CN116084806A

CN116084806A - High-heat-insulation vacuum tempered plate glass with spacer frame and rubber cushion combination

Info

Publication number: CN116084806A
Application number: CN202111309762.6A
Authority: CN
Inventors: 欧阳宝武; 欧阳扬洋; 欧阳玉珊
Original assignee: Zaozhuang Baowu Mechanical And Electrical Technology Development Co ltd
Current assignee: Zaozhuang Baowu Mechanical And Electrical Technology Development Co ltd
Priority date: 2021-11-07
Filing date: 2021-11-07
Publication date: 2023-05-09
Also published as: WO2023077551A1

Abstract

The utility model discloses a high-heat-insulation vacuum toughened plate glass combined by a spacing frame rubber cushion for doors and windows on a general building house, a passive house, a sunlight house and transportation equipment and a flat plate solar water heater, which comprises an upper layer of LOW-E toughened plate glass (1), a lower layer of toughened plate glass (1 a), a spacing frame assembly (2), a spacing frame (2 a), a bearing surface (2 b), a sealing bearing surface (2 c), an air suction nozzle (2 d), a flat rubber cushion (3), peripheral sealing glue (4) and a support (5) which are assembled and processed into a whole.

Description

High-heat-insulation vacuum tempered plate glass with spacer frame and rubber cushion combination

Technical Field

The utility model relates to a high-heat-insulation vacuum tempered plate glass combined by a spacing frame rubber cushion for a door and window on a general building house, a sunlight room, a passive room, transportation equipment, a household appliance and a plate solar water heater.

Background

The vacuum flat glass produced at present has poor heat preservation effect and too high price, is not suitable for popularization, but the inner cavity of the common flat hollow glass is not absolutely sealed, has poor heat preservation and noise reduction effects, and reduces the light transmittance and heat preservation performance due to unclean inner cavity after being used for a plurality of years. The insulating glass has the advantages of good heat insulation and noise reduction performance, but the insulating and noise reduction effect is not good, the requirements of a passive room are not met, and the insulating glass is difficult to mechanically process and produce due to complex production process and high processing cost.

Disclosure of Invention

The purpose of the utility model is that: the spacer frame rubber pad combined high-heat-insulation vacuum tempered flat glass has the advantages of simple process and structure, suitability for processing and production of mass mechanical production lines, low processing cost, good light transmittance, high yield and greatly improved heat insulation and noise reduction effects.

