CN202194315U

CN202194315U - Heat-accumulation type solar building/insulating hot water system

Info

Publication number: CN202194315U
Application number: CN2011202210627U
Authority: CN
Inventors: 张立君
Original assignee: 张晋
Priority date: 2011-06-27
Filing date: 2011-06-27
Publication date: 2012-04-18
Anticipated expiration: 2021-06-27

Abstract

A heat-accumulation type solar building/insulating hot water system is disclosed. The system is well integrated with solar reception, solar heating and insulation, solar water heating and building materials. The system is capable of receiving solar energy and converting solar energy into heat energy for automatically heating and insulating a building and providing hot water for the building; and simultaneously, a vacuum thermal insulating solar wall brick is also an excellent thermal insulating building material. The system does not need other energy sources and greatly reduces the energy consumption of the building; besides, the system is capable of realizing the automatic regulation of the indoor temperature of the building by means of solar energy.

Description

Heat storage type solar building thing heating heat preservation hot water system

Affiliated technical field:

The utility model relates to a kind of Application of Solar Energy technology; Particularly a kind of heat storage type solar building thing heating heat preservation hot water system that utilizes solar energy heating round the clock insulation and hot water is provided; Its solar energy capable of using is the constructure heating insulation and hot water is provided, realizes the automatic adjusting to interior temperature.

Background technology:

Solar energy is a kind of clean energy resource; Nowadays; Solar mobile, solar charger, solar energy remote controller, solar water heater, solar power station or the like, various solar products just constantly are developed, and heliotechnics enters into daily life from high-tech area.

In recent years; Receiving efficiency with external solar energy receiving element becomes the focus that people pay close attention at home; In the photovoltaic matrix in some large-sized solar power stations, realized the Salar light-gathering reception abroad; Domestic also have similar pilot system, but heliotechnics is in the application of building field also seldom, utilize solar energy to carry out in the building this problem of temperature control also nobody obtain achievement in research preferably.

The utility model content:

In order to realize utilizing solar energy to be incubated and to provide hot water for building heating round the clock; The utility model provides a kind of vacuum heat-preserving solar walls nogging that utilizes and receive solar energy; Utilize the heat storage type solar building thing heating heat preservation hot water system of the water storage solar energy in the water tank; Its solar energy capable of using is the space heating insulation and hot water is provided; Can realize utilizing the automatic adjusting of solar energy to the building interior temperature, vacuum heat-preserving solar walls nogging also is a kind of good heat-insulating construction material simultaneously.

The utility model solves the technical scheme that its technical problem adopted: heat storage type solar building thing heating heat preservation hot water system is made up of a plurality of structures identical vacuum heat-preserving solar walls nogging, hot air collecting mechanism and thermal energy storage water tank; Each vacuum heat-preserving solar walls nogging of this system is neat is installed on the wall face that building can be mapped to by solar irradiation; Each vacuum heat-preserving solar walls nogging is the neat arranged that is on wall face

Each vacuum heat-preserving solar walls nogging all is made up of the square transparent panel of two block lengths, concavity rectangle heat insulating material and the square solar energy heat absorbing film of a block length; The surface of the square transparent panel of two block lengths is parallel to each other; Form space one between square transparent panel of first block length and the square transparent panel of second block length; Form hot-air channel between square transparent panel of second block length and the concavity rectangle heat insulating material; Utilize heat insulating material the space one between square transparent panel of first block length and the square transparent panel of second block length to be processed into the closed housing of a vacuum; Utilize heat insulating material with the both sides sealing that forms hot-air channel between square transparent panel of second block length and the concavity rectangle heat insulating material, hot-air channel is communicated up and down, the solar energy heat absorbing film is between square transparent panel of second block length and concavity rectangle heat insulating material; And be bonded in closely on the concavity rectangle heat insulating material; When sunshine passes the square transparent panel of first block length and the square transparent panel of second block length is radiated on the solar energy heat absorbing film, most of solar energy is by the solar energy heat absorbing film absorption and transform heat energy, is formed to the closed housing of vacuum because of space one; Cut off the outer conduction of heat of hot-air channel and building; Make the heat energy of the solar energy heat absorbing film absorption that is positioned at hot-air channel be retained in hot-air channel, the solar energy that utilizes the solar energy heat absorbing film absorption rises the air themperature in the hot-air channel to the air heat in the hot-air channel; And the air in the hot-air channel is upwards flowed along hot-air channel

