CN214834173U

CN214834173U - Green environment-friendly energy-saving building

Info

Publication number: CN214834173U
Application number: CN202120312958.XU
Authority: CN
Inventors: 刘明时
Original assignee: Jiangsu Zunchen Architectural Design Co ltd
Current assignee: Jiangsu Zunchen Architectural Design Co ltd
Priority date: 2021-02-03
Filing date: 2021-02-03
Publication date: 2021-11-23
Anticipated expiration: 2031-02-03

Abstract

The utility model belongs to the technical field of housing construction and specifically relates to a green and energy-saving building is related to, and it includes building body, and building body includes roof and wall, roof and wall fixed connection, and wall department is provided with the storage water tank that is used for storing the rainwater, and the storage water tank aligns with the border on roof, and the water inlet has been seted up to the storage water tank, and the water inlet diapire runs through storage water tank inner wall, and the storage water tank is connected with the irrigation equipment that is used for using the interior rainwater of storage water tank to irrigate. In this application, through storage water tank and irrigation equipment's setting, realized reaching the effect of water economy resource to the storage of rainwater.

Description

Green environment-friendly energy-saving building

Technical Field

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

Background

The house building is an important place for human life, and can provide a wind-proof and rain-proof barrier for people to finish activities such as work, study, residence and the like in the house building.

General housing construction all sets up row rain pipeline, and when raining, the rainwater that falls to housing construction top flows into the underground along row rain pipeline to reduce the ponding of roof department.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: rainwater that falls to the building is directly drained to the ground, resulting in waste of water resources.

SUMMERY OF THE UTILITY MODEL

In order to water economy resource, this application provides a green energy-saving building.

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

the utility model provides a green energy-conserving building, includes building body, building body includes roof and wall, roof and wall fixed connection, and wall department is provided with the storage water tank that is used for storing the rainwater, and the storage water tank aligns with the border on roof, and the water inlet has been seted up to the storage water tank, and the water inlet diapire runs through storage water tank inner wall, and the storage water tank is connected with the irrigation equipment that is used for using rainwater to irrigate in the storage water tank.

By adopting the technical scheme, when raining, rainwater on the roof falls down from the edge of the roof, then the rainwater passes through the water inlet and enters the water storage tank, the rainwater falling on the roof is collected by the water storage tank, and then the rainwater in the water storage tank is irrigated and utilized by the irrigation device, so that the utilization rate of the rainwater is improved, and the current situation of water resource shortage is relieved; through the setting of storage water tank and irrigation equipment, realized the storage to the rainwater, reached the effect of water economy resource.

Optionally, a guide groove is arranged at the edge of the roof, the guide groove is fixedly connected with the wall, and the guide groove is communicated with the water inlet.

Through adopting above-mentioned technical scheme, utilize the guide way to lead to the flow of roof border department rainwater, lead rainwater to water inlet department through the guide way to reduce the waste of roof edge rainwater, further practiced thrift the water resource.

Optionally, the two ends of the guide groove are inclined towards the middle, the middle of the guide groove is positioned at the two ends of the guide groove and far away from one side of the roof, and the middle of the guide groove is provided with an opening.

Through adopting above-mentioned technical scheme, slope through the guide way sets up, makes the rainwater flow to the guide way in the middle of from the guide way both ends along the guide way under the effect of self gravity, and then has accelerated the flow speed of rainwater in the guide way for the collection of rainwater.

Optionally, a diversion edge is arranged at the opening, one end of the diversion edge is fixedly connected with the guide groove, the other end of the diversion edge inclines towards the direction close to the water storage tank, and the diversion edge is aligned to the water inlet at the end far away from the guide groove.

Through adopting above-mentioned technical scheme, utilize the direction along leading to the rainwater of opening department, make the rainwater of opening part along the water conservancy diversion of slope along flowing, in dropping to the inlet after breaking away from the water conservancy diversion edge, improved the precision that the rainwater falls to import department, further reduced the waste of rainwater.

Optionally, the water inlet is provided with a one-way flow valve which only allows water flow to flow from the outside to the water storage tank in one way.

Through adopting above-mentioned technical scheme, the rainwater passes the unidirectional flow valve and saves in getting into the storage water tank, when carrying out the use through irrigation equipment to the water in the storage water tank, the surface of water in the storage water tank can take place undulantly, and the unidirectional flow valve has reduced overflowing of storage water tank water-logging, has further reduced the waste of water resource.