The technical scheme of the utility model is as follows: comprises upper layer LOW-E toughened plate glass, lower layer toughened plate glass and outer periphery sealant; heating a high-strength and aging-resistant polyester raw material by using an extruder until the raw material starts to flow and is suitable for processing, and then, injecting the raw material into a heated split steel die in a metering way to process the raw material into an integral upper and lower trapezoid spacer frame assembly (2) which is easy to demould; the length and the width of the outer frame of the spacing frame assembly (2) are according to the design requirement; the section of an upper trapezoid and a lower trapezoid on the interval frame assembly (2) is trapezoid, the left and right most width of the middle part of the upper trapezoid and the lower trapezoid is more than 8.2 mm, the left and right most width of the upper end and the lower end of the upper trapezoid and the lower trapezoid interval (2 a) is more than 8 mm, the upper end and the lower end of the upper trapezoid and the lower trapezoid interval (2 a) are respectively provided with a bearing surface (2 b) with more than 2 mm and a sealing bearing surface (2 c) with more than 6 mm, the bearing surfaces (2 b) of the upper end and the lower end are respectively higher than the sealing bearing surfaces (2 c) of the upper end and the lower end by more than 1.5 mm, the height between the sealing bearing surfaces (2 c) of the upper end and the lower end is more than 5 mm, and the total height between the bearing surfaces (2 b) of the upper end and the lower end is more than 8 mm; the lower edge of the interval frame assembly (2) is close to the right centering part to simultaneously manufacture an air suction nozzle (2 d), the length of the air suction nozzle (2 d) is more than 20 mm, the outer diameter of the air suction nozzle (2 d) close to the upper and lower trapezoid interval (2 a) is more than 3.7 mm, the outer diameter of the lower end of the air suction nozzle (2 d) is more than 3.5 mm, and the diameter of an air suction hole concentric with the air suction nozzle (2 d) is more than 1.5 mm; processing the ageing-resistant rubber with the compression ratio of more than 30% into a flat rubber cushion (3), wherein the length and the width of the outer ring of the flat rubber cushion (3) are more than 0.2 mm smaller than those of the outer ring of a sealing pressure-bearing surface (2 c) on a spacing frame assembly (2), the width of the flat rubber cushion (3) is more than 6 mm, and the thickness of the flat rubber cushion (3) is more than 2 mm; the method comprises the steps of putting lower toughened flat glass (1 a) with the length and the width of the outer frame of a spacing frame assembly (2) increased by more than 4 mm and the thickness of the lower toughened flat glass (1 a) with the thickness of more than 5 mm on a workbench, respectively arranging flat rubber gaskets (3) on sealing bearing surfaces (2 c) at the upper end and the lower end of the processed spacing frame assembly (2), putting the flat gaskets on the lower toughened flat glass (1 a) in a centering manner, and putting upper LOW-E toughened flat glass (1) with the length and the width of the outer frame of the spacing frame assembly (2) increased by more than 4 mm and the thickness of more than 5 mm in a centering manner on the uppermost side; the exhaust pipe of the vacuum pump is connected with the exhaust nozzle (2 d) in a sealing way, the vacuum pump is started to gradually vacuumize to be lower than 3/1000Pa, then the upper and lower flat rubber pads (3) are gradually compressed by more than 25 percent, (the upper and lower flat rubber pads (3) are compressed to be 1.5 mm from more than 2 mm in thickness) and are respectively in sealing contact with the upper layer LOW-E toughened flat glass (1) and the lower layer toughened flat glass (1 a), and simultaneously the pressure bearing surfaces (2 b) at the upper end and the lower end of the spacer frame assembly (2) are respectively in contact with the upper layer LOW-E toughened flat glass (1) and the lower layer toughened flat glass (1 a); and (3) heating and sealing the suction nozzle (2 d) by a plastic welding gun, treating and shortening, and finally coating the outer periphery of the spacing frame assembly (2) with outer periphery sealant (4) with the thickness of more than 2 mm. The high-heat-preservation vacuum tempered plate glass with the combined spacer frame rubber cushion sealed under the atmospheric pressure is processed.

Or the suction nozzle (2 d) is integrally formed at the lower side of the spacer assembly (2) near the center of the right corner.

Or the upper surfaces of the inner and lower toughened flat glass (1 a) of the spacer frame assembly (2) are centrally provided with more than 1 tubular support (5) which is made of high-strength and ageing-resistant transparent organic glass (or polycarbonate and polyester) plastic raw materials, has an outer diameter of more than 6 mm, an inner hole diameter of more than 2 mm and a height of more than 8 mm, and the tubular support (5) is transversely drilled with a hole with a diameter of 1 mm and a through hole at the position of 4 mm in height.

Or the middle of the upper surface of the lower toughened plate glass (1 a) in the spacer frame assembly (2) is provided with more than 10 support (5) points which are made of high-strength and ageing-resistant transparent polyester (or polycarbonate or organic glass) plastic raw materials, have the diameter of more than 2 mm and the height of more than 8 mm, so as to form the artistic pattern five stars.

The advertisement pattern can also be formed by placing 10 or more support (5) points with the diameter of 2 mm or more and the height of 8 mm or more, which are manufactured by processing high-strength and ageing-resistant transparent polycarbonate (or polyester or organic glass) plastic raw materials in the spacer frame assembly (2) and on the upper surface of the lower toughened flat glass (1 a) in the middle.

The upper surface of the lower layer toughened plate glass (1 a) in the interval frame assembly (2) can be placed with more than 10 support (5) points which are processed and manufactured by transparent glass, have more than 2 mm diameter and have more than 8 mm height to form lucky characters.

Or the polycarbonate (or organic glass, ABS) plastic raw material with high strength and aging resistance is processed into the spacer frame assembly (2).

The upper layer glass can also be toughened flat glass.

The beneficial effects of the utility model are as follows: the high-heat-preservation vacuum tempered plate glass can be suitable for processing and producing the spacer frame rubber cushion combination on a large-batch mechanized production line. The heat-insulating performance and noise-reducing effect of the spacer frame rubber cushion combined high-heat-insulating vacuum tempered plate glass are improved by more than 4 times compared with those of other plate vacuum glass, the yield is improved by more than 3 times compared with that of plate vacuum glass produced by the prior art, and the processing cost is one third of that of glass powder melt-sealed plate vacuum glass and is equivalent to that of common hollow glass, the process is simple, the equipment investment cost is low, and the mechanical processing production is suitable.