The first hot air collecting mechanism has been installed in upper end at heat storage type solar building thing heating heat preservation hot water system; The second hot air collecting mechanism has been installed in lower end at heat storage type solar building thing heating heat preservation hot water system; Have first hot air chamber in the first hot air collecting mechanism; Have second hot air chamber in the second hot air collecting mechanism

Have the outer vent that is connected with first hot air chamber above the first hot air collecting mechanism, the outer vent of the first hot air collecting mechanism communicates with outdoor buildings, and first hot air chamber is connected with an end of water tank heating tube,

Have the outer vent that is connected with second hot air chamber below the second hot air collecting mechanism, the outer vent of the second hot air collecting mechanism communicates with outdoor buildings, and second hot air chamber is connected with the other end of water tank heating tube,

The skin of thermal energy storage water tank is an insulation layer; The internal layer of thermal energy storage water tank is a reservoir chamber; Between insulation layer and reservoir chamber, be provided with hotair chamber, draw a heating pipe and a refrigerator pipe from hotair chamber, heating pipe is connected through circulation air intake pump and building are indoor; Refrigerator pipe is connected through circulating exhaust pump and building are indoor

Thermal energy storage water tank and heating air pump are positioned at the middle part of water tank heating tube; The water tank heating tube is drawn through the heating air pump from first hot air chamber and is connected with the internal layer reservoir chamber of thermal energy storage water tank; The water tank heating tube is drawn entering second hot air chamber from the thermal energy storage water tank after the shape coiling in the shape of a spiral in the reservoir chamber of thermal energy storage water tank; Formed the hot-air channel of a closure in first hot air chamber, heating air pump, thermal energy storage water tank and second hot air chamber

The vacuum heat-preserving solar walls nogging that constitutes heat storage type solar building thing heating heat preservation hot water system is divided into many groups; Vacuum heat-preserving solar walls nogging in each group is connected along what direction perpendicular to the ground was connected from beginning to end; Make the hot-air channel that is connected to form each group of the hot-air channel series connection of each vacuum heat-preserving solar walls nogging in each group

The upper end of the hot-air channel of each group is connected with first hot air chamber of the first hot air collecting mechanism; The lower end of the hot-air channel of each group is connected with second hot air chamber of the second hot air collecting mechanism; Make hot-air channel and first hot air chamber and closed housing of isolating of second hot air chamber formation of each group with outdoor buildings

When solar light irradiation is organized on vacuum heat-preserving solar walls nogging at each; The solar energy that the vacuum heat-preserving solar walls nogging of each group utilizes the solar energy heat absorbing film absorption is to the air heat in the hot-air channel of this group; The air themperature of respectively organizing in the hot-air channel is risen; And make the high-temperature hot air respectively organized in the hot-air channel flow into first hot air chamber along the hot-air channel of each group; Opening the heating air pump heats the high-temperature hot air in first hot air chamber in the water tank heating tube imports the thermal energy storage water tank to the water in the reservoir chamber; And the low-temperature heat air after will heating imports second hot air chamber through the water tank heating tube, at the thermal energy storage water tank with respectively organize the convection current that forms cold and hot air between the hot-air channel, the water temperature in the thermal energy storage water tank constantly promoted through heating air pump and water tank heating tube; With solar energy through photo-thermal conversion with the stored in form of heat energy in the thermal energy storage water tank

When day and night building interior temperature is low; Close the outer vent of the first hot air collecting mechanism and the second hot air collecting mechanism; Open circulation air intake pump and circulating exhaust pump; Make the indoor air of building form the convection current of cold and hot air between the hotair chamber in the indoor and thermal energy storage water tank at building through heating pipe and refrigerator pipe, the indoor temperature of building is constantly promoted

When the building interior temperature is higher; Close water tank heating tube and heating air pump; Close heating pipe and refrigerator pipe; Open the outer vent of the first hot air collecting mechanism and the second hot air collecting mechanism; Make the outdoor buildings air flow into hot-air channel of each group, flow into the solar energy heat absorbing film heating of air in each group hot-air channel in the hot-air channel, in outdoor buildings with respectively organize the convection current that forms cold and hot air between the hot-air channel after the outer vent of the first hot air collecting mechanism flows back to outdoor buildings through the outer vent of the second hot air collecting mechanism; Taken away the solar energy that is radiated on the building, made the indoor keeping warm mode that is in of building.

