CN213509110U - A energy-efficient glass unit for architectural decoration - Google Patents

Abstract

The utility model discloses a high-efficiency energy-saving glass unit for architectural decoration, which comprises a support piece, an upper heat insulation seat, a lower heat insulation seat, first glass and second glass, wherein the upper heat insulation seat is provided with a first groove and a second groove, and an upper boss is formed between the first groove and the second groove; the lower heat insulation seat has the same structure as the upper heat insulation seat, and a lower boss is formed between the first groove and the second groove of the lower heat insulation seat; the top end and the bottom end of the first glass are respectively positioned in first grooves of the upper heat insulation seat and the lower heat insulation seat, and the top end and the bottom end of the second glass are respectively positioned in second grooves of the upper heat insulation seat and the lower heat insulation seat; and sealing strips are respectively arranged at the top end and the bottom end of the first glass and the second glass, and a cavity is formed between the first glass and the second glass. Adopt the utility model discloses a high-efficient energy-conserving glass unit for architectural decoration can guarantee to have thermal-insulated efficiency, long service life.

Description

A energy-efficient glass unit for architectural decoration

Technical Field

The utility model belongs to the technical field of architectural decoration glass, particularly, relate to an energy-efficient glass unit for architectural decoration.

Background

In building decoration, more and more buildings choose to use glass curtain walls as decoration. The glass curtain wall has good lighting and fashionable appearance, and in units forming the glass curtain wall, the rubber sealing layer is arranged between glass and the supporting piece in the prior art.

However, such designs still have some drawbacks, such as the relatively high temperature of the air in the cavity between the double glazing. The rubber aging is accelerated in a high-temperature environment, the service life is shortened, and the maintenance cost is increased. Therefore, there is a strong need for an architectural decorative glass unit that has a long service life and provides thermal insulation.

Disclosure of Invention

The utility model provides an above-mentioned not enough, provide an energy-efficient glass unit for architectural decoration, can guarantee to have thermal-insulated efficiency, long service life.

In order to solve the technical problem, the embodiment of the utility model provides an adopt following technical scheme:

a high-efficiency energy-saving glass unit for architectural decoration comprises a support piece, an upper heat insulation seat, a lower heat insulation seat, first glass and second glass, wherein the upper heat insulation seat is provided with a first groove and a second groove, and an upper boss is formed between the first groove and the second groove; the lower heat insulation seat has the same structure as the upper heat insulation seat, and a lower boss is formed between the first groove and the second groove of the lower heat insulation seat; the top end and the bottom end of the first glass are respectively positioned in first grooves of the upper heat insulation seat and the lower heat insulation seat, and the top end and the bottom end of the second glass are respectively positioned in second grooves of the upper heat insulation seat and the lower heat insulation seat; and sealing strips are respectively arranged at the top end and the bottom end of the first glass and the second glass, and a cavity is formed between the first glass and the second glass.

Preferably, an upper heat insulation piece and a lower heat insulation piece are further arranged in the cavity, and the upper heat insulation piece comprises a base body made of plastics and an aluminum strip covering the outer surface of the base body; the base body is connected with the upper heat insulation seat and covers the sealing strip positioned in the cavity, and one end of the aluminum strip extends into the upper heat insulation seat; the lower heat insulation piece and the upper heat insulation piece are identical in structure, the base body of the lower heat insulation piece is connected with the lower heat insulation seat, the sealing strip located in the cavity is covered, and one end of the aluminum strip of the lower heat insulation piece extends into the lower heat insulation seat.

Preferably, through holes are formed in the sides, facing the outside, of the upper heat insulation seat and the lower heat insulation seat.

Preferably, the upper heat insulation seat and the lower heat insulation seat are both made of plastics.

Preferably, the high-efficiency energy-saving glass unit for architectural decoration further comprises a first heat insulation layer, wherein the first heat insulation layer is located in the cavity and is attached to the first glass.

Preferably, the high-efficiency energy-saving glass unit for architectural decoration further comprises a second heat insulation layer, wherein the second heat insulation layer is located in the cavity and is attached to the second glass.

