CN219863273U - Green low-carbon energy-saving building - Google Patents

Abstract

The utility model relates to the technical field of green buildings and discloses a green low-carbon energy-saving building, which comprises a building body, wherein a plurality of planting groove bodies and a water delivery pipe are arranged on the outer wall of the building body, a spray head opposite to the planting groove bodies is arranged on the water delivery pipe, the building further comprises a communicating seat and a water storage groove body, the water storage groove body is positioned on one side of the planting groove body, which is away from the outer wall of the building body, the communicating seat is arranged between the water storage groove body and the planting groove body, through holes are formed in the communicating seat, the water storage groove body and the planting groove body, so that the water storage groove body is communicated with the planting groove body through the through holes, an opening and closing plate for cutting off or opening a communication path of the through holes is vertically moved in the communicating seat, and a driving piece for driving the opening and closing plate to move is arranged on the building body. The utility model can improve the utilization rate of the rainwater.

Description

Green low-carbon energy-saving building

Technical Field

The utility model relates to the technical field of green buildings, in particular to a green low-carbon energy-saving building.

Background

At present, planting groove bodies are installed on the outer walls of buildings such as green energy-saving plants and houses, green plants are planted in the planting groove bodies to insulate heat in the buildings, so that the consumption of refrigeration energy sources in summer is reduced, and meanwhile, the surrounding air is purified. In order to water plants in the planting groove, the outer wall is also provided with a water pipe and a spray head arranged on the water pipe, and the spray head is opposite to the planting groove body.

Aiming at the related technology, part of rainwater can be remained in the planting groove body in rainy days, but the amount of the remained rainwater in the planting groove is small, and the utilization rate of the rainwater is not high.

Disclosure of Invention

In order to improve the utilization rate of rainwater, the utility model provides a green low-carbon energy-saving building.

The utility model provides a green low-carbon energy-saving building, which adopts the following technical scheme:

the utility model provides an energy-conserving building of green low carbon, includes the building body, have a plurality of planting cell bodies and raceway on the outer wall of building body, have on the raceway with plant the shower nozzle that the cell body is relative, still include intercommunication seat and aqua storage cell body, the aqua storage cell body is located plant the cell body and deviate from outer wall one side of building body, the intercommunication seat set up in the aqua storage cell body with plant between the cell body, the intercommunication seat the aqua storage cell body with all have the through-hole on the planting cell body, so that the aqua storage cell body with plant the cell body and pass through the through-hole intercommunication, just reciprocate in the intercommunication seat and be used for cutting off or opening the board that opens and close of through-hole intercommunication route, have on the building body and be used for the drive the driving piece that the board removed opens and close.

Through adopting above-mentioned technical scheme, during raining, because the aqua storage cell body is located the outside of planting the cell body, the rainwater can collect in the aqua storage cell body earlier, when needs carry out the water delivery to the planting cell body, remove through the driving piece and open and close the board, make the water of aqua storage cell body can export through the intercommunication seat and plant in the cell body to improve the utilization ratio to the rainwater, reduce the consumption to tap water, the energy saving.

Optionally, the building body top has and is used for right plant the protruding edge that the cell body sheltered from, the driving piece includes the roller, connects rope and power supply, the roller rotate connect in on the protruding edge, connect the rope rolling in on the roller, just connect the rope connect in on the board opens and close, the power supply is used for driving the roller is rotated, in order to right connect the rope and roll up or unreel.

By adopting the technical scheme, the connecting rope drives the opening and closing plate to move upwards or downwards when being wound or unwound so as to drive the opening and closing plate to move.

Optionally, the planting groove body array is distributed on the outer wall of the building body, two sides of the top of the opening and closing plate are respectively provided with connecting seats extending out of two opposite ends of the planting groove body, and the connecting seats are connected with the same connecting rope in the same row.

Through adopting above-mentioned technical scheme, through linking to each other with same connecting rope with same connecting seat, can drive and open and close the board and reciprocate simultaneously, raise the efficiency.

Optionally, the end of the opening and closing plate is provided with a travel block, and the communication seat is provided with a travel groove for the travel block to move up and down and limiting the travel block to be separated from the communication seat upwards.

Through adopting above-mentioned technical scheme, when the cooperation of stroke piece and travel groove can be directed the removal of opening and close the board, the restriction is opened and close the board and is shifted out the intercommunication seat completely, improves the stability of opening and close the board.

Optionally, the inner bottom wall of the water storage tank body is lower than the inner bottom wall of the planting tank body.