The beneficial effect of the utility model is: with solar energy reception, solar heating insulation, solar water and constructional materials good combination is one; This heat storage type solar building thing heating heat preservation hot water system can receive solar energy and convert solar energy into heat energy is that the automatic heating of building is incubated and provides hot water; Vacuum heat-preserving solar walls nogging also is a kind of good heat-insulating construction material simultaneously; This system does not need other energy, has significantly reduced the energy consumption of building.

Description of drawings:

Below in conjunction with accompanying drawing and embodiment the utility model is further specified.

Fig. 1 is the overall structure figure of the utility model.

Fig. 2 is the B-B sectional view of the first hot air collecting mechanism of the utility model.

Fig. 3 is the C-C sectional view of the second hot air collecting mechanism of the utility model.

Fig. 4 is the elevation of the vacuum heat-preserving solar walls nogging of the utility model.

Fig. 5 is the vertical view of the vacuum heat-preserving solar walls nogging of the utility model.

Fig. 6 is the A-A sectional view of the vacuum heat-preserving solar walls nogging of the utility model.

Fig. 7 is the F-F sectional view of the attemperater of the utility model.

Fig. 8 is the G-G sectional view of the attemperater of the utility model.

The specific embodiment:

In Fig. 1; Heat storage type solar building thing heating heat preservation hot water system is made up of 12 identical vacuum heat-preserving solar walls nogging, 2 hot air collecting mechanisms and thermal energy storage water tanks of structure; 12 vacuum heat-preserving solar walls noggings are neat is installed on the wall face that building can be mapped to by solar irradiation; 12 vacuum heat-preserving solar walls noggings are the neat arranged that is on wall face, and 2 hot air collecting mechanisms are installed in the top and bottom of heat storage type solar building thing heating heat preservation hot water system respectively.

In Fig. 4, Fig. 5 and Fig. 6; Vacuum heat-preserving solar walls nogging 1-1 is made up of the square transparent panel 3-1 of first block length, the square transparent panel 3-2 of second block length, concavity rectangle heat insulating material 3-3 and rectangle solar energy heat absorbing film 4-1; The surface of the square transparent panel 3-1 of first block length, the square transparent panel 3-2 of second block length is parallel to each other; Form space one 5-1-1 between square transparent panel 3-1 of first block length and the square transparent panel 3-2 of second block length; Form hot-air channel 5-1 between square transparent panel 3-2 of second block length and the concavity rectangle heat insulating material 3-3, utilize heat insulating material, utilize the both sides sealing of heat insulating material hot-air channel 5-1 with the closed housing that space one 5-1-1 is processed into a vacuum; Hot-air channel 5-1 is communicated up and down; The solar energy heat absorbing film and is bonded on the concavity rectangle heat insulating material 3-3 between square transparent panel 3-2 of second block length and concavity rectangle heat insulating material 3-3 closely, when sunshine passes the square transparent panel 3-1 of first block length and the square transparent panel 3-2 of second block length is radiated on the solar energy heat absorbing film 4-1; Most of solar energy is absorbed by solar energy heat absorbing film 4-1 and conversion heat energy; Because of space one 5-1-1 is formed to the closed housing of vacuum, cut off the outer conduction of heat of hot-air channel 5-1 and building, make the heat energy of the solar energy heat absorbing film 4-1 absorption that is positioned at hot-air channel 5-1 be retained in hot-air channel 5-1; The solar energy that utilizes the solar energy heat absorbing film absorption is to the air heat among the hot-air channel 5-1; Air themperature among the hot-air channel 5-1 is risen, and the air among the hot-air channel 5-1 is upwards flowed along hot-air channel 5-1

