CN113250274A - Solar environment-friendly energy-saving building system and energy-saving method thereof - Google Patents

Abstract

The invention discloses a solar energy environment-friendly energy-saving building system and an energy-saving method thereof, belonging to the field of building system energy conservation, the solar energy environment-friendly energy-saving building system and the energy-saving method thereof comprise main walls and side walls, wherein the main walls and the side walls form a main building structure, the two side walls are arranged at two sides of the two main walls, the tops of the two main walls are sequentially supported and provided with a floor slab A and a top plate A, the top plate A is positioned above the floor slab A, a floor slab B is arranged between the side walls at two sides and the main walls, and the tops of the side walls and the main walls are obliquely provided with the top plate B, and the solar energy environment-friendly energy-saving building system is characterized in that: the floor A and the top plate A are combined to form a circulating interlayer, the floor B and the top plate B are combined to form an energy supply interlayer, a rainwater collecting system is arranged below the ground below the building structure, a good circulating path can be achieved, rainwater is collected, circulating flow cooling is achieved, water is pumped by a solar panel for power generation and energy supply, a good circulating effect is formed, and the energy-saving system is integrated.

Description

Solar environment-friendly energy-saving building system and energy-saving method thereof

Technical Field

The invention relates to the field of energy conservation of building systems, in particular to a solar environment-friendly energy-saving building system and an energy conservation method thereof.

Background

The energy-saving building is a basic method following climate design and energy saving, low-energy-consumption building is designed after research is carried out on building planning subareas, groups and monomers, building orientation, space, solar radiation, wind direction and external space environment, aiming at the current situation that the traditional design mode is difficult to adapt to the design requirement of the ecological energy-saving building, and by combining international reference to foreign experience, an 'integration design' concept is introduced, namely, a professional for ecological energy saving starts to intervene in the initial design scheme stage, a primary ecological energy-saving scheme is provided, and in subsequent design, various specialties such as building, landscape planning, structure, heating, ventilation, air conditioning, water supply and drainage, building electrical and building control, indoor design and the like are synthesized, and a complete set of ecological energy-saving system is formed by organically integrating and closely cooperating and comprehensively adopting mature high and new technologies and products.

An important link in the process is the design of the whole energy balance system of the building, designers use a computer software system to carry out simulation calculation on indoor and outdoor thermal environments and energy balance of the future building, and provide basis for the further professional deepening design of the next step, wherein the energy-saving system is also very important for the utilization of building space, and can not occupy too much living space or use too much green land for planting.

Disclosure of Invention

1. Technical problem to be solved

The invention aims to provide a solar energy environment-friendly energy-saving building system and an energy-saving method thereof, which can realize a good circulation path, wherein rainwater collection and circulating flow cooling are performed by a solar panel to generate power and supply water to a water pump to pump water, so that a good circulation effect is formed, and an energy-saving system is integrated.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a solar energy environmental protection and energy saving building system and energy-conserving method thereof, includes main wall and side wall, main wall and side wall form main part building structure, two the side wall sets up two main wall both sides, two the top of main wall supports in proper order and is provided with floor A and roof A, roof A is located floor A's top, both sides be provided with floor B between side wall and the main wall, the top slope of side wall and main wall is provided with roof B, floor A and roof A combination form the circulation intermediate layer, floor B and roof B combination form the energy supply intermediate layer, building structure's below is located the below ground and is provided with rainwater collection system.

Further, solar panel is installed at roof B's top, the interbedded inside of energy supply is provided with the accumulate module, solar panel passes through the line connection with the accumulate module.

Further, be provided with between floor A and the roof A and be used for the brace a that supports, roof A's top corresponds brace a and has seted up the drainage gutter, two drainage holes have been seted up along the axial of drainage gutter on the brace a, one side that corresponds the drainage hole on the main building structure is provided with the rainwater fill.

