CN116005895A - Building energy-saving house with energy-saving roof - Google Patents

Abstract

The application relates to a building energy-saving house with an energy-saving roof, which comprises a house body, wherein the house body comprises a wall body and the energy-saving roof horizontally arranged at the top of the wall body, the energy-saving roof comprises an outer plate, a heat insulation plate and an inner-layer color steel plate which are sequentially arranged from top to bottom, the heat insulation plate comprises two cover plates which are arranged in parallel, a plurality of support columns arranged between the two cover plates and a frame arranged around the cover plates, and a water inlet and a water outlet are arranged on the heat insulation plate; the house body is provided with a rainwater collecting and supplying device which is used for collecting rainwater of the energy-saving roof and supplying water to the inside of the heat insulation plate; the energy-saving roof is also provided with a solar power generation device which is used for supplying power to the rainwater collecting and supplying device. This application has the effect of promoting indoor comfort level in the energy saving.

Description

Building energy-saving house with energy-saving roof

Technical Field

The application relates to the field of building construction, in particular to a building energy-saving house with an energy-saving roof.

Background

House construction refers to providing a user or investor with an entity to perform life, production, work or other activities at a planned design site. Some houses currently use color steel sandwich boards as energy-saving roofs, the color steel sandwich boards use sheet steel plates as outer wrapping materials, the heat transfer coefficient is large, and heat energy can be transferred from outdoor roof boards to indoor metal plates in a conduction mode through metal components such as steel side plates and connecting pieces, so that the heat preservation performance of the color steel sandwich boards is poor, and the indoor temperature in summer is overhigh.

In carrying out the present application, the inventors have found that at least the following problems exist in this technology: the indoor temperature is about 23 ℃ and the human body is more comfortable, when the outside air temperature is too high, the indoor temperature needs to be reduced through air conditioning equipment, the comfort of the human body is improved, and therefore a large amount of external energy is needed to realize temperature regulation, and energy waste is caused.

Disclosure of Invention

In order to improve the comfort level that the human body is in the room when the energy saving, this application provides a building energy-saving house with energy-conserving roof.

The application provides a building energy-saving house with energy-saving roof adopts following technical scheme:

the building energy-saving house with the energy-saving roof comprises a house body, wherein the house body comprises a wall body and the energy-saving roof horizontally arranged at the top of the wall body, the energy-saving roof comprises an outer plate, a heat insulation plate and an inner-layer color steel plate which are sequentially arranged from top to bottom, the heat insulation plate comprises two cover plates which are arranged in parallel, a plurality of support columns arranged between the two cover plates and a frame arranged around the cover plates, and a water inlet and a water outlet are arranged on the heat insulation plate;

the house body is provided with a rainwater collecting and supplying device which is used for collecting rainwater of the energy-saving roof and supplying water to the inside of the heat insulation plate;

the house body is also provided with a solar power generation device, and the solar power generation device is used for supplying power to the rainwater collecting and supplying device and electric equipment in the house body.

Through adopting above-mentioned technical scheme, utilize rainwater to collect feeding device to collect the rainwater that falls down in the rainy day and store, solar power system generates electricity and supply power to rainwater collection feeding device in the sunny day, rainwater collection feeding device supplies water to the heat insulating board is inside, makes heat insulating board partial space full of water, forms air bed and water layer from top to bottom in proper order in the heat insulating board is inside.

When receiving sunshine and shining, utilize the air bed to carry out the heat and separate, the inside water absorption of heat insulating board transmits the heat on the heat insulating board simultaneously, utilizes the great water absorption heat of specific heat capacity, reduces the heat of transmitting to on the various steel sheet of inlayer, makes the temperature of energy-conserving roof self drop, helps reducing indoor temperature, reduces the energy consumption when indoor refrigeration, finally promotes the human comfort level that is in indoor when the energy saving.

