CN212614436U - Built-in sunshade energy-saving hollow glass product of high-performance full-warm-edge system - Google Patents
Built-in sunshade energy-saving hollow glass product of high-performance full-warm-edge system Download PDFInfo
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- CN212614436U CN212614436U CN202020991917.3U CN202020991917U CN212614436U CN 212614436 U CN212614436 U CN 212614436U CN 202020991917 U CN202020991917 U CN 202020991917U CN 212614436 U CN212614436 U CN 212614436U
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Abstract
The utility model relates to a built-in sunshade hollow glass product, in particular to a built-in sunshade energy-saving hollow glass product of a high-performance full-warm edge system, which comprises at least one piece of energy-saving glass, a non-metallic material full-warm edge frame, a warm edge strip, a blind assembly and a blind transmission adjusting mechanism; the non-metal material fully-warm frame is arranged between at least one piece of energy-saving glass and another piece of glass and sealed by butyl rubber and sealant, and the non-metal material fully-warm frame and the warm edge strips form a rectangular warm-edge interval profile component through warm-edge inserting corners; the blind transmission adjusting mechanism is arranged in the nonmetal material full-warm frame and used for controlling the lifting and overturning actions of the blind with the warm edge, and comprises a blind lifting mechanism and a blind overturning mechanism. The utility model not only has the performance of common hollow glass and shutter curtain, but also has the advantages of beautiful appearance, generosity, convenient operation, cleanness, sanitation, space saving, etc.
Description
Technical Field
The utility model relates to a built-in sunshade cavity glassware, in particular to high performance warms up energy-conserving cavity glassware of built-in sunshade of limit system entirely.
Background
The hollow glass is made of two or more layers of flat glass. Sealing two or more pieces of glass by using high-strength and high-air-tightness sealant at the periphery. Inert gas is filled in the middle, and drying agent is filled in the frame to ensure the dryness of the hollow glass cavity. A hollow glass product with a built-in louver is short for hollow louver glass, and is a novel energy-saving product for installing the louver in the hollow glass. The traditional venetian blind and the hollow glass are combined into a whole, so that the using space is saved, and the heat preservation and the comprehensive performance of the venetian blind are realized. The hollow glass has good sun-shading performance, improves the heat-insulating performance of the hollow glass, and is widely suitable for energy-saving building doors and windows. However, in the prior art, the frame and the spacing bars of the built-in shutter hollow glass are usually made of metal materials, so that the heat conductivity coefficient is high, heat is not insulated, and the energy conservation of doors and windows of buildings is influenced. The built-in hollow glass with the blinds in the prior art usually uses ordinary white glass which is not energy-saving, and the energy conservation of doors and windows of buildings is also influenced.
Disclosure of Invention
To current built-in tripe cavity glass's defect, the utility model discloses utilize the lower non-metallic material of multiple coefficient of heat conductivity to make the warm frame entirely and warm strake, use multiple energy-conserving glass simultaneously, make building door and window more energy-conserving.
In order to realize the above utility model purpose, the utility model provides a built-in energy-conserving cavity glassware of sunshade of full warm limit system of high performance, concrete technical scheme is as follows: the energy-saving glass heating device comprises at least one piece of energy-saving glass, a non-metallic material full-heating frame, a heating edge strip, a blind assembly and a blind transmission adjusting mechanism; the non-metal material fully-warm frame is provided with three sides, is arranged between at least one piece of energy-saving glass and another piece of glass, and is sealed by butyl rubber and sealant, and the non-metal material fully-warm frame and the warm edge strips form a rectangular warm edge interval profile component through warm edge inserting corners; the blind transmission adjusting mechanism is arranged in the nonmetal material full-warm frame and used for controlling the lifting and overturning actions of the blind with the warm edge, and comprises a blind lifting mechanism and a blind overturning mechanism.
Furthermore, the energy-saving glass is LOW-E glass, single silver glass, double silver glass, triple silver glass, energy-saving hollow glass or vacuum glass and the like.
Further, the non-metal material full-warm frame and the non-metal material full-warm edge strip are made of non-metal synthetic materials, the synthetic materials can be but are not limited to glass fiber reinforced polyurethane, glass fiber reinforced unsaturated resin, glass fiber reinforced epoxy resin, glass fiber reinforced vinyl resin, PE, PP, PVC, ABS, AS, PC, PS, PPS, PEEK, POK, POM, PPO, PI, PC/ABS alloy, AS/ABS alloy and PA thermoplastic materials, and the processing method of the assembly main body is pultrusion or extrusion and other processes.
Furthermore, the blind lifting mechanism comprises an inner magnetic disc sliding block 2, a lifting pull rope, a fixed pulley and a lifting handle, wherein the lifting pull rope is arranged in the nonmetal material full-warm frame; the shutter curtain turnover mechanism comprises a lower page turning wheel, an inner magnetic disc sliding block 1, a page turning pull rope, an upper page turning wheel, a page turning handle, a page turning shaft and a page turning control wheel, wherein the page turning handle is arranged on an external indoor glass track; the blind assembly comprises a blind, a bottom beam and a trapezoidal belt.