In Fig. 1, Fig. 2 and Fig. 3; The first hot air collecting mechanism 2-1 has been installed in upper end at heat storage type solar building thing heating heat preservation hot water system; The second hot air collecting mechanism 2-2 has been installed in lower end at heat storage type solar building thing heating heat preservation hot water system; Have first 6-1 of hot air chamber in the first hot air collecting mechanism 2-1, have second 6-2 of hot air chamber in the second hot air collecting mechanism 2-2

In Fig. 1, Fig. 2 and Fig. 3; Have outer vent 9-1, outer vent 9-2, outer vent 9-3 and the outer vent 9-4 that is connected with first 6-1 of hot air chamber above the first hot air collecting mechanism 2-1; Outer vent 9-1, outer vent 9-2, outer vent 9-3 and outer vent 9-4 communicate with outdoor buildings; First 6-1 of hot air chamber is connected with the end of water tank heating tube 7-1

Have outer vent 9-5, outer vent 9-6, outer vent 9-7 and the outer vent 9-8 that is connected with second 6-2 of hot air chamber below the second hot air collecting mechanism 2-2; Outer vent 9-5, outer vent 9-6, outer vent 9-7 and outer vent 9-8 communicate with outdoor buildings; Second 6-2 of hot air chamber is connected with the other end of water tank heating tube 7-1

In Fig. 1, Fig. 7 and Fig. 8; The skin of thermal energy storage water tank 12 is insulation layer 12-1, and the internal layer of thermal energy storage water tank is reservoir chamber 12-3, between insulation layer 12-1 and reservoir chamber 12-3, is provided with hotair chamber 12-2; Draw a heating pipe 7-2 and a refrigerator pipe 7-3 from hotair chamber 12-2; Heating pipe 7-2 is connected with building is indoor through circulation air intake pump 8-2, and refrigerator pipe 7-3 is connected with building is indoor through circulating exhaust pump 8-3

Thermal energy storage water tank 12 and heating air pump 8-1 are installed in the middle part of water tank heating tube 7-1; Water tank heating tube 7-1 draws through heating air pump 8-1 from first 6-1 of hot air chamber and is connected with reservoir chamber 12-3; Water tank heating tube 7-1 draws from thermal energy storage water tank 12 after the shape coiling in reservoir chamber 12-3 in the shape of a spiral; Water tank heating tube 7-1 draws the back from thermal energy storage water tank 12 and gets into second 6-2 of hot air chamber; At first 6-1 of hot air chamber; Heating air pump 8-1; The thermal energy storage water tank 12 and second 6-2 of hot air chamber have formed the hot-air channel of a closure

In Fig. 1, Fig. 2 and Fig. 3; 12 vacuum heat-preserving solar walls noggings are divided into 4 groups; Vacuum heat-preserving solar walls nogging 1-1, vacuum heat-preserving solar walls nogging 1-5 and vacuum heat-preserving solar walls nogging 1-9 are first group; Vacuum heat-preserving solar walls nogging 1-2, vacuum heat-preserving solar walls nogging 1-6 and vacuum heat-preserving solar walls nogging 1-10 are second group; Vacuum heat-preserving solar walls nogging 1-3, vacuum heat-preserving solar walls nogging 1-7 and vacuum heat-preserving solar walls nogging 1-11 are the 3rd group, and vacuum heat-preserving solar walls nogging 1-4, vacuum heat-preserving solar walls nogging 1-8 and vacuum heat-preserving solar walls nogging 1-12 are the 4th group

In Fig. 1, Fig. 2 and Fig. 3; Vacuum heat-preserving solar walls nogging 1-1, vacuum heat-preserving solar walls nogging 1-5 and vacuum heat-preserving solar walls nogging 1-9 are connected along what direction perpendicular to the ground was connected from beginning to end; The hot-air channel series connection of vacuum heat-preserving solar walls nogging 1-1, vacuum heat-preserving solar walls nogging 1-5 and vacuum heat-preserving solar walls nogging 1-9 is connected to form first group hot-air channel 10-1