Compared with the prior art, the utility model discloses a high-efficient energy-conserving glass unit for architectural decoration can guarantee to have thermal-insulated efficiency, long service life. The high-efficiency energy-saving glass unit for architectural decoration comprises a support piece, an upper heat insulation seat, a lower heat insulation seat, first glass and second glass, wherein the upper heat insulation seat is provided with a first groove and a second groove, and an upper boss is formed between the first groove and the second groove; the lower heat insulation seat has the same structure as the upper heat insulation seat, and a lower boss is formed between the first groove and the second groove of the lower heat insulation seat; the top end and the bottom end of the first glass are respectively positioned in first grooves of the upper heat insulation seat and the lower heat insulation seat, and the top end and the bottom end of the second glass are respectively positioned in second grooves of the upper heat insulation seat and the lower heat insulation seat; and sealing strips are respectively arranged at the top end and the bottom end of the first glass and the second glass, and a cavity is formed between the first glass and the second glass. Through fixing first glass and second glass between two thermal-insulated seats to use the sealing strip to insulate against heat the cavity as far as possible, guaranteed the heat-proof quality of whole glass unit, and can not receive high temperature to influence ageing, prolonged life.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

The figure shows that: the heat insulation structure comprises a support member 1, an upper heat insulation seat 2, a lower heat insulation seat 3, first glass 4, second glass 5, an upper heat insulation member 6, a lower heat insulation member 7, a first groove 8, a second groove 9, a sealing strip 10, a base body 11, an aluminum strip 12, a through hole 13, a first heat insulation layer 14 and a second heat insulation layer 15.

Detailed Description

The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, corresponding reference numerals indicate like or corresponding parts and features.

As shown in fig. 1, the high-efficiency energy-saving glass unit for architectural decoration according to the embodiment of the present invention includes a support member 1, an upper heat insulation seat 2, a lower heat insulation seat 3, a first glass 4 and a second glass 5, wherein the upper heat insulation seat 2 is provided with a first groove 8 and a second groove 9, and an upper boss is formed between the first groove 8 and the second groove 9; the lower heat insulation seat 3 has the same structure as the upper heat insulation seat 2, and a lower boss is formed between the first groove 8 and the second groove 9 of the lower heat insulation seat 3; the top end and the bottom end of the first glass 4 are respectively positioned in the first grooves 8 of the upper heat insulation seat 2 and the lower heat insulation seat 3, and the top end and the bottom end of the second glass 5 are respectively positioned in the second grooves 9 of the upper heat insulation seat 2 and the lower heat insulation seat 3; the top end and the bottom end of the first glass 4 and the second glass 5 are respectively provided with a sealing strip 10, and a cavity is formed between the first glass 4 and the second glass 5.

Wherein, set up corresponding two pairs of recesses on two thermal-insulated seats, through fixing first glass 4 and second glass 5 between two pairs of recesses to use sealing strip 10 to seal top and bottom, insulate against heat the cavity as far as possible, thereby guaranteed the heat-proof quality of whole glass unit, simultaneously because the reason of thermal-insulated seat and sealing strip 10, the glass unit can not receive high temperature to influence ageing, has prolonged life.

In the energy-efficient glass unit for architectural decoration of the above embodiment, preferably, an upper heat insulating element 6 and a lower heat insulating element 7 are further disposed in the cavity, and the upper heat insulating element 6 comprises a base body 11 made of plastic and an aluminum strip 12 covering the outer surface of the base body 11; the base body 11 is connected with the upper heat insulation seat 2 and covers the sealing strip 10 positioned in the cavity, and one end of the aluminum strip 12 extends into the upper heat insulation seat 2; the lower heat insulation piece 7 and the upper heat insulation piece 6 are identical in structure, a base body 11 of the lower heat insulation piece 7 is connected with the lower heat insulation base 3 and covers the sealing strips 10 located in the cavity, and one end of each aluminum strip 12 of the lower heat insulation piece 7 extends into the lower heat insulation base 3. The top and bottom of the cavity are further insulated by the provision of upper and lower insulation 6, 7; and the heat in the cavity is conducted to the heat insulation seat by arranging the aluminum strip 12 for heat conduction, so that the heat insulation effect is improved. Meanwhile, the base body 11 is made of plastic, so that the heat conductivity coefficient is low, heat absorbed by the aluminum strips 12 is not easy to transfer to the sealing strip 10, and the accelerated aging of the sealing strip 10 in a high-temperature environment is avoided.

Preferably, the upper heat insulation seat 2 and the lower heat insulation seat 3 are provided with through holes 13 on the sides facing the outside. Through set up through-hole 13 on last thermal-insulated seat 2 and the thermal-insulated seat 3 down, can be convenient for discharge the heat of conducting the aluminium strip 12 to in the thermal-insulated seat, raise the efficiency.

Preferably, the upper heat insulation seat 2 and the lower heat insulation seat 3 are both made of plastics. The plastic has low heat conductivity coefficient, is not easy to transfer heat to the supporting piece 1, realizes indoor heat preservation, achieves the effects of energy conservation and heat preservation, avoids accelerated aging in high-temperature environment, and can prolong the service life.