Optionally, the breakwater is arranged around the energy-saving roof, so that a water storage space is formed on the energy-saving roof, the rainwater collecting and supplying device comprises a water storage tank arranged inside the house body, a collecting water pipe communicated with the water storage tank and the water storage space, a water inlet pipe communicated with the water storage tank and the water inlet, a water pump arranged at the water inlet end of the water inlet pipe and a water return pipe communicated with the water outlet and the water storage tank, and a water outlet valve is arranged at the water outlet end of the water return pipe.

Through adopting above-mentioned technical scheme, utilize the breakwater to block the rainwater that falls on energy-conserving roof to make the rainwater flow into the storage water tank inside through collecting the water pipe, realize the collection to the rainwater. When needs are to supply water to the inside of the heat insulating plate, the water in the water storage tank is sent to the heat insulating plate through the water pump, and the water circulation is realized in the heat insulating plate in the continuous operation process of the water pump, so that the efficiency of temperature reduction is improved. Meanwhile, the rainwater can be reused after being collected, so that water resources are saved.

Optionally, the rainwater collecting and supplying device further comprises a controller, the house body is provided with a thermometer, and the thermometer, the water pump and the water outlet valve are all electrically connected to the controller.

Through adopting above-mentioned technical scheme, utilize the thermometer to measure the inside temperature of house body to control water pump and play water valve according to the inside temperature of house body, further promote indoor comfort level.

Optionally, the inside cooling water tank that still is provided with of house body, cooling water tank with the intercommunication has the condenser tube in the middle of the wet return, condenser tube goes into the water end and is provided with the valve, the inside of heat insulating board is provided with the temperature meter, the valve with the temperature meter all electricity connect in the controller.

Through adopting above-mentioned technical scheme, utilize the temperature meter to detect the inside temperature of heat insulating board, when the inside temperature of heat insulating board is too high, with signal transmission to the controller, the controller control goes out the water valve and closes, and valve and water pump are opened, makes the inside low temperature water inflow heat insulating board of storage water tank inside, and the inside water flow cooling water tank inside of heat insulating board cools off to reduce the inside possibility of direct entering storage water tank of the too high water of temperature, promote the heat absorption effect to the heat insulating board. After the water temperature in the water storage tank is reduced, the controller controls the valve to be closed, and the water outlet valve and the water pump are controlled to be opened and closed according to the situation.

Optionally, wear to be equipped with a plurality of fin on the coolant tank, the fin extends to the coolant tank is outside, be close to on the wall body coolant tank's position is provided with the air exhauster, the income wind end of air exhauster is towards coolant tank.

Through adopting above-mentioned technical scheme, during the air exhauster work, produce by indoor outside air current at cooling water tank periphery, the air current dispels the heat to the fin when the fin to the inside water of water tank cools down. Simultaneously, the exhaust fan generates air flow indoors during working, and has the effect of cooling indoors.

Optionally, the solar power generation device includes setting up a plurality of solar support on energy-conserving roof, setting up photovoltaic power generation board on the solar support and setting up the inside battery of house body, photovoltaic power generation board with the battery electricity is connected, the battery with the rainwater is collected and is supplied with the device electricity and is connected.

Through adopting above-mentioned technical scheme, utilize the photovoltaic power generation board to generate electricity to wait to use with electric energy storage in the battery is inside, reaches the effect of energy saving. Meanwhile, the photovoltaic power generation plate can shade the energy-saving roof, so that heat of direct sunlight on the energy-saving roof is reduced.

Optionally, a heat insulation pad is arranged between the outer plate and the heat insulation plate, and the periphery of the outer plate extends out of the heat insulation plate.

Through adopting above-mentioned technical scheme, utilize the heat insulating mattress to reduce the heat that the planking transmitted to on the heat insulating board, and the light shield is carried out to the heat insulating board around the planking, makes the heat insulating board avoid the direct injection of sunshine.

Optionally, a portion of the outer plate extending out of the heat insulation plate is bent downward.

