CN201486383U - Wood-aluminum composite inner door structure - Google Patents

Abstract

The utility model discloses a wood-aluminum compound inward-opening door structure, which comprises a frame, a mullion, a door leaf, glass, an outdoor glass rubber strip, an indoor glass rubber strip and an intermediate rubber strip. Sections of the frame, the mullion and the door leaf are all compounded by outer side aluminum alloy sections, inner side wood sections and two intermediate heat insulation bridges, a closed chamber is formed between the two intermediate heat insulation bridges and forms a compact rectangular three-cavity structure together with the inner side wood sections and the outer side wood sections, a third sealing rubber strip is arranged on the outer side aluminum alloy sections, the head portion of the intermediate rubber strip is directly lapped on the heat insulation bridge above the door leaf and forms two sealing chambers together with a stop rubber strip and the third sealing rubber strip, and the heat insulation bridges and the glass are located on the same baseline. The wood-aluminum compound inward-opening door structure has the advantages of obviously increasing heat insulation and sound insulation properties of the wood-aluminum compound inward-opening door structure, and having extremely high cost performance.

Description

Wood-aluminum composite inner door structure

technical field

The utility model relates to a door structure in the construction field, in particular to a wood-aluminum composite door structure with inner opening.

Background technique

At present, high-grade energy-saving wooden doors and windows widely used in construction projects include: solid wood doors and windows, aluminum-clad wood doors and windows, and wood-aluminum composite doors and windows. The wood-aluminum composite doors and windows are more suitable for the rainy, high temperature and humid climate conditions in the south because the outer side is made of heat-insulating aluminum alloy profiles and the inner side is made of wood decorative profiles. At present, the structure of wood-aluminum composite doors and windows processed and produced in the domestic market is unreasonable, and their performances such as wind pressure resistance, air tightness, sound insulation, and heat insulation are not very satisfactory, and there are still considerable energy losses.

Utility model content

The purpose of the utility model is to solve the problems in the prior art, and provide a wood-aluminum composite inner door structure with high heat insulation and sound insulation performance.

The technical scheme of the utility model is: a wood-aluminum composite door structure, including a frame, a stile, a fan, glass, an outdoor glass rubber strip, an indoor glass rubber strip, and an intermediate rubber strip, wherein the frame, the middle stile, and the fan The profiles are composed of outer aluminum alloy profiles, inner wooden profiles and two middle thermal insulation bridges, forming a closed cavity between the two middle thermal insulation bridges, forming a compact structure with inner wooden profiles and outer aluminum alloy profiles. Rectangular three-cavity structure; there is a third sealing rubber strip on the outer aluminum alloy profile, and the head of the middle rubber strip is directly overlapped with the heat insulation bridge on the fan, forming two A sealed cavity; the thermal insulation bridge and the glass are located on the same reference line.

The frame is flush with the outer surface of the fan.

The intermediate rubber strip has a multi-cavity structure.

Glass pads are provided on both sides of the glass to prevent rigid collision between the fan and the frame.

Preferably, the glass is insulating glass.

The beneficial effect of the utility model is that the heat insulation and sound insulation performance of the wood-aluminum composite inner door structure is significantly improved, and the utility model has high cost performance.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Detailed ways

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in Figure 1, the utility model is a wood-aluminum composite inner door structure, including a frame 1, a middle stile 4, a fan 2, a glass 3, an outdoor glass rubber strip 8, an indoor glass rubber strip 9, and an intermediate rubber strip 6, wherein The profiles of the frame 1, the stile 4, and the fan 2 are all composed of an outer aluminum alloy profile 12, an inner wooden profile 13 and two middle heat insulation bridges 5, forming a closed cavity between the two middle heat insulation bridges, and The inner wooden profile 13 and the outer aluminum alloy profile 12 form a compact rectangular three-cavity structure I, II, III.

There is a third sealing rubber strip 7 on the outer aluminum alloy profile 12, and the head of the middle rubber strip 6 is directly overlapped with the heat insulation bridge 5 on the fan 2, and forms with the sealing rubber strip 10 and the third sealing rubber strip 7 Two sealed cavities jointly ensure reliable sealing and heat preservation performance.

The heat insulation bridge 5 and the glass 3 are located on the same reference line, and the equipotential line design of the cross-section layer of the profile of the utility model makes the door structure have better heat insulation performance.

The frame 1 is flush with the outer surface of the fan 2 .

The intermediate rubber strip 6 has a multi-cavity structure.

Glass spacers 11 are provided on both sides of the glass 3 to prevent rigid collision between the fan 2 and the frame 1 .

Preferably, the glass 3 is hollow glass.

Claims (5)

1. A wood-aluminum composite inner door structure, comprising a frame, a stile, a fan, glass, an outdoor glass rubber strip, an indoor glass rubber strip, and an intermediate rubber strip, and it is characterized in that: the profiles of the frame, the stile, and the fan are all made from the outside The aluminum alloy profile, the inner wooden profile and two middle thermal insulation bridges are combined to form a closed cavity between the two middle thermal insulation bridges, and the inner wooden profile and the outer aluminum alloy profile form a compact rectangular three-cavity structure ; There is a third sealing rubber strip on the outer aluminum alloy profile, and the head of the middle rubber strip is directly overlapped with the heat insulation bridge on the fan, forming two sealing cavities with the sealing rubber strip and the third sealing rubber strip; The thermal insulation bridge and the glass are located on the same reference line. 2. The wood-aluminum composite door structure according to claim 1, wherein the frame is flush with the outer surface of the fan. 3. The wood-aluminum composite inner door structure according to claim 1, characterized in that: the middle rubber strip is a multi-cavity structure. 4. The wood-aluminum composite interior door structure according to claim 1, characterized in that: there are glass spacers on both sides of the glass to prevent the rigid collision between the leaf and the frame. 5. The wood-aluminum composite interior door structure according to claim 1, characterized in that: the glass is insulating glass.