Fig. 1 is a schematic front view of the present utility model, fig. 2 is a schematic right view of fig. 1 from A-A, fig. 3 is a schematic front view of the present utility model with a five-star pattern formed by a support (5), and fig. 4 is a schematic right view of fig. 3 from B-B.

The part numbers in the figures are as follows: upper layer LOW-E toughened plate glass (1), lower layer toughened plate glass (1 a); a spacer assembly (2), a spacer (2 a), a pressure-bearing surface (2 b), a sealing pressure-bearing surface (2 c) and an air suction nozzle (2 d); a flat rubber pad (3); an outer peripheral sealant (4); and a support (5).

In the embodiment shown in fig. 1, 2, 3 and 4, the high-heat-insulation vacuum tempered plate glass combined by the spacer rubber cushion can be manufactured and is arranged on doors and windows of general building houses, passive houses, sunlight houses and transportation equipment or on an external solar water heater to replace vacuum glass and common hollow glass, so that the heat-insulation performance and the noise-reduction effect are improved, and the cost is reduced.

Claims

1. High-heat-preservation vacuum tempered flat glass partition combined by spacer frame rubber gaskets; comprises upper layer LOW-E toughened plate glass, lower layer toughened plate glass and outer periphery sealant; the method is characterized in that: heating a high-strength and aging-resistant polyester raw material by using an extruder until the raw material starts to flow and is suitable for processing, and then, injecting the raw material into a heated split steel die in a metering way to process the raw material into an integral upper and lower trapezoid spacer frame assembly (2) which is easy to demould; the length and the width of the outer frame of the spacing frame assembly (2) are according to the design requirement; the section of an upper trapezoid and a lower trapezoid on the interval frame assembly (2) is trapezoid, the left and right most width of the middle part of the upper trapezoid and the lower trapezoid is more than 8.2 mm, the left and right most width of the upper end and the lower end of the upper trapezoid and the lower trapezoid interval (2 a) is more than 8 mm, the upper end and the lower end of the upper trapezoid and the lower trapezoid interval (2 a) are respectively provided with a bearing surface (2 b) with more than 2 mm and a sealing bearing surface (2 c) with more than 6 mm, the bearing surfaces (2 b) of the upper end and the lower end are respectively higher than the sealing bearing surfaces (2 c) of the upper end and the lower end by more than 1.5 mm, the height between the sealing bearing surfaces (2 c) of the upper end and the lower end is more than 5 mm, and the total height between the bearing surfaces (2 b) of the upper end and the lower end is more than 8 mm; the lower edge of the interval frame assembly (2) is close to the right centering part to simultaneously manufacture an air suction nozzle (2 d), the length of the air suction nozzle (2 d) is more than 20 mm, the outer diameter of the air suction nozzle (2 d) close to the upper and lower trapezoid interval (2 a) is more than 3.7 mm, the outer diameter of the lower end of the air suction nozzle (2 d) is more than 3.5 mm, and the diameter of an air suction hole concentric with the air suction nozzle (2 d) is more than 1.5 mm; processing the ageing-resistant rubber with the compression ratio of more than 30% into a flat rubber cushion (3), wherein the length and the width of the outer ring of the flat rubber cushion (3) are more than 0.2 mm smaller than those of the outer ring of a sealing pressure-bearing surface (2 c) on a spacing frame assembly (2), the width of the flat rubber cushion (3) is more than 6 mm, and the thickness of the flat rubber cushion (3) is more than 2 mm; the method comprises the steps of putting lower toughened flat glass (1 a) with the length and the width of the outer frame of a spacing frame assembly (2) increased by more than 4 mm and the thickness of the lower toughened flat glass (1 a) with the thickness of more than 5 mm on a workbench, respectively arranging flat rubber gaskets (3) on sealing bearing surfaces (2 c) at the upper end and the lower end of the processed spacing frame assembly (2), putting the flat gaskets on the lower toughened flat glass (1 a) in a centering manner, and putting upper LOW-E toughened flat glass (1) with the length and the width of the outer frame of the spacing frame assembly (2) increased by more than 4 mm and the thickness of more than 5 mm in a centering manner on the uppermost side; the exhaust pipe of the vacuum pump is connected with the exhaust nozzle (2 d) in a sealing way, the vacuum pump is started to gradually vacuumize to be lower than 3/1000Pa, then the upper and lower flat rubber pads (3) are gradually compressed by more than 25 percent, (the upper and lower flat rubber pads (3) are compressed to be 1.5 mm from more than 2 mm in thickness) and are respectively in sealing contact with the upper layer LOW-E toughened flat glass (1) and the lower layer toughened flat glass (1 a), and simultaneously the pressure bearing surfaces (2 b) at the upper end and the lower end of the spacer frame assembly (2) are respectively in contact with the upper layer LOW-E toughened flat glass (1) and the lower layer toughened flat glass (1 a); and (3) heating and sealing the suction nozzle (2 d) by a plastic welding gun, treating and shortening, and finally coating the outer periphery of the spacing frame assembly (2) with outer periphery sealant (4) with the thickness of more than 2 mm.