Vacuum heat-preserving solar walls nogging 1-2, vacuum heat-preserving solar walls nogging 1-6 and vacuum heat-preserving solar walls nogging 1-10 are connected along what direction perpendicular to the ground was connected from beginning to end; The hot-air channel series connection of vacuum heat-preserving solar walls nogging 1-2, vacuum heat-preserving solar walls nogging 1-6 and vacuum heat-preserving solar walls nogging 1-10 is connected to form second group hot-air channel 10-2

Vacuum heat-preserving solar walls nogging 1-3, vacuum heat-preserving solar walls nogging 1-7 and vacuum heat-preserving solar walls nogging 1-11 are connected along what direction perpendicular to the ground was connected from beginning to end; The hot-air channel series connection of vacuum heat-preserving solar walls nogging 1-3, vacuum heat-preserving solar walls nogging 1-7 and vacuum heat-preserving solar walls nogging 1-11 is connected to form the 3rd group hot-air channel 10-3

Vacuum heat-preserving solar walls nogging 1-4, vacuum heat-preserving solar walls nogging 1-8 and vacuum heat-preserving solar walls nogging 1-12 are connected along what direction perpendicular to the ground was connected from beginning to end, and the hot-air channel series connection of vacuum heat-preserving solar walls nogging 1-4, vacuum heat-preserving solar walls nogging 1-8 and vacuum heat-preserving solar walls nogging 1-12 is connected to form the 4th group hot-air channel 10-4.

At Fig. 1; Among Fig. 2 and Fig. 3; Hot-air channel 10-1; Hot-air channel 10-2; The upper end of hot-air channel 10-3 and hot-air channel 10-4 is connected with first 6-1 of hot air chamber; Hot-air channel 10-1; Hot-air channel 10-2; The lower end of hot-air channel 10-3 and hot-air channel 10-4 is connected with first 6-2 of hot air chamber; Hot-air channel 10-1; Hot-air channel 10-2; Hot-air channel 10-3 and hot-air channel 10-4 and first 6-1 of hot air chamber and first 6-2 of hot air chamber constitute a closed housing of isolating with outdoor buildings

When solar light irradiation is organized on vacuum heat-preserving solar walls nogging at each; The solar energy that the vacuum heat-preserving solar walls nogging of each group utilizes the solar energy heat absorbing film absorption is to hot-air channel 10-1; Hot-air channel 10-2; Air heat among hot-air channel 10-3 and the hot-air channel 10-4; Make hot-air channel 10-1; Hot-air channel 10-2; Air themperature among hot-air channel 10-3 and the hot-air channel 10-4 rises; And make hot-air channel 10-1; Hot-air channel 10-2; High-temperature hot air among hot-air channel 10-3 and the hot-air channel 10-4 is along hot-air channel 10-1; Hot-air channel 10-2; Hot-air channel 10-3 and hot-air channel 10-4 flow into first 6-1 of hot air chamber; Opening heating air pump 8-1 heats the high-temperature hot air among first 6-1 of hot air chamber in water tank heating tube 7-1 imports thermal energy storage water tank 12 to the water among the reservoir chamber 12-3; And the low-temperature heat air after will heating imports second 6-2 of hot air chamber through water tank heating tube 7-1; Through heating air pump 8-1 and water tank heating tube 7-1 at thermal energy storage water tank 12 and hot-air channel 10-1; Hot-air channel 10-2; Form the convection current of cold and hot air between hot-air channel 10-3 and the hot-air channel 10-4; Water temperature in the thermal energy storage water tank 12 is constantly promoted; With solar energy through photo-thermal conversion with the stored in form of heat energy in thermal energy storage water tank 12

When day and night building interior temperature is low; Close the outer vent of the first hot air collecting mechanism 2-1 and the second hot air collecting mechanism 2-2; Open circulation air intake pump 8-2 and circulating exhaust pump 8-3; Make the indoor air of building form the convection current of cold and hot air between the hotair chamber 12-2 in the indoor and thermal energy storage water tank 12 at building through heating pipe 7-2 and refrigerator pipe 7-3, the indoor temperature of building is constantly promoted