Furthermore, the non-metal component of the transmission adjusting mechanism of the blind is provided with a clamping groove and an embedding leg which are matched with each other.
Furthermore, the threading of the warm edge lifting rope adopts the following mode: two ends of the lifting stay cord respectively penetrate through left and right cord holes of the blind blades from bottom to top in sequence, and are converted into a horizontal direction by a directional wheel in the page turning control wheel to extend out of the horizontal position of the blind blades, and then are converted into a downward direction by a fixed pulley to extend to the lifting handle to the inner slide block 2 to be respectively or together fastened to form a lifting transmission mechanism.
Furthermore, a counterweight connector is arranged at the lower part of the inner sliding block 2 of the blind lifting mechanism, a counterweight block is assembled in the non-metal material full-warm frame, and the counterweight block is positioned below the counterweight connector.
The utility model not only has the performance of common hollow glass and shutter curtain, but also has the advantages of beautiful appearance, generosity, convenient operation, cleanness, sanitation, space saving, etc.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic view of a partial structure of the present invention.
Fig. 3 is a schematic view of a partial structure of the present invention.
Fig. 4 is a schematic view of a local structure of the present invention.
The energy-saving glass window comprises, by weight, 1-sealant, 2-venetian blind, 3-page turning pull rope, 4-internal magnetic disk slide block 1, 5-internal magnetic disk slide block 2, 6-lifting pull rope, 7-full-warm frame, 8-warm edge strip, 9-lower page turning wheel, 10-upper page turning wheel, 11-page turning shaft, 12-page turning control wheel, 13-fixed pulley, 14-bottom beam, 15-energy-saving glass, 16-inserting angle, 17-lifting handle, 18-counterweight connector, 19-counterweight block, 20-turning handle, 21-vacuum glass, 22-glass and 23-energy-saving hollow glass.
Detailed Description
As shown in fig. 1, the built-in sun-shading energy-saving hollow glass product of the high-performance full-edge-warming system of the utility model comprises at least one piece of energy-saving glass (15), a non-metallic material full-warming frame (7), a warming edge strip (8), a blind assembly and a blind transmission adjusting mechanism; the non-metal material fully-warm frame is provided with three sides, is arranged between at least one piece of energy-saving glass (15) and another piece of glass (22) in a built-in mode and is sealed through butyl rubber and a sealant (1), and the non-metal material fully-warm frame (7) and the warm edge strips (8) form a rectangular warm edge interval profile component through warm edge inserting angles (16); the blind transmission adjusting mechanism is arranged in the nonmetal material full-warm frame and used for controlling the lifting and overturning actions of the blind with the warm edge, and comprises a blind lifting mechanism and a blind overturning mechanism.
The energy-saving glass is LOW-E glass, single silver glass, double silver glass, triple silver glass, energy-saving hollow glass or vacuum glass and the like.
As shown in fig. 2, in embodiment 1 of the present invention, the non-metal material completely warm frame (7) and the warm edge strip spacing profile assembly are placed in the middle of one piece of energy saving glass (15) and another piece of glass (22), and are sealed by butyl rubber and sealant.
As shown in fig. 3, in embodiment 2 of the present invention, the non-metal material completely warm frame (7) and the warm edge strip spacing profile assembly are placed in the middle of one piece of energy-saving hollow glass (23) and another piece of glass (22), and are sealed by butyl rubber and sealant.
As shown in fig. 4, in embodiment 3 of the present invention, the non-metal material completely warm frame (7) and the warm edge strip spacer assembly are placed in the middle of one piece of vacuum glass (21) and another piece of glass (22), and are sealed by butyl rubber and sealant.
AS the preferred embodiment of the present invention, the above-mentioned non-metallic material all-warm frame and warm edge strip are made of non-metallic synthetic material, the synthetic material can be but not limited to glass fiber reinforced polyurethane, glass fiber reinforced unsaturated resin, glass fiber reinforced epoxy resin, glass fiber reinforced vinyl resin, PE, PP, PVC, ABS, AS, PS, PPs, PEEK, POK, POM, PPO, PI, PC/ABS alloy, AS/ABS alloy, PA thermoplastic material, and the processing method of the above-mentioned assembly main body is pultrusion or extrusion and other processes.
As a preferred embodiment of the present invention, the blind lifting mechanism comprises an inner magnetic disk slider (2), a lifting rope (6), a fixed pulley (13), and a lifting handle (17), wherein the lifting rope (6) is disposed in a non-metallic material fully-warm frame (7); the shutter curtain turnover mechanism comprises a lower page turning wheel (9), an inner magnetic disc sliding block 1(4), a page turning pull rope (3), an upper page turning wheel (10), a page turning handle, a page turning shaft (11) and a page turning control wheel (12), wherein the page turning handle is arranged on an external track of indoor glass; the blind assembly comprises a blind (2), a bottom beam (14) and a trapezoidal belt.
