CN214273341U - Energy-saving vertical hinged door system - Google Patents

Abstract

The utility model discloses an energy-conserving vertical hinged door system, including door frame section bar, the thermal-insulated strip of door frame, door frame thermal-insulated cotton, door frame intermediate seal strip, door leaf section bar, the thermal-insulated strip of door leaf, the thermal-insulated cotton of door leaf, door leaf sealing strip, heat-proof glass, heat preservation cotton, through increasing the lower material of thermal conductivity in the inside space department of vertical hinged door, realize promoting the purpose that the vertical hinged door is thermal-insulated and heat preservation performance.

Description

Energy-saving vertical hinged door system

Technical Field

The utility model relates to a building door and window field, in particular to energy-conserving vertical hinged door system.

Background

Most commercial buildings on the market use aluminum alloy side hung doors as the entrance doors. Along with the entering and exiting of personnel, the aluminum alloy vertical hinged door is often in a continuous opening and closing state, so that the door with the structure is not ideal in heat insulation performance.

With the continuous improvement and improvement of the heat insulation and preservation performance of other structures and parts of commercial buildings, the original aluminum alloy side hung door gradually becomes a part with weaker heat insulation and preservation performance in the buildings, so that the heat insulation and preservation performance of the structural door is urgently needed to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of above-mentioned technique, and provide an energy-conserving vertical hinged door system, can promote thermal-insulated and thermal insulation performance.

In order to realize the purpose of the utility model, the utility model adopts the technical scheme that:

an energy-saving side hung door system comprises double-hollow glass, a door frame and a door leaf, wherein the door frame comprises a door frame profile, a door frame heat insulation strip, door frame heat insulation cotton and a door frame middle sealing strip; the door leaf heat insulation strip is arranged on the surface of the inner cavity of the door leaf sectional material, the door leaf heat insulation cotton is connected with the other surface of the door leaf heat insulation strip and fills the space of the inner cavity of the door leaf sectional material, the door leaf middle sealing strip is arranged on one outer surface of the door leaf sectional material and is in lap joint with the door frame middle sealing strip, the heat insulation glass is arranged on the other outer surface of the door leaf sectional material, and the heat insulation cotton is used for filling a gap between the heat insulation glass and the installation surface of.

In a preferred embodiment of the present invention, the door frame profile is formed by rolling and compounding an outdoor door frame profile and an indoor door frame profile.

In a preferred embodiment of the present invention, the door frame heat insulation cotton is integrally connected to the door frame heat insulation strip in a form of a snap joint.

In a preferred embodiment of the present invention, the door leaf profile is formed by rolling and compounding the door leaf outdoor profile and the door leaf indoor profile.

In a preferred embodiment of the present invention, the door leaf heat insulation cotton is integrally connected to the door leaf heat insulation strip in a form of a snap joint.

The utility model discloses a preferred embodiment, insulating glass still includes two cavity glass, glass outdoor seal and wears strip, the indoor sealed stuff of glass and glass line ball, glass outdoor seal wears strip, the indoor sealed stuff of glass and two cavity glass seals through the dry process after, is fixed in on the door leaf indoor section bar through the connecting piece on the glass line ball.

The beneficial effects of the utility model reside in that:

the utility model provides an energy-conserving vertical hinged door system makes the interior thermal conductivity of door reduce. The purposes of improving the heat insulation and heat preservation performance and enabling the building to be low-carbon and environment-friendly are achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

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

Fig. 2 is a front view of the present invention.

Detailed Description

The detailed structure of the present invention will be further described with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, an energy-saving vertical hinged door system is mainly composed of a door frame 1 and a door leaf 2. The doorframe 1 comprises an outdoor doorframe profile 11, an indoor doorframe profile 12, a doorframe heat insulation strip 13, doorframe heat insulation cotton 14 and a doorframe middle sealing strip 15. The outdoor section bar 11 of the door frame and the indoor section bar 12 of the door frame are compositely connected through a rolling process, the interior of the outdoor section bar is of a cavity structure, and the heat insulation strips 13 of the door frame are respectively arranged on the two sides of the interior of the outdoor section bar and are connected with the outdoor section bar 11 of the door frame and the indoor section bar 12 of the door frame into a whole. The door frame heat insulation cotton 14 is fixed on the door frame heat insulation strip 13 through the notch of the door frame heat insulation cotton, and fills the inner gap in the middle of the door frame heat insulation strip 13.