Optionally, irrigation equipment is including irrigating head, immersible pump and water pipe, and the immersible pump is located the storage water tank, immersible pump and storage water tank inner wall fixed connection, and the immersible pump is connected with the power supply mechanism who is used for the immersible pump power supply, and water pipe one end and the delivery port fixed connection and the intercommunication of immersible pump, the other end wear out behind the storage water tank with irrigate head fixed connection and intercommunication.

Through adopting above-mentioned technical scheme, when using irrigation equipment to irrigate the work, start the immersible pump, under the effect of immersible pump, water in the storage water tank is supplied with for the irrigation head along the water pipe to utilize the irrigation head to irrigate the plant, protected the environment, thereby realized the use to the interior rainwater of storage water tank, improved the utilization ratio of rainwater, improved the convenience of irrigating simultaneously, reduced intensity of labour.

Optionally, the power supply mechanism includes solar panel, photoelectric converter and supplies the battery, solar panel and roof fixed connection, and photoelectric converter is located between solar panel and the battery of supplying, and photoelectric converter and solar panel all are connected with the battery of supplying, supply battery and wall fixed connection, supply the battery to be connected with the immersible pump simultaneously.

Through adopting above-mentioned technical scheme, utilize solar panel absorption light energy, photoelectric converter is the electric energy with absorptive light energy conversion to store in the power supply battery, then utilize the power supply battery to work the immersible pump, thereby realized the power supply to the immersible pump, realized energy-conserving effect simultaneously.

Optionally, the power supply battery is further connected with a wind fan, the wind fan is rotatably connected with the roof, a wind power converter is arranged between the wind fan and the power supply battery, and the wind power converter is connected with the wind fan and the power supply battery.

Through adopting above-mentioned technical scheme, when the wind, wind drive fan rotates, and photoelectric converter converts wind energy into the electric energy to store in the battery, improved the rate of utilization to natural resources, realized green energy-conserving purpose.

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

1. the rainwater is stored by the water storage tank and the irrigation device, so that the effect of saving water resources is achieved;

2. due to the arrangement of the guide grooves, the waste of rainwater at the edge of the roof is reduced, and water resources are further saved;

3. through the setting of solar panel, photoelectric converter and supply battery, convert light energy into the electric energy and store in the supply battery, utilize and supply the battery to supply power to the immersible pump, realized energy-conserving effect.

Drawings

FIG. 1 is a schematic structural view of a building body in an embodiment of the present application;

fig. 2 is a schematic sectional view of a water storage tank in the embodiment of the present application.

Description of reference numerals: 1. a building body; 11. a roof; 12. a wall; 2. a water storage tank; 21. a water inlet; 211. a one-way flow valve; 22. a water collecting hopper; 3. a guide groove; 31. an opening; 32. a flow guiding edge; 4. an irrigation device; 41. an irrigation head; 411. a support bar; 42. a submersible pump; 43. a water pipe; 5. a power supply mechanism; 51. a light energy power supply assembly; 511. a solar panel; 512. a photoelectric converter; 52. a wind energy powered assembly; 521. a wind power fan; 5211. a vertical rod; 5212. a base; 522. a wind power converter; 53. for the battery.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a green environment-friendly energy-saving building. Referring to fig. 1, a green environment-friendly energy-saving building includes that the level sets up in building body 1 on ground, and building body 1 includes roof 11 and wall 12, and the lateral wall is other to be provided with storage water tank 2, is provided with guide way 3 between storage water tank 2 and the roof 11, guide way 3 and lateral wall fixed connection, guide way 3 and storage water tank 2 intercommunication, and storage water tank 2 is connected with irrigation equipment 4, is provided with power supply mechanism 5 between irrigation equipment 4 and building body 1. When raining, the rainwater that falls on roof 11 flows to guide way 3 along roof 11 in, later the rainwater flows to storage water tank 2 along guide way 3 in, storage water tank 2 stores the rainwater, later utilizes power supply mechanism 5 to supply power to irrigation equipment 4, and irrigation equipment 4 utilizes the water in the storage water tank 2 to irrigate the plant, and then has realized the use to the rainwater resource after storing the rainwater, reaches the effect of water economy resource.

