CN212105589U - Energy-saving assembly for hollow glass of door and window - Google Patents

Abstract

The utility model discloses an energy-conserving subassembly of door and window cavity glass belongs to building material technical field, including outdoor glass, indoor glass and space bar, its outdoor glass is the same and parallel arrangement with indoor glass specification and dimension, the space bar has been put to outdoor glass and indoor glass edge inboard, the space bar both sides are sealed through first sealed glue connection with outdoor glass and indoor glass internal surface, the space bar surface is sealed with outdoor glass and indoor glass's recess embeds has the sealed glue of second, outdoor glass and indoor glass neighboring suit are the U type rubber pad, the space bar is the cavity structure, inside the filling granule drier, the local through-hole of the cavity inner wall of space bar. The utility model discloses a door and window cavity glass energy-saving component, structural design is reasonable, adopts multilayer seal, leakproofness good between outdoor glass and the indoor glass, promotes the seal between indoor glass and the outdoor glass, avoids the high problem of heat exchange, is favorable to reducing energy resource consumption, energy-concerving and environment-protective.

Description

Energy-saving assembly for hollow glass of door and window

Technical Field

The utility model belongs to the technical field of building material, especially, relate to a door and window cavity glass energy-saving component.

Background

In modern buildings, doors and windows are indispensable components, which are related to factors such as lighting, heat preservation and sound insulation in rooms, and the existing door and window structure is to fix double-layer glass together and then fix the double-layer glass in a door frame or a window frame. However, the fixing structure of the double-layer glass has certain disadvantages, for example, compared with a wall body, the tightness of the double-layer glass is difficult to ensure, so that the heat insulation capability is poor, when the temperature difference between the indoor and the outdoor is large, heat exchange is easy to occur, the refrigerating and heating effects of an air conditioning system are affected, and the energy consumption is greatly increased. In addition, the sealing effect of the existing double-layer glass fixed on the frame body is poor, the glue is required to be applied to the gap between the glass and the frame body for sealing after installation, the technical content of the glue application work is high, and the labor difficulty of workers is greatly increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, the energy-conserving subassembly of a door and window cavity glass that provides.

The utility model discloses a door and window cavity glass energy-saving component, including outdoor glass, indoor glass and space bar, its outdoor glass is the same and parallel placement with indoor glass specification and dimension, the space bar has been put to outdoor glass and indoor glass edge inboard, the space bar both sides are sealed through first sealed glue connection with outdoor glass and indoor glass internal surface, the space bar surface is sealed with outdoor glass and indoor glass's recess embeds there is sealed glue of second, outdoor glass and indoor glass neighboring suit are U type rubber pad, the space bar is the cavity structure, inside the filling granule drier, the local through-hole of the cavity inner wall of space bar.

As the optimization of the utility model, inert gas is arranged in the sealing cavity enclosed by the outdoor glass, the indoor glass and the spacing bars.

As the utility model discloses a preferred, first sealed glue is butyl rubber, and sealed glue of second is silicone adhesive.

As the optimization of the utility model, the outdoor glass adopts low-emissivity film glass.

The utility model discloses a door and window cavity glass energy-saving component, structural design is reasonable, adopt the multilayer seal between outdoor glass and the indoor glass, the leakproofness is good, promote the seal between indoor glass and the outdoor glass, avoid the high problem of heat exchange, be favorable to reducing energy consumption, energy-concerving and environment-protective, lie in framework equipment back once only to accomplish simultaneously, need not to carry out the sealed work of gluing in later stage, reduce intensity of labour and the degree of difficulty, be favorable to promoting the seal between work efficiency and framework and the glass subassembly.

Drawings

Fig. 1 is a longitudinal sectional view of the present invention.

Detailed Description

The following describes the energy saving assembly for hollow glass of door and window with reference to fig. 1.

