CN206090934U - Energy -saving heat preservation house heats wall body - Google Patents

Abstract

Energy -saving heat preservation house heats wall body, the non -light tight glass board of vertical direction about package rubbing board face is located, the glass board is fixed on the frame, the rear of glass board is equipped with endothermic wall, the frame links to each other with the heat absorption wall is fixed, the glass board, the frame constructs confined heat exchanging cavities with the heat absorption circummure, heat exchanging cavities's upper portion is equipped with at least one last draught hole that passes endothermic wall along the fore -and -aft direction, heat exchanging cavities's lower part is equipped with at least one lower draught hole that passes endothermic wall along the fore -and -aft direction, heat exchanging cavities's upper portion is equipped with at least one louvre, the louvre links to each other with the bottom port of cooling tube, vertical direction setting is followed to the cooling tube, the top ports and the external world of cooling tube communicate with each other. Its aim at provides an usable solar energy and updates the room air, adjusts indoor temperature's energy -saving heat preservation house heats wall body.

Description

Energy-saving type heat-preserving house heats body of wall

Technical field

This utility model is related to a kind of energy-saving type heat-preserving house and heats body of wall.

Background technology

Currently, new rural village housing construction have developed rapidly, and the house form of construction is also varied, is lived including light heat insulation Room, color steel house etc., although this kind of house mixes house high insulating effect than brick, which does not possess indoor using solar energy regulation The function of air freshness and indoor temperature.

Utility model content

The purpose of this utility model is to provide one kind to update room air using solar energy, adjusts the section of indoor temperature Energy type insulation house heats body of wall.

Energy-saving type heat-preserving house of the present utility model heats body of wall, including plate face is located at the glass of the printing opacity of left and right vertical direction Glass plate, glass plate are fixed on framework, and the rear of glass plate is provided with heat absorption wall, heat absorption wall thickness along the longitudinal direction be 20mm- 100mm, framework are fixedly linked with heat absorption wall, and glass plate, framework and heat absorption walled structure go out the heat exchange cavity of a closing, and heat exchange is empty Chamber length along the longitudinal direction is 20mm -100mm, and the top of the cavity that exchanges heat is provided with least one along the longitudinal direction through heat absorption The upper air-vent of wall, the bottom of the cavity that exchanges heat are provided with least one lower air-vent for passing through heat absorption wall, lower ventilation along the longitudinal direction The aperture of hole and upper air-vent is more than 40mm, and the top of the cavity that exchanges heat is provided with least one louvre, and the aperture of louvre is more than 40mm, louvre are connected with the bottom port of radiating tube, and radiating tube is vertically arranged, and the height of radiating tube is more than 1000mm, the top port of radiating tube are communicated with the external world.

Energy-saving type heat-preserving house of the present utility model heats body of wall, wherein the heat absorption wall is located at the metope in heat exchange cavity For black.

Energy-saving type heat-preserving house of the present utility model heats body of wall, wherein the aperture of the lower air-vent and upper air-vent is 50mm -100mm, the center of lower air-vent are 300mm -500mm with the distance between the cavity bottom that exchanges heat, in upper air-vent The heart is 300mm -500mm with the distance between the cavity top that exchanges heat, and the aperture of louvre is 50mm -100mm.

Energy-saving type heat-preserving house of the present utility model heats body of wall, wherein the heat absorption wall thickness along the longitudinal direction is 30mm -50mm, heat exchange cavity length along the longitudinal direction are 30mm -50mm, and the height of radiating tube is 1500mm -2000mm.

Energy-saving type heat-preserving house of the present utility model heats body of wall, wherein the upper air-vent with it is upper ventilation pipe front end end Mouthful be connected, the section of upper air-vent and upper ventilation pipe is all circle or is all rectangle, lower air-vent with it is lower ventilation pipe front end end Mouth is connected, and the section of lower air-vent and lower ventilation pipe is all circle or is all rectangle.

Energy-saving type heat-preserving house of the present utility model heats body of wall, wherein the upper air-vent, lower air-vent and louvre Quantity be respectively 2-6.

Energy-saving type heat-preserving house of the present utility model heats body of wall, wherein the rear end end of the upper ventilation pipe and lower ventilation pipe Pipeline cut-out cock is respectively equipped with mouthful, gas circuit cut-out cock on the radiating tube, is in series with.