Referring to fig. 1, two sides of the roof 11 along the length direction of the building body 1 are inclined away from the middle of the roof 11, two sides of the roof 11 are the bottom end of the roof 11, the middle of the roof 11 is the top end of the roof 11, and the cross section of the roof 11 is an inverted V-shape. The rainwater falling to the roof 11 falls down to both side bottom ends along the roof 11 under the action of gravity.

Referring to fig. 1 and 2, two water storage tanks 2 are horizontally arranged, the two water storage tanks 2 are respectively arranged on two sides of a building body 1 along the width direction, the bottom ends of the water storage tanks 2 are fixedly connected with the ground, the side walls of the water storage tanks 2 close to the building body 1 are fixedly connected with a wall 12, the two water storage tanks 2 are symmetrically arranged along the central axis of the building body 1, the top ends of the water storage tanks 2 are horizontally provided with water inlets 21, the water inlets 21 are arranged along the length direction of the building body 1, one-way flow valves 211 are arranged at the water inlets 21, the one-way flow valves 211 only allow external water flow to enter the water storage tanks 2, water collecting hoppers 22 are arranged at the edges of the water inlets 21, the water collecting hoppers 22 are horizontally arranged, the water collecting hoppers 22 are arranged along the length direction of the building body 1 and have structures with openings 31 at the top ends and the bottom ends, and the areas of the openings 31 at the top ends of the water collecting hoppers 22 are larger than the areas of the openings 31 at the bottom ends of the water collecting hoppers 22, the top end of the water collecting hopper 22 is aligned with the edge of the roof 11 in the length direction, the bottom end of the water collecting hopper 22 is communicated with the water inlet 21, and the bottom end of the water collecting hopper 22 is fixedly connected and communicated with the top end of the water storage tank 2.

When raining, rainwater falls into the water collecting hopper 22 along the roof 11, the water collecting hopper 22 increases the area of the water storage tank 2 for receiving rainwater, and then the rainwater passes through the one-way flow valve 211 to enter the water storage tank 2 for storage, so that the rainwater is stored, and the effect of saving water resources is achieved; the one-way flow valve 211 limits the flowing direction of the rainwater, so that the overflow of the rainwater from the water inlet 21 in the water storage tank 2 is reduced, the water resource is further saved, and the waste of the water resource is reduced.

Referring to fig. 1 and 2, two guide grooves 3 are vertically arranged, two guide grooves 3 are respectively arranged on the side walls where two water storage tanks 2 are located, the guide grooves 3 are fixedly connected with a wall 12 near one side of a building body 1, the guide grooves 3 are arranged along the length direction of the building body 1, the guide grooves 3 are close to the bottom end of a roof 11, the guide grooves 3 are aligned with the edges of the roof 11, two sides of the guide grooves 3 along the length direction are arranged in a closed state, two ends of the guide grooves 3 incline towards the middle along the direction far away from the roof 11, the bottom end of the guide grooves 3 is arranged as a platform horizontally arranged, an opening 31 is vertically arranged at one side of the bottom end of the guide grooves 3 far away from the wall 12, the bottom wall of the opening 31 penetrates through the inner wall of the guide grooves 3, the side wall at the bottom end of the opening 31 is flush with the bottom wall of the guide grooves 3, a flow guide edge 32 is arranged at one side of the opening 31 far away from the wall 12, and the flow guide edge 32 is inclined, the top end of the guide edge 32 is fixedly connected with the outer side wall of the guide groove 3 where the opening 31 is located, the top end of the guide edge 32 is communicated with the opening 31, the bottom end of the guide edge 32 is far away from the guide groove 3, and the bottom end of the guide edge 32 is aligned with the water inlet 21 in the vertical direction.

The rainwater that falls on roof 11 falls to guide way 3 along roof 11 in, the rainwater is under the effect of gravity in the 3 both ends of guide way, slide to being close to the intermediate position along 3 diapire of guide way, the rainwater flows from opening 31, the rainwater flows out guide way 3 along 32 along the water conservancy diversion, later the rainwater falls to water collecting bucket 22 in along 32 bottoms from the water conservancy diversion, later pass water inlet 21 get into in storage water tank 2, and then realized the collection to roof 11 rainwater, the waste of rainwater has been reduced.