Furthermore, a circulating water channel is installed at one end, opposite to the drainage hole, of the drainage gutter, an outlet at one end of the circulating water channel is located in a groove of the drainage gutter, and the other end of the circulating water channel extends downwards and is arranged on the water pump.

Further, the inside one side of circulation intermediate layer is provided with "Z" shape pipe of bending, has seted up two corresponding holes in the ditch groove of drainage gutter, the one end of the pipe of bending corresponds the corresponding hole installation, and the other end of the pipe of bending is buckled the tortuous extension and is formed "S" shape return bend, the tail end correspondence of "S" shape return bend is run through prop a and extend and the rainwater fill intercommunication in the inside of drainage eye, the pipe of bending forms the circulating line with the return bend combination.

Furthermore, the circulating interlayer is divided into two symmetrical spaces by the support columns a, and the circulating pipelines are symmetrically arranged in the circulating interlayer.

Further, rainwater collection system is including rainwater purifying tube, sedimentation pipe, water storage module and purification jar, main building structure's rainwater is collected through the pipeline and is arranged to the inside of rainwater purifying tube, sedimentation pipe, water storage module and purification jar loop through the pipe connection, the top of purification jar is provided with the pipeline and is connected with the water pump, the circulation water course passes through the water pump with the purification jar and is connected.

Further, the inside of sedimentation pipe and the pipeline intercommunication port of water storage module are provided with the arc filter screen.

Furthermore, the interior of the rainwater purification pipe is provided with a spiral drainage channel, a downward inclined channel is arranged at the position, close to the bottom, of the drainage channel, a protruding check plate is arranged in the channel, and the channel bends and extends upwards to form the cleaning pipe.

The patent also provides an energy-saving method of the solar environment-friendly energy-saving building system, which comprises the following steps:

s1: along with the change of weather, when the rain falls in rainy days, the drainage gutter and the rainwater hopper on the roof collect and discharge the rainwater to the rainwater purification pipe.

S2: the rainwater carries out the prefilter through rainwater purifying tube, and the prefilter rainwater is discharged into the inside of draining into water storage module through the sedimentation tube sediment, and water storage module and purifying tank intercommunication when needs use, the water pump will purify the inside water of jar and take out row to the drainage gutter in, rivers to the circulating line in the drainage gutter are retrieving via the rainwater fill, accomplish the circulation.

S3: the water pump is used for pumping water and is powered by the solar panel.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme, the rainwater is during through the drain of spiral, because rotatory discharge produces centrifugal force, centrifugal force throws away the gravel that the quality is heavier to the edge, when rainwater area gravel through the passageway, with the inside of gravel stone discharge passageway, outstanding non-return plate can avoid the rainwater to lead to driving gravel stone to flow backward against the current, buckle upwards to extend and form the clearance pipe, the clearance pipe extends to the earth's surface, the inside gravel of the periodic cleaning passageway of being convenient for.

(2) This scheme, prefilter 'S rainwater is gone into through the inside that the sedimentation tube deposits and discharges into water storage module, water storage module and purifying tank intercommunication, when needs use, the water pump will purify the inside water of jar and take out row to the drainage gutter in, rivers to circulating line in the drainage gutter, "S" shape return bend at utmost will circulate intermediate layer inner space and fill up, improve indoor lowering the temperature' S effect, retrieve via the rainwater fill, the completion circulation, wherein, the rainwater is collected, the circulation is flowed and is supplied the water pump extraction by solar panel electricity generation energy supply water, form benign circulation effect, make energy-saving system complete, it is integrated.

Drawings

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

FIG. 2 is a schematic structural view of the front face of the main building structure of the present invention;

FIG. 3 is a schematic view of the back structure of the main building structure of the present invention;

FIG. 4 is a schematic view of a cyclic sandwich structure of the present invention;

FIG. 5 is a schematic sectional view of the rainwater purification pipe according to the present invention;

FIG. 6 is a schematic cross-sectional view of a settling tube according to the present invention;

fig. 7 is a schematic view of the drainage eaves structure of the invention.