Energy-saving type heat-preserving house of the present utility model heats body of wall when mounted, and air-vent, lower air-vent can be allowed to distinguish Communicate with interior, in summer, whole upper air-vent closings can be connected radiating tube and lower air-vent, so, indoor is vexed Hot, stale air will be discharged from radiating tube, and indoor air will become more pure and fresh；And in the winter time, then can entirely The radiating tube in portion and the closing of lower air-vent, air-vent connections in, so, the heat of heat absorption wall absorption will flow into interior, allow room Interior temperature is raised.Therefore, energy-saving type heat-preserving house of the present utility model heats body of wall with indoor using solar energy renewal The characteristics of air, regulation indoor temperature.

Body of wall is heated to this utility model energy-saving type heat-preserving house below in conjunction with the accompanying drawings to be described further.

Description of the drawings

Fig. 1 is the axonometric chart of the structural representation that energy-saving type heat-preserving house of the present utility model heats body of wall；

Side cutaway views of the Fig. 2 for the amplification of Fig. 1.

Specific embodiment

As shown in Figure 1 and Figure 2, energy-saving type heat-preserving house of the present utility model heats body of wall, including plate face is located at left and right vertically The glass plate 1 of the printing opacity in direction, glass plate 1 are fixed on the frame 2, and the rear of glass plate 1 is provided with heat absorption wall 3, and heat absorption wall 3 is along front The thickness of rear direction is 20mm -100mm, and framework 2 is fixedly linked with heat absorption wall 3, between glass plate 1 and framework 2, framework 2 and suction Between hot wall 3 will good seal, with prevent heat scatter and disappear, glass plate 1, framework 2 and heat absorption wall 3 enclose structure go out one closing heat exchange Cavity 4, heat exchange cavity 4 length along the longitudinal direction are 20mm -100mm, the top of the cavity 4 that exchanges heat be provided with along the longitudinal direction to A few upper air-vent 5 through heat absorption wall 3, the bottom of the cavity 4 that exchanges heat are provided with least one along the longitudinal direction through heat absorption wall 3 Lower air-vent 7, the aperture of lower air-vent 7 and upper air-vent 5 is more than 40mm, and the top of the cavity 4 that exchanges heat is provided with least one and dissipates Hot hole 6, the aperture of louvre 6 are more than 40mm, and louvre 6 is connected with the bottom port of radiating tube 8, and radiating tube 8 is vertically Arrange, the height of radiating tube 8 is more than 1000mm, and the top port of radiating tube 8 is communicated with the external world.

Above-mentioned glass plate 1 will allow sunlight inject heat exchange cavity 4, and be irradiated to heat absorption wall 3, while inhaling towards the sun Hot wall 3 will be close to the body of wall in house, so as to cavity 4 and the house inner exchanging air of exchanging heat.

Used as improvement of the present utility model, the metope that above-mentioned heat absorption wall 3 is located in heat exchange cavity 4 is black.The suction of black Hot wall 3 can be more efficiently absorbed solar energy.

As further improvement of the utility model, the aperture of above-mentioned lower air-vent 7 and upper air-vent 5 be 50mm- The distance between 100mm, 4 bottom of center and heat exchange cavity of lower air-vent 7 are 300mm -500mm, the center of upper air-vent 5 Be 300mm -500mm the distance between at the top of heat exchange cavity 4, the aperture of louvre 6 is 50mm -100mm.

Used as further improvement of the utility model, the thickness along the longitudinal direction of above-mentioned heat absorption wall 3 is 30mm -50mm, is changed The length along the longitudinal direction of hot cavity 4 is 30mm -50mm, and the height of radiating tube 8 is 1500mm -2000mm.

Used as further improvement of the utility model, above-mentioned upper air-vent 5 is connected with the front-end port of upper ventilation pipe, is above changed The section of pore 5 and upper ventilation pipe is all circle or is all rectangle, and lower air-vent 7 is connected with the front-end port of lower ventilation pipe, under The section of air-vent 7 and lower ventilation pipe is all circle or is all rectangle.

As further improvement of the utility model, the quantity difference of above-mentioned upper air-vent 5, lower air-vent 7 and louvre 6 For 2-6.