As the preferred embodiment of the utility model, the non-metallic component of the transmission adjusting mechanism of the blind is provided with the mutually matched clamping groove and the embedded foot.
As a preferred embodiment of the present invention, the threading of the lifting rope is performed in the following manner: two ends of the lifting pull rope respectively penetrate through left and right rope holes of the blind blade from bottom to top in sequence, are converted into a horizontal direction by the upper page turning wheel and extend to the outside of the horizontal position of the blind blade, and are converted into a downward direction by the fixed pulley and extend to the lifting handle to be respectively or together fastened to form a lifting transmission mechanism.
As the utility model discloses a preferred embodiment, above-mentioned venetian blind elevating system's carry handle lower part is equipped with the counter weight connector, non-metallic material warms up the frame entirely and is equipped with the balancing weight on, the balancing weight is located counter weight connector below.
Claims (7)
1. A built-in sun-shading energy-saving hollow glass product of a high-performance full-warm-edge system is characterized by comprising at least one piece of energy-saving glass, a non-metallic material full-warm frame, warm edge strips, a blind assembly and a blind transmission adjusting mechanism; the non-metal material fully-warm frame is provided with three sides, is arranged between at least one piece of energy-saving glass and another piece of glass, and is sealed by butyl rubber and sealant, and the non-metal material fully-warm frame and the warm edge strips form a rectangular warm edge interval profile component through warm edge inserting corners; the blind transmission adjusting mechanism is arranged in the nonmetal material full-warm frame and used for controlling the lifting and overturning actions of the blind with the warm edge, and comprises a blind lifting mechanism and a blind overturning mechanism.
2. The built-in sun-shading energy-saving hollow glass product with the high-performance full-warm-edge system as claimed in claim 1, wherein the energy-saving glass is LOW-E glass, single-silver glass, double-silver glass, triple-silver glass, energy-saving hollow glass or vacuum glass.
3. The built-in sun-shading energy-saving hollow glass product with the high-performance full-warm edge system AS claimed in claim 1, wherein the full-warm frame and the warm edge strip made of non-metal materials are made of non-metal synthetic materials, the synthetic materials are glass fiber reinforced polyurethane, glass fiber reinforced unsaturated resin, glass fiber reinforced epoxy resin, glass fiber reinforced vinyl resin, PE, PP, PVC, ABS, AS, PC, PS, PPS, PEEK, POK, POM, PPO, PI, PC/ABS alloy, AS/ABS alloy and PA thermoplastic materials, and the processing method of the assembly body is pultrusion or extrusion process.
4. The built-in sun-shading energy-saving hollow glass product of the high-performance full-warm-edge system according to claim 1, wherein the blind lifting mechanism comprises an inner magnetic disk slider 2, a lifting pull rope, a fixed pulley and a lifting handle, and the lifting pull rope is arranged in a non-metallic material full-warm frame; the shutter curtain turnover mechanism comprises a lower page turning wheel, an inner magnetic disc sliding block 1, a page turning pull rope, an upper page turning wheel, a page turning handle, a page turning shaft and a page turning control wheel, wherein the page turning handle is arranged on an external indoor glass track; the blind assembly comprises a blind, a bottom beam and a trapezoidal belt.
5. The built-in sun-shading energy-saving hollow glass product with the high-performance full-warm-edge system as claimed in claim 1, wherein the non-metallic component of the blind transmission adjusting mechanism is provided with a clamping groove and a foot embedding part which are matched with each other.
6. The built-in sunshade energy-saving hollow glass product with the high-performance full-warm-edge system as claimed in claim 4, wherein the threading of the lifting pull rope adopts the following mode: two ends of the lifting stay cord respectively penetrate through left and right cord holes of the blind blade from bottom to top in sequence, and are converted into a horizontal direction by a directional wheel in the page turning control wheel and extend out of the horizontal position of the blind blade, and then are converted into a downward direction by a fixed pulley and penetrate through the lifting handle to the inner slide block 2 to be respectively or together fastened to form a lifting transmission mechanism.
7. The built-in sun-shading energy-saving hollow glass product with the high-performance full-warm-edge system as claimed in claim 1, wherein a counterweight connector is arranged at the lower part of the inner sliding block 2 of the blind lifting mechanism, a counterweight block is fixedly arranged on the full-warm edge frame and is arranged below the counterweight connector.
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Cited By (1)
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CN111648710A (en) * | 2020-06-03 | 2020-09-11 | 南京南油节能科技有限公司 | Built-in sunshade energy-saving hollow glass product of high-performance full-warm-edge system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111648710A (en) * | 2020-06-03 | 2020-09-11 | 南京南油节能科技有限公司 | Built-in sunshade energy-saving hollow glass product of high-performance full-warm-edge system |
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