By adopting the technical scheme, the planting tank body is not easy to reflux when water is conveyed to the water storage tank body.

Optionally, the upper surface of the water storage tank body is lower than the upper surface of the planting tank body.

By adopting the technical scheme, the rainwater is difficult to wash out into the planting groove body when the water storage groove body is filled, so that water and soil loss in the planting groove body is reduced.

Optionally, the communication seat is provided with the sponge layer in the relative both sides of opening and close the board.

Through adopting above-mentioned technical scheme, the sponge layer can make granular impurity be difficult for getting into in the intercommunication seat, improves the smooth and easy degree that the board removed of opening and close.

Optionally, a water storage tank is arranged on the roof of the building body, the water delivery pipe extends into the water storage tank, and a water pump is connected between the water delivery pipe and the water storage tank.

Through adopting above-mentioned technical scheme, rainwater can be stored in the tank during raining to make the raceway can utilize the rainwater in the tank to water planting cell body, further improve the utilization ratio to rainwater.

In summary, the utility model has the following beneficial effects:

store the rainwater in the aqua storage tank body when raining for can plant the cell body water delivery through aqua storage tank body when needs water planting cell body, improve the utilization ratio of rainwater.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of the connection between the planting tank and the water storage tank according to the embodiment of the present utility model;

FIG. 3 is a schematic diagram of an explosion structure of a planting tank, a water storage tank and a communicating seat according to an embodiment of the present utility model;

FIG. 4 is an enlarged schematic view of the structure shown at A in FIG. 3;

fig. 5 is an enlarged schematic view of the structure at B in fig. 1.

Reference numerals illustrate: 1. a building body; 2. planting a groove body; 3. a water pipe; 31. a main pipe; 32. a branch pipe; 4. a spray head; 5. a communication seat; 6. a water storage tank body; 7. a through hole; 8. an opening and closing plate; 9. a driving member; 91. a rotating roller; 92. a connecting rope; 93. a power source; 10. a connecting seat; 11. a travel block; 12. a travel groove; 13. a sponge layer; 14. a water storage tank; 15. a water pump; 16. a convex edge; 17. opening and closing the cavity; 18. and a containing groove.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5.

The embodiment of the utility model discloses a green low-carbon energy-saving building. Referring to fig. 1, the green low-carbon energy-saving building comprises a building body 1, a planting groove body 2, a communicating seat 5, a water storage groove body 6, a water storage pool 14, a water delivery pipe 3 and a spray head 4.

Referring to fig. 1 and 2, the planting tank 2 and the water storage tank 6 are in one-to-one correspondence with the communicating seat 5, the planting tank 2 and the water storage tank 6 are both square basket-shaped with upward openings, and the communicating seat 5 is of a square structure. The communicating seat 5 is fixedly connected between the planting groove body 2 and the water storage groove body 6, and one side, far away from the communicating seat 5, of the planting groove body 2 is arranged on the outer wall of the building body 1 through a bolt array.

Referring to fig. 2 and 3, a plurality of through holes 7 are formed in a side wall of the planting groove body 2, which is close to the communicating seat 5, a plurality of through holes 7 are also formed in a side wall of the water storage groove body 6, which is close to the communicating seat 5, and a plurality of through holes 7 are also formed in the communicating seat 5, and the planting groove body 2, the water storage groove body 6 and the through holes 7 on the communicating seat 5 are in one-to-one correspondence, so that the planting groove body 2 and the water storage groove body 6 are communicated through the through holes 7.

Referring to fig. 3 and 4, the communication seat 5 is provided with an opening and closing cavity 17 with an upward opening, and the opening and closing cavity 17 is communicated with all through holes 7 on the communication seat 5. And the communicating seat 5 slides up and down in the opening and closing cavity 17 with an opening and closing plate 8. When the opening and closing plate 8 slides downwards to prop against the bottom wall of the opening and closing cavity 17, the opening and closing plate 8 cuts off the communication path of the through hole 7 on the communication seat 5 so as to isolate the planting groove body 2 from the water storage groove body 6; and when the on-off plate 8 slides upwards to enable the through holes 7 to be communicated, the planting groove body 2 and the water storage groove body 6 can exchange water.

Referring to fig. 1 and 5, a protruding edge 16 extends outwards on the outer wall of the top end of the building body 1, and the protruding edge 16 is opposite to the planting groove body 2 on the top of the building body 1 so as to shield the planting groove body 2 from rain. And in order to drive the opening and closing plate 8 to move up and down, a driving piece 9 for driving the opening and closing plate 8 to move up and down is arranged between the convex edge 16 and the communication seat 5.