As further improvement of the utility model, it is respectively equipped with the back-end ports of above-mentioned upper ventilation pipe and lower ventilation pipe Pipeline cut-out cock, is in series with gas circuit cut-out cock on the radiating tube 8.

Energy-saving type heat-preserving house of the present utility model heats body of wall when mounted, can allow 7 points of air-vent 5, lower air-vent Do not communicate with interior, in summer, whole upper air-vents 5 can be closed, connect radiating tube 8 and lower air-vent 7, it is so, indoor Sultry, stale air will discharge from radiating tube 8, indoor air will become more pure and fresh；And in the winter time, then may be used Whole radiating tubes 8 and lower air-vent 7 are closed, air-vent 5 in connection, so, the heat that the wall 3 that absorbs heat absorbs will flow into room It is interior, allow the temperature of interior to raise.

Embodiment described above is only that preferred implementation of the present utility model is described, not to this practicality New scope is defined, under the premise of without departing from this utility model design spirit, this area ordinary skill technical staff couple Various modifications and improvement that technical solutions of the utility model are made, all should fall into the guarantor that claims of the present utility model determine In the range of shield.

Claims (7)

1. energy-saving type heat-preserving house heats body of wall, it is characterised in that：The glass of the printing opacity of left and right vertical direction is located at including plate face Plate (1), glass plate (1) are fixed on framework (2), and the rear of glass plate (1) is provided with heat absorption wall (3), and heat absorption wall (3) is along front and back To thickness be 20mm -100mm, framework (2) with heat absorption wall (3) be fixedly linked, glass plate (1), framework (2) and absorb heat wall (3) The heat exchange cavity (4) that structure goes out a closing is enclosed, cavity (4) length along the longitudinal direction that exchanges heat is 20mm -100mm, and exchange heat cavity (4) top is provided with least one upper air-vent (5) for passing through heat absorption wall (3) along the longitudinal direction, the bottom edge of the cavity (4) that exchanges heat Fore-and-aft direction is provided with the aperture of at least one lower air-vent (7) for passing through heat absorption wall (3), lower air-vent (7) and upper air-vent (5) More than 40mm, the top of the cavity (4) that exchanges heat is provided with least one louvre (6), and the aperture of louvre (6) is more than 40mm, radiating Hole (6) is connected with the bottom port of radiating tube (8), and radiating tube (8) is vertically arranged, and the height of radiating tube (8) is more than 1000mm, the top port of radiating tube (8) are communicated with the external world.

2. energy-saving type heat-preserving house according to claim 1 heats body of wall, it is characterised in that：Heat absorption wall (3) is located at Metope in heat exchange cavity (4) is black.

3. energy-saving type heat-preserving house according to claim 2 heats body of wall, and its feature exists：The lower air-vent (7) and upper The aperture of air-vent (5) is 50mm -100mm, and the center of lower air-vent (7) with the distance between cavity (4) bottom that exchanges heat is It is 300mm -500mm the distance between at the top of 300mm -500mm, the center of upper air-vent (5) and heat exchange cavity (4), radiating The aperture in hole (6) is 50mm -100mm.

4. energy-saving type heat-preserving house according to claim 3 heats body of wall, it is characterised in that：Heat absorption wall (3) is along front The thickness of rear direction is 30mm -50mm, and cavity (4) length along the longitudinal direction that exchanges heat is 30mm -50mm, radiating tube (8) Highly it is 1500mm -2000mm.

5. energy-saving type heat-preserving house according to claim 4 heats body of wall, it is characterised in that：The upper air-vent (5) with The front-end port of upper ventilation pipe is connected, and the section of upper air-vent (5) and upper ventilation pipe is all circle or is all rectangle, lower air-vent (7) it is connected with the front-end port of lower ventilation pipe, the section of lower air-vent (7) and lower ventilation pipe is all circle or is all rectangle.

6. energy-saving type heat-preserving house according to claim 5 heats body of wall, it is characterised in that：The upper air-vent (5), under The quantity of air-vent (7) and louvre (6) is respectively 2-6.

7. the energy-saving type heat-preserving house according to any one of claim 1 to 6 heats body of wall, it is characterised in that：It is described Pipeline cut-out cock is respectively equipped with the back-end ports of upper ventilation pipe and lower ventilation pipe, on the radiating tube (8), gas circuit is in series with Cut-out cock.