Referring to fig. 1 and 2, irrigation equipment 4 is located storage water tank 2 and keeps away from building body 1 one side, irrigation equipment 4 includes irrigation head 41, water pipe 43 and immersible pump 42, immersible pump 42 level sets up in storage water tank 2, immersible pump 42 bottom and 2 diapire fixed connection of storage water tank, immersible pump 42 is connected with power supply mechanism 5, irrigation head 41 sets up outside storage water tank 2, vertically be provided with bracing piece 411 between irrigation head 41 and the ground, bracing piece 411 bottom and ground fixed connection, bracing piece 411 top and irrigation head 41 fixed connection, water pipe 43 sets up between irrigation head 41 and immersible pump 42, water pipe 43 one end and immersible pump 42's delivery port fixed connection and intercommunication, the other end passes behind 2 lateral walls of storage water tank and irrigates head 41 fixed connection and intercommunication,

water pipe

43 and 2 sealing connection of storage water tank.

When utilizing irrigation equipment 4 to use the rainwater in the storage water tank 2, start power supply mechanism 5 and supply power to immersible pump 42, under immersible pump 42's effect, during rainwater entering immersible pump 42 in the storage water tank 2, later in the rainwater passed immersible pump 42 admission pipe 43, the rainwater flowed to irrigation head 41 along water pipe 43, and at irrigation head 41 blowout, supply moisture to the plant that needs irrigate, thereby realized the use to storing the rainwater, improved the utilization ratio of water resource.

Referring to fig. 1, the power supply mechanism 5 includes a light energy power supply assembly 51, a wind energy power supply assembly 52 and a power supply battery 53, the power supply battery 53 is horizontally disposed on the side wall of the building body 1 in the width direction, the waterproof performance of the power supply battery 53 is high, the power supply battery 53 is fixedly connected with the wall 12, and the power supply end of the power supply battery 53 is connected with the submersible pump 42 through an electric wire. The light energy and the wind energy are respectively converted into the electric energy through the light energy power supply component 51 and the wind energy power supply component 52, the electric energy is stored in the battery 53, and the battery 53 is utilized to supply power to the submersible pump 42, so that the aims of environmental protection and energy saving are fulfilled.

Referring to fig. 1, the light energy power supply module 51 includes two solar panels 511 and two photoelectric converters 512, the two solar panels 511 are disposed along top ends of two symmetrical sides of the roof 11, the solar panels 511 are fixedly connected to the top of the roof 11, the photoelectric converters 512 are disposed between the solar panels 511 and the power supply battery 53, the photoelectric converters 512 are respectively connected to output ends of the solar panels 511 and input ends of the power supply battery 53 through wires, the photoelectric converters 512 are horizontally disposed on top ends of the power supply battery 53, and a bottom end of a housing of the photoelectric converters 512 is fixedly connected to a top end of the power supply battery 53.

The solar panel 511 is used for absorbing light energy and converting the light energy into electric energy through the photoelectric converter 512, and storing the electric energy in the power supply cell 53.

Referring to fig. 1, the wind energy power supply assembly 52 includes a wind fan 521 and a wind power converter 522, a vertical rod 5211 is disposed between the wind fan 521 and the top end of the roof 11, the vertical rod 5211 is vertically disposed between the two solar panels 511, five vertical rods 5211 are disposed, five vertical rods 5211 are uniformly disposed along a straight line of the top end of the roof 11 along the length direction, a base 5212 is horizontally disposed between the bottom end of the vertical rod 5211 and the top end of the roof 11, the bottom end of the base 5212 is fixedly connected with the top end of the roof 11, the top end of the base 5212 is rotatably connected with the bottom end of the vertical rod 5211, the wind fan 521 is vertically disposed in a plate shape, the wind fan 521 is sleeved on the top end of the vertical rod 5211, the wind fan 521 is fixedly connected with the top end of the vertical rod 5211, two side edges of the wind fan 521 are symmetrically disposed along the vertical rod 5211 as a central axis, the wind power converter is disposed between the wind fan 521 and the power supply battery 53, the wind power converter 522 is respectively connected with the output end of the base 5212 and the input end of the power supply battery 53 through electric wires, wind power converter 522 is horizontally arranged at the top end of power supply battery 53, and the bottom end of the outer shell of wind power converter 522 is fixedly connected with the top end of power supply battery 53.

