.

Specifically, please refer to fig. 2, a first partition plate 9 is horizontally installed in the wall body 2, the first partition plate 9 divides the interior of the wall body 2 into an upper cavity and a lower cavity, one side of the lower cavity is hinged to a box door 10 through a hinge shaft, which is convenient for a worker to perform later maintenance, a storage battery 11 and a water storage tank 12 are placed in the lower cavity, a pair of second wire holes 13 are formed in the first partition plate 9, wires connected in series together pass through the storage battery 11 to be connected, and a plurality of energy storages 8 are connected in series and are electrically connected with the storage battery 11 through the wires, so as to ensure that the output voltage is larger.

Specifically, please refer to fig. 2, a pair of second partition plates 14 is vertically installed in the upper cavity, the pair of second partition plates 14 divides the interior of the upper cavity into mirror symmetry spaces by a central axis, a water inlet pipe 15 and a water outlet pipe 16 are installed between the second partition plates 14 and the wall body 2, the water inlet pipe 15 is used for collecting water overflowing by irrigation into the water storage tank 12, the water outlet pipe 16 can convey water in the water storage tank 12 to soil when plants are dry, so as to prevent the plants from dying, the water inlet pipe 15 and the water outlet pipe 16 are both communicated with a first connector 17, the first connector 17 is located at the placement groove 3, the open ends of the water inlet pipe 15 and the water outlet pipe 16 are connected with the water storage tank 12, the water outlet pipe 16 is installed with a water pump 18, and the water pump 18 is arranged to improve the conveying power of the water outlet pipe 16.

Specifically, please refer to fig. 3, a water inlet 401 and a water outlet 402 are provided in the cultivating basket 4, the water inlet 401 is used for irrigation, the water outlet 402 is used for drainage, the cultivating basket 4 is provided with a water permeable hole 403, so that the redundant water can be quickly discharged, root rot can be prevented, and the first connecting joint 17 penetrates through the placing groove 3 and is inserted into the water inlet 401 and the water outlet 402 respectively.

Specifically, referring to fig. 2-3, the height of the water inlet 401 is higher than that of the water outlet 402, and the water outlet end of the first connector 17 located in the water inlet 401 penetrates through the water inlet 401 into the soil, and the first connector 17 located in the water inlet 401 is directly inserted into the soil for irrigation, so that compared with direct-injection irrigation, the direct-injection irrigation is gentler, and the plant injury rate is reduced.

Specifically, referring to fig. 3, the second partition 14 is provided with a third wire hole 19, and waterproof male and female connectors 20 are installed in the first wire hole 7, the second wire hole 13 and the third wire hole 19, so as to facilitate wiring and waterproof.

Specifically, referring to fig. 2, a solar panel 21 is mounted on the upper surface of the wall 2 and used for absorbing solar energy, a charge controller body 22 is placed on the first partition plate 9, the charge controller body 22 is located between the pair of second partition plates 14, a vent 201 is formed in the side surface of the wall 2 and used for emitting heat generated when the charge controller body 22 works, the solar panel 21 and the charge controller body 22 are sequentially connected with the storage battery 11 through a wire, so that solar energy absorbed by the solar panel 21 is gradually converted into electric energy, the charge controller body 22 converts the electric energy into electric energy with stable voltage, the electric energy is stored in the storage battery 11 through the wire, and when the storage battery 11 is full, the charge current can be actively cut off, thereby avoiding great damage to the storage battery 11.

The implementation principle of a green energy-saving building of the embodiment of the application is as follows:

when the solar energy water-saving cultivation basket is used, soil is filled in the cultivation basket 4, plants are planted in the soil, a pair of metal plates 6 are inserted into the soil, the two metal plates 6 are respectively a positive electrode plate and a negative electrode plate, when the plants are subjected to photosynthesis, water can be decomposed into hydrogen and oxygen, the hydrogen can be decomposed into particles with positive charges and negative charges, the positive electrode plate, the negative electrode plate and electrolyte form a battery unit, the two metal plates 6 are connected with the energy accumulator 8 through leads, so that current collected by each battery unit is stored in the energy accumulator 8, a plurality of energy accumulators 8 are mutually connected in series and supply electric energy to the storage battery 11, a solar panel 21 is arranged on the upper surface of the wall body 2, the solar panel 21, the charging controller body 22 and the storage battery 11 are connected through leads in sequence, so that solar energy absorbed by the solar panel 21 is gradually converted into electric energy, the electric energy is stored in the storage battery 11 through a lead, and the electric energy in the storage battery 11 can provide green energy for low-power electricity utilization in a building.

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 (8)

1. The utility model provides a green energy-conserving building, includes building body (1) and is located the planting wall on building body (1) roof, its characterized in that: plant the wall and include wall body (2), impartial distance is provided with standing groove (3) on the outer wall of wall body (2) both sides, standing groove (3) set up with wall body (2) integrated into one piece formula, install in standing groove (3) and cultivate basket (4), it is equipped with plywood (5) to cultivate horizontal installation in basket (4), two metal sheet (6) have set firmly perpendicularly in plywood (5) top, a pair of first wire hole (7) have been seted up on plywood (5), energy storage ware (8) are installed to plywood (5) below, two metal sheet (6) all are connected with energy storage ware (8) through the wire.

2. A green energy saving building according to claim 1, characterized in that: and the cavity walls between the adjacent placing grooves (3) are arranged in an insulating way.

3. A green energy saving building according to claim 1, characterized in that: first baffle (9) are equipped with to horizontal installation in wall body (2), first baffle (9) divide into cavity and lower cavity with the wall body internal partitioning, and one side of lower cavity is articulated through the hinge pin has chamber door (10), has placed battery (11) and storage water tank (12) in the lower cavity, a pair of second wire guide (13) have been seted up on first baffle (9), and is a plurality of energy storage ware (8) are connected in series each other and pass through wire electric connection between battery (11).

4. A green energy saving building according to claim 3, characterized in that: go up the internal second baffle (14) of installing perpendicularly of cavity, a pair of second baffle (14) will go up the cavity inside and separate into the mirror symmetry space with the axis, install inlet tube (15) and outlet pipe (16) between second baffle (14) and wall body (2), all communicate on inlet tube (15) and outlet pipe (16) and have first connector (17), first connector (17) are located standing groove (3) department, the open end of inlet tube (15) and outlet pipe (16) links to each other with storage water tank (12), and installs water pump (18) on outlet pipe (16).

5. A green energy-saving building according to claim 4, characterized in that: the cultivation basket is characterized in that a water inlet hole (401) and a water outlet hole (402) are formed in the cultivation basket (4), a water permeable hole (403) is formed in the cultivation basket (4), and the first connecting head (17) penetrates through the placing groove (3) and is inserted into the water inlet hole (401) and the water outlet hole (402) respectively.

6. A green energy-saving building according to claim 5, characterized in that: the height of the water inlet hole (401) is higher than that of the water outlet hole (402), and the water outlet end of the first connecting head (17) positioned in the water inlet hole (401) penetrates through the water inlet hole (401) to the soil.

7. A green energy-saving building according to claim 4, characterized in that: and a third wire hole (19) is formed in the second partition plate (14), and waterproof male and female connectors (20) are mounted in the first wire hole (7), the second wire hole (13) and the third wire hole (19).

8. A green energy-saving building according to claim 4, characterized in that: wall body (2) upper surface mounting has solar panel (21), charge controller body (22) have been placed on first baffle (9), charge controller body (22) are located between a pair of second baffle (14), vent (201) have been seted up to the side of wall body (2), loop through the wire between solar panel (21), charge controller body (22) and battery (11) and link to each other.

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