Referring to fig. 2 and 5, in particular, the driving member 9 includes a rotating roller 91, a connecting rope 92, and a power source 93. The rotating roller 91 is rotatably connected to the lower portion of the flange 16 through a bearing seat, the power source 93 is a motor, the motor is mounted on the flange 16 and is matched with the rotating roller 91 to drive the rotating roller 91 to rotate in the forward direction or the reverse direction, and a housing (not shown in the drawings) is arranged on the motor housing. The connecting ropes 92 are wound on the rotating roller 91, and each row of planting groove bodies 2 corresponds to two connecting ropes 92.

Referring to fig. 1 and 3, when the opening and closing plate 8 abuts against the inner bottom wall of the opening and closing cavity 17, the upper surface of the opening and closing plate 8 is flush with the upper surface of the communicating seat 5, and the two ends of the upper surface of the opening and closing plate 8, which are far away from each other, are respectively fixed with the connecting seats 10, and the two connecting seats 10 extend out of the two ends of the planting groove body 2, which are far away from each other, respectively in the direction of being far away from each other. Two rows of connecting seats 10 corresponding to each row of planting grooves 2 are respectively matched with two connecting ropes 92, and each row of connecting seats 10 is fixed with the same connecting rope 92.

When the rotating roller 91 rotates to wind, the connecting seat 10 is driven to move upwards together, so that the opening and closing plate 8 is driven to move upwards to communicate the planting groove body 2 with the water storage groove body 6. When the rotary roller 91 rotates to unreel, the opening and closing plate 8 automatically moves downwards to the opening and closing cavity 17 under the action of self gravity so as to isolate the planting groove body 2 from the water storage groove body 6.

When raining, planting cell body 2 receives protruding edge 16 and adjacent upside planting cell body 2 to make planting cell body 2 be difficult for being erodeed by the rainwater, will open and close board 8 downwardly moving to open and close in the chamber 17 with the through-hole 7 passageway cut off, partial rainwater is collected in aqua storage cell body 6. When the planting groove body 2 is required to be used for delivering water, the opening and closing plate 8 is moved upwards, so that rainwater collected in the water storage groove body 6 can enter the planting groove body 2 for delivering water.

Referring to fig. 2 and 3, further, the upper surface of the communicating seat 5 is flush with the upper surface of the water storage tank body 6, and the upper surface of the communicating seat 5 is lower than the upper surface of the planting tank body 2, so that water in the water storage tank body 6 is not easy to wash into the planting tank body 2 when water overflows upwards.

Referring to fig. 3 and 4, the communicating seat 5 is provided with the accommodating grooves 18 at two sides of the opening and closing groove, and the sponge is placed in the accommodating grooves 18 to form the sponge layer 13, so that particles are not easy to enter the opening and closing cavity 17 when the water storage tank body 6 and the planting tank body 2 exchange water, the opening and closing plate 8 is smooth to move, and the water flow speed is slowed down when the planting tank body 2 and the water storage tank body 6 exchange water, so that the planting tank body 2 is not easy to wash.

In addition, the opposite ends of the bottom of the opening and closing plate 8 are both fixed with a travel block 11, the communication seat 5 is provided with a travel groove 12 for the travel block 11 to move up and down in the opening and closing cavity 17, and the travel groove 12 does not penetrate through the upper surface of the communication seat 5, so that when the opening and closing plate 8 moves upwards to be about to separate from the communication seat 5, the opening and closing plate 8 cannot be completely separated from the communication seat 5 due to the limitation of the travel groove 12, and the stability of the opening and closing plate 8 is improved. In order to facilitate the matching of the travel groove 12 and the travel block 11, the travel groove 12 is firstly communicated with the upper surface of the communication seat 5 when being opened, and the travel block 11 enters the travel groove 12 and then seals the top of the travel groove 12.

Referring to fig. 1, the water storage tank 14 is installed on the top ceiling of the building body 1, and the water storage tank 14 is opened upward, rainwater can accumulate in the water storage tank 14 when raining, and the outside and the top surface of the building body 1 can be isolated by the water in the water storage tank 14, so that the temperature in the building body 1 can be further reduced.

