CN2748552Y - Vacuum glass plate heat collection roofing - Google Patents

Abstract

The utility model relates to a vacuum glass plate heat collection roofing which consists of vacuum glass plates, heat collecting plate cores and a frame. Many vacuum glass plates are covered on many heat collecting plate cores. The lower side of the heat collecting plate cores is padded with heat-insulating material, and the vacuum glass plates and the heat collecting plate cores are arranged on the frame in assembly by arranging from top to bottom and left to right to form the heat collection roofing with large area. The utility model implements the purpose of the integration of solar energy and architecture. The transparent vacuum plate has vacuum insulation function with small heat energy loss at the sunny side. The vacuum glass plate heat collection roofing has the advantages of leak prevention, thermal insulation, beauty, low temperature resisting, wind prevention, safety, etc.

Description

The hollow plate glass heat-collecting roof covering

The utility model belongs to the heating unit field, exactly is the hollow plate glass heat-collecting roof covering.

Present solar water heater generally uses flat plate collector and vacuum tube collector, can't substitute roof tile and roofing and realize solar energy and architecture-integral, it is bad to exist whole covering, and catheter exposes not attractive in appearance, link shortcomings such as complexity is installed, the requirement that does not reach solar energy and architecture-integral.

Task of the present utility model provides a kind of hollow plate glass heat-collecting roof covering, and purpose is to realize solar energy and architecture-integral.

To achieve these goals, the utility model hollow plate glass heat-collecting roof covering adopts that the polylith hollow plate glass is overlapping to cover the polylith heat-collecting plate core and above the framework, the following liner heat insulating material and the base plate of heat-collecting plate core, polylith hollow plate glass dual-side is by domatic filler strip, briquetting, be bolted to and be convenient to overlapping covering and maintenance above the framework pipe, the framework pipe is by being bolted to above the base plate, withhold the waterproof bar above the seam of polylith hollow plate glass, the leakproof of lid seam plate is linked by pipe seal between the catheter of polylith heat-collecting plate core side and feed conductive fluid in catheter the heat energy of thermal-arrest is exported.

Advantage of the present utility model: sunny slope vacuum heat-insulation, heat-energy losses are little; Plating coating for selective absorption light heat efficiency height above the heat-collecting plate core, connect reliable, convenient between heat-collecting plate core: hollow plate glass permutation and combination installation up and down, optimal design become the large tracts of land heat-collecting roof covering to substitute roof tile and roofing, have leakproof, function such as heat insulation, attractive in appearance, safe, realized the purpose of solar energy and architecture-integral.

Below in conjunction with accompanying drawing the utility model is done further detailed elaboration:

Fig. 1 is the utility model hollow plate glass heat-collecting roof covering structure and partial sectional view.

Fig. 2 is the utility model hollow plate glass heat-collecting roof covering longitudinal sectional view.

Fig. 3 is that sectional view cuts open in the horizontal office of the utility model hollow plate glass heat-collecting roof covering.

Fig. 4 is a connection layout between the utility model grid shape pipe convection circulation formula heat-collecting plate core.

Fig. 5 is a connection layout between the utility model sinuous coil convection circulation formula heat-collecting plate core.

Fig. 6 is the utility model grid shape pipe gas/liquid phase medium heat-collecting plate core structure and sectional view.

1. hollow plate glass 2. heat-collecting plate cores 3. framework pipes 4. base plates 5. heat insulating materials 6. lid seam plates 7. duct ligation heads 8. domatic filler strip 9. thermal-arrest metal sheets 10. grid shapes are managed 11. catheters, 12. coating for selective absorption, 13. waterproof bars, 14. briquettings, 15. screws, 16. sinuous coils, 17. gas/liquid phase medium mains, 18. gas/liquid phase medium arms.