Through adopting above-mentioned technical scheme, with the part of the extension heat insulating board of planking downwards bending, can promote the sunshade effect of planking, also play the effect of sunshade to inlayer color steel board, play the effect of shielding rain to the part of planking below simultaneously, reduce the possibility that energy-conserving roof is inside intaking, promote the life of energy-conserving roof.

Optionally, a plurality of ventilation valves are arranged on the frame at positions close to the outer plate.

By adopting the technical scheme, when the air temperature rises and the gas in the heat insulation plate expands, the gas is discharged out of the heat insulation plate by using the vent valve, so that the possibility of deformation of the heat insulation plate is reduced.

Optionally, reinforcing sheets are arranged at two ends of each supporting column.

Through adopting above-mentioned technical scheme, utilize the reinforcement piece to promote the joint strength of support column and apron to promote the ability of support column self anti-deformation, thereby make heat insulating board body intensity better, work is more stable.

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

1. the rainwater collecting and supplying device is used for collecting and storing the rainwater falling in the rainy days, the solar power generation device generates power in the sunny days and supplies power to the rainwater collecting and supplying device, the rainwater collecting and supplying device supplies water to the inside of the heat insulation plate, so that part of the space of the heat insulation plate is filled with water, and an air layer and a water layer are sequentially formed in the heat insulation plate from top to bottom; when the solar energy is irradiated, the air layer is utilized for heat isolation, meanwhile, the water in the heat insulation plate absorbs the heat transferred to the heat insulation plate, the water with larger specific heat capacity is utilized for absorbing the heat, the heat transferred to the inner color steel plate is reduced, the temperature of the energy-saving roof is reduced, the indoor temperature is reduced, the energy consumption during indoor refrigeration is reduced, and finally, the comfort level of a human body in an indoor environment is improved while the energy is saved;

2. the rainwater falling on the energy-saving roof is blocked by the water baffle, so that the rainwater flows into the water storage tank through the water collecting pipe, and the rainwater is collected. When water is required to be supplied to the inside of the heat insulation plate, the water pump in the water storage tank is conveyed to the heat insulation plate through the water pump, and water circulation is realized in the heat insulation plate in the continuous running process of the water pump, so that the efficiency of cooling is improved;

3. when the exhaust fan works, air flow from indoor to outdoor is generated at the periphery of the cooling water tank, and the air flow dissipates heat to the cooling fins when passing through the cooling fins, so that water in the water tank is cooled. Simultaneously, the exhaust fan generates air flow indoors during working, and has the effect of cooling indoors.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic diagram of an energy efficient roof structure embodied in an embodiment of the present application.

Fig. 3 is a schematic view showing a structure of a rainwater collecting and supplying device in an embodiment of the present application.

Reference numerals illustrate:

1. a house body; 11. a thermometer; 12. placing a plate; 2. a wall body; 21. an exhaust fan; 3. energy-saving roof; 31. a water baffle; 32. a water storage space; 4. an outer plate; 41. a heat insulating mat; 5. a heat insulating plate; 51. a cover plate; 52. a support column; 521. a reinforcing sheet; 53. a frame; 531. a vent valve; 54. a water inlet; 55. a water outlet; 56. a water temperature meter; 6. an inner color steel plate; 7. a rainwater collecting and supplying device; 71. a water storage tank; 72. a collecting water pipe; 73. a water inlet pipe; 74. a water pump; 75. a water return pipe; 76. a water outlet valve; 77. a controller; 81. a cooling water tank; 811. a heat sink; 82. a cooling water pipe; 83. a valve; 84. a pipe; 85. a communication valve; 9. a solar power generation device; 91. a solar energy support; 92. a photovoltaic power generation panel; 93. and a storage battery.

Detailed Description

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

The embodiment of the application discloses a building energy-saving house with an energy-saving roof.