2. The spacer rubber mat combined high-heat-preservation vacuum tempered flat glass as claimed in claim 1, wherein the spacer rubber mat combined high-heat-preservation vacuum tempered flat glass is characterized in that: a suction nozzle (2 d) is integrally formed at the lower edge of the spacer assembly (2) toward the center of the right corner.

3. The spacer rubber mat combined high-heat-preservation vacuum tempered flat glass as claimed in claim 1, wherein the spacer rubber mat combined high-heat-preservation vacuum tempered flat glass is characterized in that: the upper surface of the lower layer toughened plate glass (1 a) in the spacer frame assembly (2) is centrally provided with more than 1 tubular support (5) which is made of high-strength and ageing-resistant transparent organic glass (or polycarbonate and polyester) plastic raw materials, has an outer diameter of more than 6 mm, an inner hole diameter of more than 2 mm and a height of more than 8 mm, and the tubular support (5) is transversely drilled with a hole with a diameter of 1 mm and a through hole at the position of 4 mm in height.

4. The spacer rubber mat combined high-heat-preservation vacuum tempered flat glass as claimed in claim 1, wherein the spacer rubber mat combined high-heat-preservation vacuum tempered flat glass is characterized in that: the upper surface of the lower layer toughened plate glass (1 a) in the spacer frame assembly (2) is centrally placed with more than 10 support (5) points which are made of high-strength and ageing-resistant transparent polyester (or polycarbonate or organic glass) plastic raw materials, have the diameter of more than 2 mm and the height of more than 8 mm to form an artistic pattern five-star.

5. The spacer rubber mat combined high-heat-preservation vacuum tempered flat glass as claimed in claim 1, wherein the spacer rubber mat combined high-heat-preservation vacuum tempered flat glass is characterized in that: the advertisement pattern is formed by placing 10 or more support (5) points with the diameter of 2 mm or more and the height of 8 mm or more, which are manufactured by processing high-strength and ageing-resistant transparent polycarbonate (or polyester or organic glass) plastic raw materials in the spacer frame assembly (2) and on the upper surface of the lower toughened flat glass (1 a) in the middle.

6. The spacer rubber mat combined high-heat-preservation vacuum tempered flat glass as claimed in claim 1, wherein the spacer rubber mat combined high-heat-preservation vacuum tempered flat glass is characterized in that: the upper surface of the lower layer toughened plate glass (1 a) in the spacer frame assembly (2) is centrally placed with more than 10 support (5) points which are manufactured by transparent glass processing, have the diameter of more than 2 mm and the height of more than 8 mm to form lucky characters.

7. The spacer rubber mat combined high-heat-preservation vacuum tempered flat glass as claimed in claim 1, wherein the spacer rubber mat combined high-heat-preservation vacuum tempered flat glass is characterized in that: a spacer frame assembly (2) is manufactured from a high-strength and aging-resistant polycarbonate (or plexiglas, ABS) plastic material.

8. The spacer rubber mat combined high-heat-preservation vacuum tempered flat glass as claimed in claim 1, wherein the spacer rubber mat combined high-heat-preservation vacuum tempered flat glass is characterized in that: the upper layer glass can also be toughened flat glass.