By Fig. 1 to 6 as can be known, the utility model hollow plate glass heat-collecting roof covering is made of hollow plate glass, heat-collecting plate core, framework.Polylith hollow plate glass 1 overlapping covering above the polylith heat-collecting plate core 2, the following liner heat insulating material 5 of heat-collecting plate core 2, base plate 4, be installed in below the dual-side of hollow plate glass 1 on the domatic filler strip 8, by briquetting 14, screw 15 be fixed on framework pipe 3 above, framework pipe 3 is fixed on above the base plate 4 by screw 15, withhold waterproof bar 13, lid seam plate 6 above the seam between two hollow plate glass 1 sides, be tightly connected by union 7 between the catheter 11 of polylith heat-collecting plate core 2 sides, feed the heat energy output of conductive fluid when thermal-arrest uses thermal-arrest.Polylith hollow plate glass 1 is overlapping when covering above the polylith heat-collecting plate core 2, and the limit, lower end of last piece plate overlaps down above the limit, upper end of piece plate, and is overlapping with this method, and overlapping dimension is 5-50mm.

By Fig. 1,4 as can be known, the heat-collecting plate core 2 of the utility model hollow plate glass heat-collecting roof covering is made of thermal-arrest metal sheet 9, grid shape pipe 10, catheter 11.The upper end arrangement of many grid shape pipes 10 and seal welding are on catheter 11, the lower end of many grid shape pipes 10 is arranged seal welding and is communicated with on another root catheter 11 and up and down, thermal-arrest metal sheet 9 and the 10 big face contact welderings of every grid shape pipe, the riveted joint of arranging, and manufacture coating for selective absorption 12 on its surface, the spacings that grid shape pipe 10 is arranged are 30-120mm.When the coating for selective absorption 12 of solar radiation thermal-arrest metal sheet 9, be heat energy with transform light energy, conduction of heat by thermal-arrest metal sheet 9 is heated every conductive fluid in the grid shape pipe 10 to every grid shape pipe 10 thermal energy transfer and is moved upward, by the heat energy output of catheter 11 with thermal-arrest.

By Fig. 1,5 as can be known, another structure of the heat-collecting plate core 2 of the utility model hollow plate glass heat-collecting roof covering is made of thermal-arrest metal sheet 9, sinuous coil 16, catheter 11.Thermal-arrest metal sheet 9 and sinuous coil 16 big face contacts welderings, riveted joint, and manufacture coating for selective absorption 12, sinuous coil 16 upper and lower ends on its surface respectively with the also conducting that is tightly connected of upper and lower catheter 11, sinuous coil 16 bend alignment spacings are 30-120mm.

By Fig. 1,6 as can be known, another structure of the heat-collecting plate core 2 of the utility model hollow plate glass heat-collecting roof covering is made of thermal-arrest metal sheet 9, gas/liquid phase medium arm 18, gas/liquid phase medium main 17, catheter 11.Thermal-arrest metal sheet 9 and the 18 big face contact welderings of many gas/liquid phase medium arms, the riveted joint of arranging, and manufacture coating for selective absorption 12 on its surface, the following end closure of every gas/liquid phase medium arm 18, the upper end is communicated with gas/liquid phase medium main 17 seal weldings, gas/liquid phase medium main 17 sealing two ends also pour into an amount of refrigerant medium, and catheter 11 is enclosed within the outside seal welding of many gas/liquid phase medium arms 18, gas/liquid phase medium main 17 and leaves the space and feeds the heat energy output of conductive fluid with thermal-arrest.When the coating for selective absorption 12 of solar radiation thermal-arrest metal sheet 9, be heat energy with transform light energy, conduction of heat by thermal-arrest metal sheet 9 is arrived every gas/liquid phase medium arm 18 with thermal energy transfer, the liquid medium of the cold-producing medium in the every gas/liquid phase medium arm 18 is heated is evaporated to gas, gas moves upward to gas/liquid phase medium main 17, being drenched by the heat conduction liquid cooling in the outer catheter 11 is downward liquid flow, with the conductive fluid that this continuous gas/liquid phase interchange of heat is gone into thermal energy conduction in the catheter 11 heat energy of thermal-arrest is exported.

By Fig. 1 to 3 as can be known, the framework of the utility model hollow plate glass heat-collecting roof covering is made of base plate 4, framework pipe 3, heat insulating material 5, domatic filler strip 8, briquetting 14, waterproof bar 13, lid seam plate 6.Many framework pipes 3 are vertically fixed in above the base plate 4 with screw 15 according to the width of transparent vacuum glass plate 1, on base plate 4, reach liner heat insulating material 5 between the many framework pipes 3, fixing many domatic filler strips 8 of top length of framework pipe 3 according to transparent vacuum glass plate 1, briquetting 14 prevents landing above transparent vacuum glass plate 1 is fixed on domatic filler strip 8, waterproof bar 13, lid seam plate 6 are fixed on and play the anti-effect of leaking above two hollow plate glass 1 seams, base plate 4 tilts to be installed on the various buildings, and the angle of slope is the 5-90 degree.