Referring to fig. 1, a building energy-saving house with an energy-saving roof includes a house body 1, the house body 1 includes a wall body 2 and an energy-saving roof 3, the energy-saving roof 3 is horizontally disposed at the top of the wall body 2, and the energy-saving roof 3 includes an outer plate 4, a heat insulation plate 5 and an inner color steel plate 6 which are sequentially disposed from top to bottom. The house body 1 is provided with the rainwater collecting and supplying device 7 and the solar power generation device 9, the solar power generation device 9 is used for generating power and storing the power, the rainwater collecting and supplying device 7 is used for collecting rainwater, and the rainwater collecting and supplying device 7 is used for supplying water to the inside of the heat insulation plate 5 when the weather is hot, so that the temperature of the energy-saving roof 3 is reduced, and the comfort level of a human body in a room is improved while the energy is saved.

Referring to fig. 1 and 2, an inner color steel plate 6 is fixedly arranged on a wall 2, a heat insulation plate 5 is fixedly connected to the inner color steel plate 6, the heat insulation plate 5 comprises cover plates 51, support columns 52 and frames 53, two cover plates 51 are horizontally arranged, a plurality of support columns 52 are arranged between the two cover plates 51, reinforcing sheets 521 are fixedly arranged at two ends of each support column 52, and the reinforcing sheets 521 are fixedly connected with the cover plates 51. The frame 53 is fixedly disposed around the cover plates 51, and the frame 53 seals a space between the two cover plates 51.

Referring to fig. 2, a water inlet 54 is formed in the heat insulation board 5, a water outlet 55 is formed in one side, far away from the water inlet 54, of the heat insulation board 5, and the water inlet 54 and the water outlet 55 are both located at the position, close to the inner color steel plate 6, of the heat insulation board 5. The water is supplied to the inside of the heat insulation plate 5 through the water inlet 54, so that a half of the space inside the heat insulation plate 5 is filled with water, the heat insulation is performed by utilizing an air layer, and meanwhile, the water inside the heat insulation plate 5 absorbs the heat transferred to the heat insulation plate 5, so that the heat insulation plate 5 has a good heat insulation effect.

Referring to fig. 2, the outer panel 4 extends around the heat insulation panel 5, and the portion extending out of the heat insulation panel 5 is bent downward, thereby having a sunshade effect on the heat insulation panel 5 and the inner color steel panel 6. A heat insulation pad 41 is adhered between the outer plate 4 and the heat insulation plate 5, the heat insulation pad 41 is a sponge pad, and heat on the outer plate 4 is insulated by the heat insulation pad 41.

Referring to fig. 2, when the air temperature is too high, the thermal insulation board 5 may be deformed due to expansion of air inside the thermal insulation board 5, and in order to facilitate the expanded air discharge, a plurality of vent valves 531 are fixedly arranged at positions, close to the outer board 4, on the frame 53, the vent valves 531 are assembled by adopting automatic vent valves 531 purchased in the prior art, so that the air discharge inside the thermal insulation board 5 is facilitated, and the possibility of deformation of the thermal insulation board 5 is reduced.

Referring to fig. 1 and 3, a water baffle 31 is fixedly provided around the top of the energy-saving roof 3, so that a water storage space 32 is formed on the energy-saving roof 3. The rainwater collecting and supplying device 7 comprises a water storage tank 71, a water collecting pipe 72, a water inlet pipe 73, a water pump 74, a water return pipe 75 and a controller 77, wherein a placing plate 12 is fixedly arranged at a position, close to the energy-saving roof 3, inside the house body 1, the water storage tank 71 is placed on the placing plate 12, one end of the water collecting pipe 72 penetrates through the water baffle 31 and is communicated with the inside of the water storage space 32, and the other end of the water collecting pipe 72 is communicated with the water storage tank 71.

Referring to fig. 2 and 3, a water inlet pipe 73 communicates the water storage tank 71 with the water inlet 54, a water pump 74 is provided at a water inlet end of the water inlet pipe 73, and the water pump 74 is fixedly connected to the placement plate 12. The water return pipe 75 is communicated with the water outlet 55 and the water storage tank 71, and a water outlet valve 76 is arranged at the water outlet end of the water return pipe 75.

