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CN215978995U - Heat-preservation and heat-insulation aluminum alloy door and window - Google Patents

Heat-preservation and heat-insulation aluminum alloy door and window Download PDF

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Publication number
CN215978995U
CN215978995U CN202122220415.8U CN202122220415U CN215978995U CN 215978995 U CN215978995 U CN 215978995U CN 202122220415 U CN202122220415 U CN 202122220415U CN 215978995 U CN215978995 U CN 215978995U
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heat
aluminum alloy
window
aerogel
alloy door
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王志坚
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Abstract

The utility model discloses a heat-preservation and heat-insulation aluminum alloy door and window, and belongs to the field of heat-insulation doors and windows. The heat-preservation and heat-insulation aluminum alloy door and window comprises two aluminum alloy sections which are oppositely arranged and two heat-insulation strips which are arranged between the two aluminum alloy sections, wherein an aerogel felt or an aerogel plate is tightly arranged between the heat-insulation strips. And U-shaped lining paper is arranged on the outer side of the aerogel felt or the aerogel plate. Polyurethane foaming glue is arranged between the aerogel felt or the aerogel plate and the U-shaped liner paper. The heat-insulating aluminum alloy door and window disclosed by the utility model not only utilizes the characteristics of excellent heat-insulating property, light weight and good flame-retardant effect of aerogel materials, but also greatly reduces the heat transfer coefficient of the aluminum alloy door and window, reduces the weight of the aluminum alloy door and window, improves the heat-insulating property, the sound-insulating property and the flame-retardant property of the aluminum alloy door and window and reduces the requirements on door and window hardware. The heat-insulating aluminum alloy door and window is simple to manufacture and low in cost, and the overall performance of the whole window is greatly improved.