Claims (6)

1, a kind of hollow plate glass heat-collecting roof covering, by hollow plate glass, heat-collecting plate core, framework constitutes, it is characterized in that covering above the polylith heat-collecting plate core (2) by polylith hollow plate glass (1) is overlapping, the following liner heat insulating material (5) of heat-collecting plate core (2), base plate (4), be installed in below the dual-side of hollow plate glass (1) on the domatic filler strip (8), by briquetting (14), screw (15) be fixed on framework pipe (3) above, framework pipe (3) is fixed on above the base plate (4) by screw (15), withhold waterproof bar (13) above the seam between two hollow plate glass (1) side, lid seam plate (6) is tightly connected by union (7) between the catheter (11) of polylith heat-collecting plate core (2) side and feeds the heat energy output of conductive fluid with thermal-arrest.

2, evacuated panel heat-collecting roof covering according to claim 1, when it is characterized in that polylith hollow plate glass (1) is overlapping and covering above the heat-collecting plate core (2), the limit, lower end of last piece plate overlaps down above the limit, upper end of piece plate, and is overlapping with this method, and overlapping dimension is 5-50mm.

3, evacuated panel heat-collecting roof covering according to claim 1, it is characterized in that heat-collecting plate core (2) is made of metal sheet (9), grid shape pipe (10), catheter (11), the upper end arrangement of many grid shape pipes (10) and seal welding are on catheter (11), the lower end of many grid shape pipes (10) is arranged seal welding and is gone up and connection up and down at another root catheter (11), metal sheet (9) and the big face contact weldering of the every grid shape pipe of arranging (10), riveted joint, and manufacture coating for selective absorption (12) on its surface, the spacing that grid shape pipe (10) is arranged is 30-120mm.

4, evacuated panel heat-collecting roof covering according to claim 1, another structure that it is characterized in that heat-collecting plate core (2) is made of metal sheet (9), sinuous coil (16), catheter (11), metal sheet (9) and the big face contact weldering of sinuous coil (16), riveted joint, and manufacture coating for selective absorption (12) on its surface, sinuous coil (16) upper and lower end is tightly connected and conducting with upper and lower catheter (11) respectively, and sinuous coil (16) bend alignment spacing is 30-120mm.

5, evacuated panel heat-collecting roof covering according to claim 1, another structure that it is characterized in that heat-collecting plate core (2) is by metal sheet (9), gas/liquid phase medium arm (18), gas/liquid phase medium main (17), catheter (11) constitutes, metal sheet (9) and the big face contact weldering of the many grid shape pipes of arranging (10), riveted joint, and manufacture coating for selective absorption (12) on its surface, the following end closure of every gas/liquid phase medium arm (18), the upper end is communicated with gas/liquid phase medium main (17) seal welding, gas/liquid phase medium main (17) sealing two ends also pours into an amount of refrigerant medium, and catheter (11) is enclosed within the outside seal welding of every gas/liquid phase medium arm (18) gas/liquid phase medium main (17) and leaves the space and feeds the heat energy output of conductive fluid with thermal-arrest.

6, evacuated panel heat-collecting roof covering according to claim 1, it is characterized in that framework is by base plate (4), framework pipe (3), heat insulating material (5), domatic filler strip (8), briquetting (14), waterproof bar (13), lid seam plate (6) constitutes, many framework pipes (3) are vertically fixed in above the base plate (4) with screw (15) according to the width of hollow plate glass (1), liner heat insulating material (5) on base plate (4) and between the many framework pipes (3), the fixing many domatic filler strips (8) of top length of framework pipe (3) according to hollow plate glass (1), briquetting (14) is fixed on domatic filler strip (8) with hollow plate glass (1), above the framework pipe (3), waterproof bar (13), lid seam plate (6) is fixed on two hollow plate glass (1) above the seam, base plate (4) tilts to be installed on the various buildings, and the angle of slope is the 5-90 degree.

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