Referring to fig. 2 and 3, a thermometer 11 is fixedly arranged in the house body 1, the thermometer 11, a water outlet valve 76 and a water pump 74 are electrically connected with a controller 77, the thermometer 11 is used for detecting indoor temperature and transmitting signals to the controller 77, the controller 77 controls the working states of the water pump 74 and the water outlet valve 76, and when the indoor temperature is too high, water circulation is realized in the heat insulation board 5 in time, so that the energy-saving roof 3 is cooled rapidly.

Referring to fig. 2 and 3, in order to cool down the hot water flowing out of the heat insulation board 5 on a hot day, a water temperature gauge 56 is fixedly provided inside the heat insulation board 5, a cooling water tank 81 is placed on the placement board 12, a pipe 84 is communicated between the cooling water tank 81 and the water storage tank 71, and a communication valve 85 is provided in the middle of the pipe 84, and after the communication valve 85 is opened, the cooling water tank 81 is communicated with the water storage tank 71. The cooling water tank 81 is communicated with the middle position of the water return pipe 75, a cooling water pipe 82 is arranged at the water inlet end of the cooling water pipe 82, and a communication valve 85, the valve 83 and the water temperature meter 56 are all electrically connected to the controller 77. The water temperature inside the heat shield 5 is detected by the water temperature meter 56, and the controller 77 controls the opening and closing of the water outlet valve 76 and the valve 83 according to the water temperature inside the heat shield 5, and adjusts the flow path of rainwater to allow high-temperature water to flow into the cooling water tank 81 for cooling.

Referring to fig. 3, a plurality of cooling fins 811 are fixedly provided in the cooling water tank 81, the cooling fins 811 extend to the outside of the cooling water tank 81, and an exhaust fan 21 is fixedly provided on the wall 2 at a position close to the cooling water tank 81, and the air inlet end of the exhaust fan 21 faces the cooling water tank 81. The air exhauster 21 is electrically connected with the controller 77, and when high-temperature rainwater enters the cooling water tank 81, the controller 77 controls the air exhauster 21 to start, accelerates the air flow around the cooling water tank 81, and cools the cooling water tank 81.

Referring to fig. 1 and 3, the solar power generation device 9 includes a solar support 91, a photovoltaic power generation panel 92 and a storage battery 93, the solar support 91 is fixedly provided with a plurality of on the energy-saving roof 3, each solar support 91 is fixedly provided with the photovoltaic power generation panel 92, the storage battery 93 is fixedly arranged inside the house body 1, and the storage battery 93 is electrically connected with electric equipment inside the house body 1. The photovoltaic power generation plate 92 is used for generating power, and the electric energy is stored in the storage battery 93 for the electric equipment to use, so that energy sources are further saved.

The implementation principle of the building energy-saving house with the energy-saving roof provided by the embodiment of the application is as follows: the rainwater on the energy-saving roof 3 flows into the water storage tank 71 to be stored, and the photovoltaic power generation panel 92 is used to generate power and store electric energy in the storage battery 93 on a sunny day. When the summer weather is hot, the water pump 74 pumps water into the heat insulation plate 5, so that the heat insulation plate 5 is filled with half of water, an air layer and a water layer are sequentially formed inside the heat insulation plate 5 from top to bottom, the air layer is utilized for heat insulation, and meanwhile, the water inside the heat insulation plate 5 absorbs heat transferred to the heat insulation plate 5, so that the temperature of the energy-saving roof 3 is reduced, and the rainwater circulation inside the heat insulation plate 5 is controlled according to circumstances.