Preferably, the high-efficiency energy-saving glass unit for architectural decoration further comprises a first heat insulation layer 14, wherein the first heat insulation layer 14 is positioned in the cavity and is attached to the first glass 4. The first glass 4 faces the indoor, and the first heat insulation layer 14 can play a role in heat insulation and heat preservation, so that the indoor temperature is prevented from being excessively increased.

Preferably, the high-efficiency energy-saving glass unit for architectural decoration further comprises a second heat insulation layer 15, wherein the second heat insulation layer 15 is positioned in the cavity and is attached to the second glass 5. The second glass 5 faces outdoors, the second heat insulation layer 15 plays a role in heat insulation and heat preservation, the temperature in the cavity is prevented from rising too much, and the second heat insulation layer 15 is arranged in the cavity and can be prevented from being damaged by wind, rain and rain when being located outside.

The working process of the high-efficiency energy-saving glass unit for architectural decoration in the embodiment comprises the following steps: when the heat insulation seat works, the second glass 5 faces outwards, the first glass 4 faces inwards, and after the assembly is completed, heat is transferred into the cavity from the glass, is absorbed by the aluminum strips 12 in the cavity after the heat insulation layer acts, and is transferred into the heat insulation seat, and the temperature in the cavity is not high; the heat is discharged to the outside from the through hole 13 of the heat insulation seat, thereby ensuring the heat insulation effect of the whole glass unit.

Compared with the prior art, adopt the utility model discloses a high-efficient energy-saving glass unit for architectural decoration fixes between two heat-insulating seats through first glass and second glass to use the sealing strip to insulate against heat the cavity as far as possible, guaranteed whole glass unit's heat-proof quality, and can not receive high temperature to influence ageing, prolonged life.

The embodiments of the present invention are merely preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. All equivalent changes and modifications made according to the content of the claims of the present invention should be regarded as the technical scope of the present invention.

Claims (6)

1. The efficient energy-saving glass unit for architectural decoration is characterized by comprising a support piece (1), an upper heat insulation seat (2), a lower heat insulation seat (3), first glass (4) and second glass (5), wherein the upper heat insulation seat (2) is provided with a first groove (8) and a second groove (9), and an upper boss is formed between the first groove (8) and the second groove (9); the lower heat insulation seat (3) has the same structure as the upper heat insulation seat (2), and a lower boss is formed between the first groove (8) and the second groove (9) of the lower heat insulation seat (3); the top end and the bottom end of the first glass (4) are respectively positioned in first grooves (8) of the upper heat insulation seat (2) and the lower heat insulation seat (3), and the top end and the bottom end of the second glass (5) are respectively positioned in second grooves (9) of the upper heat insulation seat (2) and the lower heat insulation seat (3); the top end and the bottom end of the first glass (4) and the second glass (5) are respectively provided with a sealing strip (10), and a cavity is formed between the first glass (4) and the second glass (5).

2. An energy efficient glass unit for architectural decoration according to claim 1 wherein an upper thermal insulator (6) and a lower thermal insulator (7) are further provided in the cavity, the upper thermal insulator (6) comprising a base body (11) made of plastic and an aluminum strip (12) covering the outer surface of the base body (11); the base body (11) is connected with the upper heat insulation seat (2) and covers the sealing strip (10) positioned in the cavity, and one end of the aluminum strip (12) extends into the upper heat insulation seat (2); the lower heat insulation piece (7) and the upper heat insulation piece (6) are identical in structure, a base body (11) of the lower heat insulation piece (7) is connected with the lower heat insulation seat (3) and covers a sealing strip (10) located in the cavity, and one end of an aluminum strip (12) of the lower heat insulation piece (7) extends into the lower heat insulation seat (3).

3. An energy-efficient glass unit for architectural decoration according to claim 1, characterized in that the sides of the upper insulating base (2) and the lower insulating base (3) facing the outside are provided with through holes (13).

4. An energy efficient glass unit for architectural decoration according to claim 1, wherein the upper insulating base (2) and the lower insulating base (3) are both made of plastic.

5. An energy efficient glass unit for architectural decoration according to claim 1 further comprising a first insulating layer (14), wherein the first insulating layer (14) is located in the cavity and is attached to the first glass (4).

6. An energy efficient glass unit for architectural decoration according to claim 1 further comprising a second insulating layer (15), wherein the second insulating layer (15) is located in the cavity and is attached to the second glass (5).

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