Example 1

The utility model discloses an energy-conserving subassembly of door and window cavity glass, including outdoor glass 1, indoor glass 2 and space stop bar 3, its outdoor glass 1 is the same with 2 specification and dimension of indoor glass and parallel placement, space stop bar 3 has been put to outdoor glass 1 and 2 marginal inboards of indoor glass, 3 both sides of space stop bar are connected sealedly through first sealed glue 4 with outdoor glass 1 and 2 internal surfaces of indoor glass, the 3 surfaces of space stop bar have sealed glue 5 with outdoor glass 1 and 2 recess embeds of indoor glass and seal, outdoor glass 1 and 2 neighboring suit U type rubber pads 6 of indoor glass, space stop bar 3 is the cavity structure, its inside is being filled granule drier 7, the local through-hole 8 of the cavity inner wall of space stop bar 3.

Example 2

The utility model discloses an energy-conserving subassembly of door and window cavity glass, including outdoor glass 1, indoor glass 2 and space stop bar 3, its outdoor glass 1 is the same with 2 specification and dimension of indoor glass and parallel placement, space stop bar 3 has been put to outdoor glass 1 and 2 marginal inboards of indoor glass, space stop bar 3 both sides and outdoor glass 1 and 2 internal surfaces of indoor glass are connected sealedly through first sealed glue 4, space stop bar 3 surface and outdoor glass 1 and 2 recess of indoor glass embed to have sealed glue 5 of second sealed, outdoor glass 1 and 2 neighboring suit U type rubber pads 6 of indoor glass, space stop bar 3 adopts the metal material to make and space stop bar 3 is the cavity structure, its inside is filling granule drier 7, the local through-hole 8 of the cavity inner wall of space stop bar 3. The sealed cavity 9 enclosed by the outdoor glass 1, the indoor glass 2 and the spacing bars 3 is internally provided with inert gas, thereby further reducing heat conduction and avoiding rapid heat dissipation. The first sealant 4 is butyl rubber, the second sealant 5 is silicone rubber, the multi-layer sealing ensures the airtightness between double-layer glass, and the heat insulation effect is improved, so that the purpose of energy conservation is realized. The outdoor glass 1 is made of low-emissivity film glass. The U-shaped rubber pad 6 is sleeved after the outdoor glass 1 and the indoor glass 2 are attached to each other, then the door and window frames are placed in the door and window frames and fixed through the clamping strips, the door and window frames are closely attached to the U-shaped rubber pad 6 through the clamping strips, the sealing effect is achieved, and therefore the door and window frames do not need to be sealed through gluing.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims (4)

1. An energy-saving component for hollow glass of doors and windows comprises outdoor glass (1), indoor glass (2) and spacing strips (3), the outdoor glass and indoor glass combined type heat exchanger is characterized in that the outdoor glass (1) and the indoor glass (2) are identical in specification and size and are placed in parallel, the inner sides of the edges of the outdoor glass (1) and the indoor glass (2) are provided with spacing strips (3), the two sides of each spacing strip (3) are connected and sealed with the inner surfaces of the outdoor glass (1) and the indoor glass (2) through first sealants (4), the outer surfaces of the spacing strips (3) are sealed with second sealants (5) in grooves of the outdoor glass (1) and the indoor glass (2), U-shaped rubber gaskets (6) are sleeved on the outer peripheral edges of the outdoor glass (1) and the indoor glass (2), the spacing strips (3) are of a cavity structure, particle drying agents (7) are filled in the spacing strips, and through holes (8) are.

2. The energy-saving assembly of hollow glass of door and window as claimed in claim 1, characterized in that the sealed cavity (9) enclosed by the outdoor glass (1), the indoor glass (2) and the spacing bar (3) is filled with inert gas.

3. The insulating glass energy-saving assembly for doors and windows according to claim 1 or 2, characterized in that the first sealant (4) is butyl rubber and the second sealant (5) is silicone rubber.

4. An energy-saving component of insulating glass for doors and windows according to claim 1 or 2, characterized in that the outdoor glass (1) is low-emissivity film glass.

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