When the water temperature inside the heat insulation board 5 is too high, the controller 77 controls the opening and closing of the water outlet valve 76 and the valve 83, thereby adjusting the flow path of rainwater, enabling high-temperature water to flow into the cooling water tank 81 for cooling, supplementing low-temperature water inside the heat insulation board 5, and improving the cooling effect on the energy-saving roof 3.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The utility model provides an energy-conserving house of building with energy-conserving roof, includes house body (1), house body (1) include wall body (2) and level set up energy-conserving roof (3) at wall body (2) top, its characterized in that: the energy-saving roof (3) comprises an outer plate (4), a heat insulating plate (5) and an inner-layer color steel plate (6) which are sequentially arranged from top to bottom, wherein the heat insulating plate (5) comprises two cover plates (51) which are arranged in parallel, a plurality of support columns (52) which are arranged between the two cover plates (51) and a frame (53) which is arranged around the cover plates (51), and a water inlet (54) and a water outlet (55) are arranged on the heat insulating plate (5);

the house body (1) is provided with a rainwater collecting and supplying device (7), and the rainwater collecting and supplying device (7) is used for collecting rainwater of the energy-saving roof (3) and supplying water to the inside of the heat insulation plate (5);

the house is characterized in that a solar power generation device (9) is further arranged on the house body (1), and the solar power generation device (9) is used for supplying power to the rainwater collecting and supplying device (7) and electric equipment in the house body (1).

2. A building energy saving house with energy saving roof according to claim 1, characterized in that: the energy-saving roof (3) is provided with breakwater (31) all around, makes form water storage space (32) on energy-saving roof (3), rainwater is collected feeding device (7) including setting up inside storage water tank (71) of house body (1), intercommunication storage water tank (71) and collection water pipe (72) of water storage space (32), intercommunication storage water tank (71) and inlet tube (73) of water inlet (54), water pump (74) and intercommunication delivery port (55) and water return pipe (75) of storage water tank (71) of setting up at inlet tube (73) water inlet end, water return pipe (75) water outlet end is provided with outlet valve (76).

3. A building energy saving house with energy saving roof according to claim 2, characterized in that: the rainwater collecting and supplying device (7) further comprises a controller (77), the house body (1) is provided with a thermometer (11), and the thermometer (11), the water pump (74) and the water outlet valve (76) are all electrically connected to the controller (77).

4. A building energy saving house with energy saving roof according to claim 3, characterized in that: the house is characterized in that a cooling water tank (81) is further arranged inside the house body (1), the cooling water tank (81) is communicated with a cooling water pipe (82) in the middle of the water return pipe (75), a valve (83) is arranged at the water inlet end of the cooling water pipe (82), a water temperature meter (56) is arranged inside the heat insulation plate (5), and the valve (83) and the water temperature meter (56) are electrically connected to the controller (77).

5. A building energy saving house with energy saving roof according to claim 4, characterized in that: a plurality of cooling fins (811) are arranged on the cooling water tank (81) in a penetrating mode, the cooling fins (811) extend to the outside of the cooling water tank (81), an exhaust fan (21) is arranged on the wall body (2) at a position close to the cooling water tank (81), and the air inlet end of the exhaust fan (21) faces the cooling water tank (81).

6. A building energy saving house with energy saving roof according to claim 1, characterized in that: the solar power generation device (9) comprises a plurality of solar brackets (91) arranged on the energy-saving roof (3), a photovoltaic power generation plate (92) arranged on the solar brackets (91) and a storage battery (93) arranged inside the house body (1), wherein the photovoltaic power generation plate (92) is electrically connected with the storage battery (93), and the storage battery (93) is electrically connected with the rainwater collecting and supplying device (7).

7. A building energy saving house with energy saving roof according to claim 1, characterized in that: a heat insulation pad (41) is arranged between the outer plate (4) and the heat insulation plate (5), and the periphery of the outer plate (4) extends out of the heat insulation plate (5).

8. A building energy saving house with energy saving roof according to claim 7, characterized in that: the part of the outer plate (4) extending out of the heat insulation plate (5) is bent downwards.

9. A building energy saving house with energy saving roof according to claim 1, characterized in that: a plurality of ventilation valves (531) are arranged on the frame (53) at positions close to the outer plate (4).

10. A building energy saving house with energy saving roof according to claim 1, characterized in that: both ends of each support column (52) are provided with reinforcing sheets (521).

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