The external wind power drives the wind fan 521 to rotate, and the wind energy is converted into electric energy through the matching of the wind power converter 522 and the wind fan 521 and stored in the power supply battery 53, so that the use of the wind energy is realized.

The implementation principle of the green environment-friendly energy-saving building in the embodiment of the application is as follows: after the environment-friendly and energy-saving building is built, external sunlight and wind power are converted into electric energy and stored in the power supply battery 53 under the action of the light energy power supply assembly 51 and the wind energy power supply assembly 52 respectively, when raining, rainwater falling on the roof 11 flows into the guide groove 3 along the roof 11, then the rainwater flows along the bottom wall of the guide groove 3 and is placed at the opening 31, then the rainwater drips into the water collecting hopper 22 from the diversion edge 32, then the rainwater passes through the one-way flow valve 211 and then enters the water storage tank 2, when the weather is hot, the power supply battery 53 is started to supply power to the submersible pump 42, and under the action of the submersible pump 42, the rainwater in the water storage tank 2 is sprayed out from the irrigation head 41 along the water pipe 43 to supplement moisture to plants to be irrigated, so that the purposes of environment protection and energy saving are achieved.

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

1. The utility model provides a green energy-conserving building which characterized in that: including building body (1), building body (1) includes roof (11) and wall (12), roof (11) and wall (12) fixed connection, wall (12) department is provided with storage water tank (2) that are used for storing the rainwater, storage water tank (2) align with the border of roof (11), water inlet (21) have been seted up in storage water tank (2), water inlet (21) diapire runs through storage water tank (2) inner wall, storage water tank (2) are connected with and are used for using rainwater to carry out irrigation device (4) irrigate in storage water tank (2).

2. The environment-friendly energy-saving building as claimed in claim 1, wherein: the roof is characterized in that a guide groove (3) is formed in the edge of the roof (11), the guide groove (3) is fixedly connected with the wall (12), and the guide groove (3) is communicated with the water inlet (21).

3. The environment-friendly energy-saving building as claimed in claim 2, wherein: the two ends of the guide groove (3) are obliquely arranged towards the middle, the middle of the guide groove (3) is positioned at the two ends of the guide groove (3) and far away from one side of the roof (11), and an opening (31) is arranged in the middle of the guide groove (3).

4. The environment-friendly energy-saving building as claimed in claim 3, wherein: the opening (31) is provided with a flow guide edge (32), one end of the flow guide edge (32) is fixedly connected with the guide groove (3), the other end of the flow guide edge inclines towards the direction close to the water storage tank (2), and one end of the flow guide edge (32), which is far away from the guide groove (3), is aligned with the water inlet (21).

5. The environment-friendly energy-saving building as claimed in claim 1, wherein: the water inlet (21) is provided with a one-way flow valve (211) which only allows water flow to flow from the outside to the water storage tank (2) in one way.

6. The environment-friendly energy-saving building as claimed in claim 1, wherein: irrigation equipment (4) are including irrigating head (41), immersible pump (42) and water pipe (43), and immersible pump (42) are located storage water tank (2), immersible pump (42) and storage water tank (2) inner wall fixed connection, and immersible pump (42) are connected with power supply mechanism (5) that are used for immersible pump (42) power supply, and delivery port fixed connection and the intercommunication of water pipe (43) one end and immersible pump (42), and the other end is worn out behind storage water tank (2) and is irrigated head (41) fixed connection and intercommunication.

7. The environment-friendly energy-saving building as claimed in claim 6, wherein: the power supply mechanism (5) comprises a solar panel (511), a photoelectric converter (512) and a power supply battery (53), the solar panel (511) is fixedly connected with the roof (11), the photoelectric converter (512) is located between the solar panel (511) and the power supply battery (53), the photoelectric converter (512) and the solar panel (511) are both connected with the power supply battery (53), the power supply battery (53) is fixedly connected with the wall (12), and the power supply battery (53) is connected with the submersible pump (42).

8. The environment-friendly energy-saving building as claimed in claim 7, wherein: supply battery (53) still to be connected with wind-force fan (521), wind-force fan (521) rotate with roof (11) to be connected, are provided with wind-powered electricity generation converter (522) between wind-force fan (521) and supply battery (53), and wind-powered electricity generation converter (522) all are connected with wind-force fan (521) and supply battery (53).