The reference numbers in the figures illustrate:

1. a main wall; 2. a side wall; 3. a floor slab A; 4. a top plate A; 5. a floor slab B; 6. a top plate B; 7. circulating the interlayer; 701. bending the pipe; 702. bending the pipe; 8. an energy supply interlayer; 9. a rainwater collection system; 10. a solar panel; 11. an electricity storage module; 12. draining a gutter; 13. a drainage hole; 14. a rainwater hopper; 15. a circulating water channel; 16. a water pump; 17. a rainwater purification pipe; 18. a settling tube; 19. a filter screen; 20. a water storage module; 21. a purification tank; 22. a water drain; 24. a channel; 25. a backstop plate; 26. and (6) cleaning the pipe.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Example 1:

referring to fig. 1-7, a solar energy environment-friendly and energy-saving building system and an energy-saving method thereof include a main wall 1 and side walls 2, the main wall 1 and the side walls 2 form a main building structure, the two side walls 2 are arranged on two sides of the two main walls 1, a floor slab A3 and a roof slab a4 are sequentially supported on the tops of the two main walls 1, the roof slab a4 is located above the floor slab A3, a floor slab B5 is arranged between the two side walls 2 and the main wall 1, a roof slab B6 is obliquely arranged on the tops of the side walls 2 and the main wall 1, the floor slab A3 and the roof slab a4 are combined to form a circulating interlayer 7, the floor slab B5 and the roof slab B6 are combined to form an energy supply interlayer 8, and a rainwater collection system 9 is arranged below the ground below the building structure.

Referring to fig. 2-3, a solar panel 10 is mounted on the top of the top plate B6, an electricity storage module 11 is disposed inside the energy supply interlayer 8, and the solar panel 10 is connected to the electricity storage module 11 through a circuit.

Referring to fig. 2, a brace a for supporting is disposed between the floor A3 and the roof a4, a drainage gutter 12 is disposed on the top of the roof a4 corresponding to the brace a, two drainage holes 13 are disposed on the brace a along the axial direction of the drainage gutter 12, and a rain scoop 14 is disposed on one side of the main building structure corresponding to the drainage holes 13.

Referring to fig. 3, a circulation water channel 15 is installed at an end of the drainage gutter 12 opposite to the drainage hole 13, an outlet at one end of the circulation water channel 15 is located in a groove of the drainage gutter 12, and the other end of the circulation water channel 15 extends downward and is disposed on a water pump 16.

Referring to fig. 4, a Z-shaped bent pipe 701 is disposed at one side of the interior of the circulating interlayer 7, two corresponding holes are formed in the groove of the drainage gutter 12, one end of the bent pipe 701 is installed corresponding to the corresponding hole, the other end of the bent pipe 701 is bent and extends in a zigzag manner to form an S-shaped bent pipe 702, the tail end of the S-shaped bent pipe 702 correspondingly penetrates through the strut a and extends inside the drainage eye 13 to communicate with the rainwater hopper 14, and the bent pipe 701 and the bent pipe 702 are combined to form a circulating pipeline.

Referring to fig. 2-3, the pillars a separate the circulating interlayer 7 into two symmetrical spaces, and the circulating pipes are symmetrically disposed in the circulating interlayer 7.

Referring to fig. 7, the rainwater collection system 9 includes a rainwater purification pipe 17, a precipitation pipe 18, a water storage module 20 and a purification tank 21, rainwater of the main building structure is collected and drained to the interior of the rainwater purification pipe 17 through a pipeline, the rainwater purification pipe 17, the precipitation pipe 18, the water storage module 20 and the purification tank 21 are sequentially connected through a pipeline, the top of the purification tank 21 is provided with a pipeline connected with a water pump 16, and a circulating water pipeline 15 is connected with the purification tank 21 through the water pump 16.