Referring to fig. 1 and 5, the water pipe 3 includes a main pipe 31 and a branch pipe 32, the main pipe 31 is connected to the outer wall of the building body 1 and extends upward into the reservoir 14, and the main pipe 31 has a water pump 15 for pumping water in the reservoir 14 into the main pipe 31. The branch pipes 32 are communicated with the main pipe 31, the number and the positions of the branch pipes 32 correspond to those of the planting groove bodies 2 in each row, the spray heads 4 are arranged on the branch pipes 32 and correspond to the upper parts of the planting groove bodies 2, and the branch pipes 32 pump water in the main pipe 31 to the spray heads 4 so as to water the planting groove bodies 2 through the spray heads 4 when the water quantity in the water storage groove bodies 6 is insufficient.

In order to prevent the excessive water from being wasted when the spray head 4 sprays too much water, the inner bottom wall of the water storage tank body 6 is lower than the inner bottom wall of the planting tank body 2, and when the water in the planting tank is sufficient, the opening and closing plate 8 is moved upwards, so that the excessive water in the planting tank body 2 can enter the water storage tank body 6 through the communication seat 5 to be collected.

The implementation principle of the green low-carbon energy-saving building provided by the embodiment of the utility model is as follows: in the event of rain, rain water enters and is stored in the reservoir 6 and the reservoir 14. When the planting groove body 2 is required to be filled with water, the rotary roller 91 is driven to rotate and roll up, so that the opening and closing plate 8 is pulled to move upwards through the connecting rope 92, and water in the water storage groove body 6 enters the planting groove body 2 through the communicating seat 5. When the water amount in the water storage tank body 6 is insufficient, the water is delivered to the planting tank body 2 through the water delivery pipe 3 and the spray head 4.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides an energy-conserving building of green low carbon, includes building body (1), have a plurality of planting cell bodies (2) and raceway (3) on the outer wall of building body (1), have on raceway (3) with plant shower nozzle (4) that cell body (2) are relative, its characterized in that: still including intercommunication seat (5) and aqua storage cell body (6), aqua storage cell body (6) are located plant cell body (2) deviate from outer wall one side of building body (1), intercommunication seat (5) set up in aqua storage cell body (6) with plant between cell body (2), intercommunication seat (5) aqua storage cell body (6) and all have through-hole (7) on planting cell body (2), so that aqua storage cell body (6) with plant cell body (2) pass through-hole (7) intercommunication, just it has to be used for cutting off or opening to reciprocate in intercommunication seat (5) opening and close board (8) of through-hole (7) intercommunication route, be used for the drive on building body (1) opening and close driving piece (9) that board (8) removed.

2. The green low-carbon energy-saving building according to claim 1, wherein: the utility model discloses a building body, including building body (1), planting cell body (2) and power source (93) are connected in connection rope (92), building body (1) top has be used for right planting cell body (2) is sheltered from protruding edge (16), driving piece (9) are including changeing roller (91), connection rope (92) and power source (93), changeing roller (91) rotate connect in on protruding edge (16), connect rope (92) rolling in on changeing roller (91), just connect rope (92) connect in on opening and close board (8), power source (93) are used for driving changeing roller (91) rotate, in order to right connect rope (92) to carry out rolling or unreel.

3. A green low carbon energy saving building according to claim 2, wherein: the planting groove bodies (2) are distributed on the outer wall of the building body (1), connecting seats (10) extending out of two opposite ends of the planting groove bodies (2) are respectively arranged on two sides of the top of the opening and closing plate (8), and the connecting seats (10) are connected with the same connecting rope (92) in the same row.

4. The green low-carbon energy-saving building according to claim 1, wherein: the end part of the opening and closing plate (8) is provided with a travel block (11), and the communication seat (5) is provided with a travel groove (12) for the travel block (11) to move up and down and limiting the travel block (11) to be separated from the communication seat (5) upwards.

5. The green low-carbon energy-saving building according to claim 1, wherein: the inner bottom wall of the water storage tank body (6) is lower than the inner bottom wall of the planting tank body (2).

6. The green low-carbon energy-saving building according to claim 1, wherein: the upper surface of the water storage tank body (6) is lower than the upper surface of the planting tank body (2).

7. The green low-carbon energy-saving building according to claim 1, wherein: the communication seat (5) is provided with a sponge layer (13) at two opposite sides of the opening and closing plate (8).

8. The green low-carbon energy-saving building according to claim 1, wherein: the building is characterized in that a water storage tank (14) is arranged on the roof of the building body (1), the water delivery pipe (3) extends into the water storage tank (14), and a water pump (15) is connected between the water delivery pipe (3) and the water storage tank (14).