The door leaf 2 comprises door leaf outdoor side sectional materials 21, door leaf indoor side sectional materials 22, door leaf heat insulation strips 23, glass sealing outdoor penetrating strips 24, glass sealing indoor plug strips 25, glass pressing lines 26, double-hollow glass 27, door leaf heat insulation cotton 28, heat insulation cotton 29 and door leaf middle sealing rubber strips 30. The door leaf outdoor side section bar 21 and the door leaf indoor side section bar 22 are compositely connected through a rolling process, the door leaf heat insulation bars 23 are respectively installed on the two sides of the interior and are connected with the door leaf indoor side section bar 21 and the door leaf indoor side section bar 22 into a whole. The door thermal insulation cotton 28 is fixed on the door thermal insulation strip 23 through a notch of the door thermal insulation cotton, and fills an inner cavity in the middle of the door thermal insulation strip 23.

As shown in fig. 1 and 2, the double hollow glass 27, the glass sealing outdoor penetration strip 24 and the glass sealing indoor plugging strip are sealed together by a dry method, and are clamped and installed with the door leaf indoor section bar 22 through the glass pressing line 26. The cavity between the double-hollow glass 27 and the door leaf 2 is filled with heat insulation cotton 29. Sealing rubber strip 15 in the middle of the door frame is installed to the inboard of door frame 1, and sealing rubber strip 30 in the middle of the door leaf is installed to the inboard of door leaf 2, and when door leaf 2 closed, sealing rubber strip 15 in the middle of the door frame and the 30 overlap joints of sealing rubber strip in the middle of the door leaf have cut off the hole in the middle of door frame 1 and door leaf 2, have reached heat retaining effect.

Claims (6)

1. An energy-saving side hung door system comprises double-hollow glass, a door frame and a door leaf, and is characterized in that the door frame comprises a door frame profile, a door frame heat insulation strip, door frame heat insulation cotton and a door frame middle sealing strip, the door leaf comprises a door leaf profile, a door leaf heat insulation strip, door leaf heat insulation cotton, a door leaf sealing strip, heat insulation glass and heat insulation cotton, the door frame heat insulation strip is installed on the surface of an inner cavity of the door frame profile, the door frame heat insulation cotton is connected with the other side of the door frame heat insulation strip and fills the space of the inner cavity of the door frame profile, and the door frame middle sealing strip is installed on one surface outside the door frame profile; the door leaf heat insulation strip is arranged on the surface of the inner cavity of the door leaf sectional material, the door leaf heat insulation cotton is connected with the other surface of the door leaf heat insulation strip and fills the space of the inner cavity of the door leaf sectional material, the door leaf middle sealing strip is arranged on one outer surface of the door leaf sectional material and is in lap joint with the door frame middle sealing strip, the heat insulation glass is arranged on the other outer surface of the door leaf sectional material, and the heat insulation cotton is used for filling a gap between the heat insulation glass and the installation surface of the door leaf sectional material.

2. The energy-saving vertical hinged door system of claim 1, wherein the door frame section is formed by rolling and compounding an outdoor door frame section and an indoor door frame section.

3. The energy-saving vertical hinged door system according to claim 2, wherein the door frame heat insulation cotton is integrally connected with the door frame heat insulation strip in a clamping manner.

4. An energy-saving vertical hinged door system as claimed in claim 1 or 3, wherein the door leaf profile is formed by rolling and compounding the door leaf outdoor profile and the door leaf indoor profile.

5. The energy-saving vertical hinged door system according to claim 4, wherein the door leaf heat insulation cotton is integrally connected with the door leaf heat insulation strip in a clamping manner.

6. The energy-saving vertical hinged door system according to claim 3 or 5, wherein the insulating glass further comprises double hollow glass, a glass outdoor sealing penetrating strip, a glass indoor sealing plug strip and a glass pressing line, and the glass outdoor sealing penetrating strip, the glass indoor sealing plug strip and the double hollow glass are sealed by a dry method and then fixed on the door leaf indoor section bar through a connecting piece on the glass pressing line.

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