Referring to fig. 5, an arc-shaped filter screen 19 is disposed at a pipe communication port between the interior of the settling pipe 18 and the water storage module 20.

Referring to fig. 6, a spiral drainage channel 22 is disposed inside the rainwater purification pipe 17, a channel 24 inclined downward is disposed near the bottom of the spiral drainage channel 22, a protruding check plate 25 is disposed in the channel 24, the channel 24 bends and extends upward to form a cleaning pipe 26, when rainwater passes through the spiral drainage channel 22, centrifugal force is generated due to rotation discharge, gravel with heavy weight is thrown out to the edge by centrifugal force, when rainwater passes through the channel 24 with the gravel, the gravel is discharged into the channel 24, the protruding check plate 25 can prevent backflow of rainwater from driving the gravel to flow back, the channel bends and extends upward to form the cleaning pipe 26, and the cleaning pipe 26 extends to the ground surface, so as to clean the gravel inside the channel 24 regularly.

The patent also provides an energy-saving method of the solar environment-friendly energy-saving building system, which comprises the following steps:

s1: with the change of weather, when raining, the drainage gutter 12 and the rainwater hopper 14 on the roof collect and drain rainwater to the rainwater purification pipe 17.

S2: rainwater carries out the prefilter through rainwater purifying pipe 17, and the inside of water storage module 20 is arranged into through sedimentation pipe 18 sediment to the rainwater drainage of prefilter, and water storage module 20 and purifying tank 21 intercommunication, when needs use, water pump 16 takes the inside water of purifying tank 21 out and arranges to drainage gutter 12 in, rivers to the circulating line in the drainage gutter 12 are retrieving via rainwater fill 14, accomplish the circulation.

S3: the water pump 16 is powered by the solar panel 10 to pump water.

Example 2:

example 2 is different from example 1 in that:

the inside snow melting heat tracing band 27 that can also be provided with of eaves of drainage eaves, the interval is provided with a plurality of snow melting checkposts 28 on the snow melting heat tracing band 27, is provided with power terminal box 29 on the eaves of drainage eaves couple, and power terminal box 29 is connected with snow melting cable 30, and snow melting cable 30 extends to drainage pipe's inside and vertical downwards, when winter snow, is applicable to when temperature is lower, adopts two kinds of implementation schemes, more has the perfection.

The top of main wall 1 can also set up the spray pipe 31 of communicating with circulation water course 15 through the pipeline, (not shown in the figure) spray pipe 31 arranges and sets up a plurality of spray nozzle, and spray nozzle's coverage area is big, and it is many with the air area contact, has apparent cooling effect, cooperatees with circulation intermediate layer 7 inner loop pipe 701 of bending, can form the cooling effect of scope nature.

When in use: preliminary filtering' S rainwater is discharged and is deposited the inside of discharging into water storage module 20 through the sedimentation pipe 18, water storage module 20 communicates with purification tank 21, when needs use, water pump 16 takes the inside water of purification tank 21 out and arranges to in the drainage gutter 12, rivers to the circulating line in the drainage gutter 12, "S" shape return bend 702 is at utmost to be covered with circulation intermediate layer 7 inner space, improve the effect of indoor lowering temperature, retrieve via rainwater fill 14, accomplish the circulation, wherein, the rainwater is collected, the circulation is flowed the cooling and is supplied water pump 16 by solar panel 10 electricity generation energy supply, form benign circulation effect, make energy-saving system complete, it is holistic.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. The utility model provides a solar energy environmental protection and energy saving building system and energy-conserving method thereof, includes main wall (1) and side wall (2), main wall (1) and side wall (2) form main building structure, two side wall (2) set up two main wall (1) both sides, two the top of main wall (1) supports in proper order and is provided with floor A (3) and roof A (4), roof A (4) are located the top of floor A (3), both sides be provided with floor B (5) between side wall (2) and main wall (1), and side wall (2) are provided with roof B (6) with the top slope of main wall (1), its characterized in that: floor A (3) and roof A (4) combination form circulation intermediate layer (7), floor B (5) and roof B (6) combination form energy supply intermediate layer (8), building structure's below is located the below ground and is provided with rainwater collection system (9).

2. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 1, characterized in that: solar panel (10) are installed at the top of roof B (6), the inside of energy supply intermediate layer (8) is provided with accumulate module (11), solar panel (10) pass through the line connection with accumulate module (11).

3. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 1, characterized in that: be provided with between floor A (3) and roof A (4) and be used for the stay a that supports, drainage gutter (12) have been seted up to the top correspondence stay a of roof A (4), two drainage eyes (13) have been seted up along the axial of drainage gutter (12) on the stay a, one side that corresponds drainage eye (13) on the main building structure is provided with rainwater fill (14).

4. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 1, characterized in that: and a circulating water channel (15) is arranged at one end of the drainage gutter (12) opposite to the drainage hole (13), an outlet at one end of the circulating water channel (15) is positioned in the groove of the drainage gutter (12), and the other end of the circulating water channel (15) extends downwards and is arranged on the water pump (16).

5. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 1, characterized in that: the utility model discloses a rainwater drainage system, including circulation intermediate layer (7), the inside one side of circulation intermediate layer (7) is provided with "Z" shape pipe (701) of bending, has seted up two corresponding holes in the ditch groove of drainage gutter (12), the one end of pipe (701) of bending corresponds the installation of corresponding hole, and the other end of pipe (701) of bending is buckled the tortuous extension and is formed "S" shape return bend (702), the tail end correspondence of "S" shape return bend (702) is run through prop a and extend and rainwater fill (14) intercommunication in the inside of drainage eye (13), bend pipe (701) and return bend (702) combination formation circulating line.

6. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 5, characterized in that: the support column a separates the circulating interlayer (7) to form two symmetrical spaces, and the circulating pipelines are symmetrically arranged in the circulating interlayer (7).

7. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 1, characterized in that: rainwater collection system (9) are including rainwater purifying pipe (17), sedimentation pipe (18), water storage module (20) and purification tank (21), the rainwater of main building structure is collected through the pipeline and is arranged to the inside of rainwater purifying pipe (17), sedimentation pipe (18), water storage module (20) and purification tank (21) loop through the pipe connection, the top of purification tank (21) is provided with the pipeline and is connected with water pump (16), circulation water course (15) are passed through water pump (16) with purification tank (21) and are connected.

8. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 7, characterized in that: an arc-shaped filter screen (19) is arranged at the pipeline communication port of the interior of the sedimentation pipe (18) and the water storage module (20).

9. The solar energy environment-friendly energy-saving building system and the energy-saving method thereof according to claim 7, characterized in that: the interior of the rainwater purification pipe (17) is provided with a spiral drainage channel (22), the drainage channel (22) is provided with a channel (24) inclining downwards near the bottom, a protruding check plate (25) is arranged in the channel (24), and the channel (24) bends and extends upwards to form a cleaning pipe (26).

10. An energy-saving method of a solar energy environment-friendly energy-saving building system, comprising the solar energy environment-friendly energy-saving building system of any one of claims 1 to 9, characterized by comprising the following steps:

s1: along with the change of weather, when raining, the drainage gutter (12) and the rainwater hopper (14) on the roof collect and drain rainwater to the rainwater purification pipe (17).

S2: rainwater carries out the prefilter through rainwater purifying tube (17), the inside of water storage module (20) is arranged into through sedimentation tube (18) precipitation to the rainwater drainage of prefilter, water storage module (20) and purification tank (21) intercommunication, when needs use, water pump (16) are taken the inside water of purification tank (21) out and are arranged to drainage gutter (12) in, rivers to the circulating line in drainage gutter (12), retrieve via rainwater fill (14), accomplish the circulation.

S3: the water pump (16) pumps water and uses electricity to be generated by the solar panel (10) and then supplies power.

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