When the building interior temperature is higher; Close water tank heating tube 7-1 and heating air pump 8-1; Close heating pipe 7-2 and refrigerator pipe 7-3; Open the outer vent of the first hot air collecting mechanism 2-1 and the second hot air collecting mechanism 2-2; Make the outdoor buildings air flow into hot-air channel 10-1, hot-air channel 10-2, hot-air channel 10-3 and hot-air channel 10-4 through outer vent 9-5, outer vent 9-6, outer vent 9-7 and the outer vent 9-8 of the second hot air collecting mechanism 2-2; The solar energy heat absorbing film of air in hot-air channel 10-1, hot-air channel 10-2, hot-air channel 10-3 and hot-air channel 10-4 that flows among hot-air channel 10-1, hot-air channel 10-2, hot-air channel 10-3 and the hot-air channel 10-4 heats after the outer vent 9-1 of the first hot air collecting mechanism 2-1, outer vent 9-2, outer vent 9-3 and outer vent 9-4 flow back to outdoor buildings; Between outdoor buildings and hot-air channel 10-1, hot-air channel 10-2, hot-air channel 10-3 and hot-air channel 10-4, form the convection current of cold and hot air; Taken away the solar energy that is radiated on the building, made the indoor keeping warm mode that is in of building.

The heat storage type solar building thing heating heat preservation hot water system of the utility model does not need external power source by Driven by Solar Energy work, and automatic adjustment building interior temperature that therefore can be long-term can significantly reduce the power consumption that building is used for the temperature adjustment.

Claims

1. heat storage type solar building thing heating heat preservation hot water system; Vacuum heat-preserving solar walls nogging, hot air collecting mechanism and the thermal energy storage water tank identical by a plurality of structures constitute; It is characterized in that: each vacuum heat-preserving solar walls nogging is neat is installed on the wall face that building can be mapped to by solar irradiation; Each vacuum heat-preserving solar walls nogging is the neat arranged that is on wall face

Each vacuum heat-preserving solar walls nogging all is made up of the square transparent panel of two block lengths, concavity rectangle heat insulating material and the square solar energy heat absorbing film of a block length; The surface of the square transparent panel of two block lengths is parallel to each other; Form space one between square transparent panel of first block length and the square transparent panel of second block length; Form hot-air channel between square transparent panel of second block length and the concavity rectangle heat insulating material; Utilize heat insulating material the space one between square transparent panel of first block length and the square transparent panel of second block length to be processed into the closed housing of a vacuum; Utilize heat insulating material with the both sides sealing that forms hot-air channel between square transparent panel of second block length and the concavity rectangle heat insulating material, hot-air channel is communicated up and down, the solar energy heat absorbing film is between square transparent panel of second block length and concavity rectangle heat insulating material; And be bonded in closely on the concavity rectangle heat insulating material; The first hot air collecting mechanism has been installed in upper end at heat storage type solar building thing heating heat preservation hot water system, in the lower end of heat storage type solar building thing heating heat preservation hot water system the second hot air collecting mechanism has been installed, and has first hot air chamber in the first hot air collecting mechanism; Have second hot air chamber in the second hot air collecting mechanism

The upper end of the hot-air channel of each group is connected with first hot air chamber of the first hot air collecting mechanism; The lower end of the hot-air channel of each group is connected with second hot air chamber of the second hot air collecting mechanism; Make hot-air channel and first hot air chamber and closed housing of isolating of second hot air chamber formation of each group with outdoor buildings; The solar energy that the vacuum heat-preserving solar walls nogging of each group utilizes the solar energy heat absorbing film absorption is to the air heat in the hot-air channel of this group; The air themperature of respectively organizing in the hot-air channel is risen; And make the high-temperature hot air respectively organized in the hot-air channel flow into first hot air chamber along the hot-air channel of each group; Open the heating air pump with the high-temperature hot air in first hot air chamber in the water tank heating tube imports the thermal energy storage water tank to the heating of the water in the reservoir chamber, and the low-temperature heat air after will heat imports second hot air chamber through the water tank heating tube, through heating air pump and water tank heating tube at the thermal energy storage water tank with respectively organize the convection current of the cold and hot air of formation between the hot-air channel; Water temperature in the thermal energy storage water tank is constantly promoted, with solar energy through the photo-thermal conversion with the stored in form of heat energy in the thermal energy storage water tank.