Description

Heat-preservation and heat-insulation aluminum alloy door and window
Technical Field
The utility model relates to the technical field of heat-insulating doors and windows, in particular to a heat-insulating aluminum alloy door and window.
Background
The aluminum alloy door and window section is formed by extruding a heated aluminum ingot into a required aluminum section through a preset die. The aluminum profile and the nylon heat insulation strip are compounded together to form various aluminum alloy profile frames, sash, mullions and other profiles, so that the bridge cut-off heat insulation aluminum alloy door and window is combined. As shown in attached figure 1, the aluminum alloy section 1 and the nylon heat insulation strip 2 are compounded, and the purpose of heat preservation and heat insulation is achieved by utilizing the difference of heat transfer coefficients of the nylon strip and the aluminum alloy section.
However, with the improvement of the energy-saving requirements of buildings all over the world, the existing bridge-cut-off heat-insulation aluminum alloy doors and windows cannot meet the requirement of further reducing the heat transfer coefficient of the whole window. In the prior art, a polyurethane material with a lower heat transfer coefficient is compounded among aluminum alloy sections so as to further improve the heat insulation performance of the whole aluminum alloy door and window. As shown in attached figure 2, the aluminum alloy section 1 and the foaming polyurethane 3 are compounded, and the aim of heat preservation and heat insulation is achieved by utilizing the characteristic of low heat transfer coefficient of the polyurethane. However, the polyurethane material has high density and heavy weight, and the polyurethane needs high density or the size of the polyurethane section bar is large to meet the national energy-saving standard requirements, so that the weight of the aluminum alloy door and window is greatly improved, or the thickness of the aluminum alloy door and window is greatly improved, and therefore, the requirements on the window sash hardware are greatly improved, the cost is high, the market is not acceptable, and the wide popularization is not facilitated. And when the polyurethane material composite aluminum alloy section is adopted, the aluminum alloy section must be of an integral structure, so that the indoor and outdoor different color settings of the polyurethane composite section aluminum alloy window cannot be realized. And the polyurethane material is hard after being cured, so that an arc-shaped aluminum alloy window structure cannot be realized. Therefore, the prior door and window adopting the polyurethane composite aluminum alloy section still has a plurality of problems.
Therefore, the above-mentioned conventional al-alloy doors and windows still have inconvenience and defects in structure, method and use, and further improvement is needed. How to create a new heat preservation and heat insulation aluminum alloy door and window, make it when guaranteeing to satisfy the heat-proof quality, light in weight, small, and promote door and window intensity, surface accuracy, sound insulation and corrosion-resistant effect, become the target that the industry greatly needs to improve at present.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a heat-insulating aluminum alloy door and window, which has the advantages of light weight, small volume, improvement on the effects of strength, surface precision, sound insulation and corrosion resistance of the door and window while ensuring the heat-insulating property, thereby overcoming the defects of the existing aluminum alloy door and window.
In order to solve the technical problem, the utility model provides a heat-preservation and heat-insulation aluminum alloy door and window which comprises two aluminum alloy sections which are oppositely arranged and two heat-insulation strips arranged between the two aluminum alloy sections, wherein an aerogel felt or an aerogel plate is tightly arranged between the two heat-insulation strips.
In further improvement, the outer side of the aerogel felt or the aerogel plate is provided with U-shaped lining paper.
In further improvement, polyurethane foaming glue is arranged between the aerogel felt or the aerogel plate and the U-shaped liner paper.
The improved structure is characterized in that a plurality of aerogel felts or aerogel plates are arranged between the two heat insulation strips, and polyurethane foaming glue is arranged between the aerogel felts or the aerogel plates.
Further improvement, the heat insulation strips are nylon heat insulation strips.
After adopting such design, the utility model has at least the following advantages:
according to the heat-preservation and heat-insulation aluminum alloy door and window, the aerogel felt or the aerogel plate is arranged in the cavity between the heat insulation strips in the aluminum alloy door and window profile, so that the characteristics of excellent heat-insulation performance, light weight and good flame-retardant effect of aerogel materials are utilized, the heat transfer coefficient of the aluminum alloy door and window is greatly reduced, the weight of the aluminum alloy door and window is reduced, the heat-preservation and heat-insulation performance, the sound-insulation performance and the flame-retardant performance of the aluminum alloy door and window are improved, and the requirements on door and window hardware are lowered. The composite window can also simply and conveniently realize the compounding of the aerogel felt or the aerogel plate and the aluminum alloy section, has simple manufacture and low cost, and greatly improves the overall performance of the whole window.
Drawings
The foregoing is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description.
Fig. 1 is a schematic structural view of a conventional bridge-cut aluminum door window.
Fig. 2 is a schematic structural diagram of a conventional polyurethane heat-insulating aluminum alloy door window.
FIG. 3 is a schematic structural view of the heat-insulating aluminum alloy door and window of the present invention.
FIG. 4 is a schematic flow chart of the method for manufacturing the heat-insulating aluminum alloy door and window.
Detailed Description
According to the utility model, the aerogel material is arranged in the cavity between the heat insulating strips in the aluminum alloy door and window profile in the form of the aerogel felt or the aerogel plate, so that the characteristics of excellent heat insulating property, light weight and good flame retardant effect of the aerogel material are utilized, the heat transfer coefficient of the aluminum alloy door and window is greatly reduced, the weight of the aluminum alloy door and window is reduced, the heat insulating property, the sound insulating property and the flame retardant property of the aluminum alloy door and window are improved, the requirements of door and window hardware are reduced, the compounding of the aerogel felt or the aerogel plate and the aluminum alloy profile can be simply and conveniently realized, and the aluminum alloy door and window profile is simple to manufacture, low in cost and good in effect. Specific examples thereof are as follows.
Example one
Referring to the attached drawing 3, the heat preservation and insulation aluminum alloy door and window of the embodiment comprises two aluminum alloy sections 1 which are oppositely arranged, and two heat insulation strips 2 which are arranged between the two aluminum alloy sections 1, wherein aerogel felts 4 are tightly arranged between the two heat insulation strips 2.
In this example, the aluminum alloy profile 1 was extruded by an existing extruder. Two symmetrically arranged tooth-opening notches 11 are respectively arranged on the opposite surfaces of the two aluminum alloy profiles 1 and used for being clamped into the heat insulation strips 2. In the embodiment, the thermal insulating strip 2 is a nylon thermal insulating strip.
In the embodiment, before the aerogel felt 4 is used, the aerogel felt is cut into a U-shaped space 12 formed by two aluminum alloy profiles 1 and two heat insulation strips 2. In order to satisfy the requirement of tightly filling the U-shaped space 12 with the aerogel blanket 4, the compression amount of the aerogel material is required to be set aside in advance, for example, the volume of the aerogel blanket 4 cut in advance is more than 15% of the theoretical volume of the U-shaped space.
Referring to fig. 4, in order to fill and compact the aerogel blanket 4 in the U-shaped space 12 and avoid the problem that the aerogel is easily not filled in place and has dead corners and gaps when being injected under high pressure, the preparation method adopted in this embodiment is as follows:
(1) one end of each of the two heat insulation strips 2 penetrates into the notched opening 11 of the aluminum alloy section 1 on one side;
(2) inserting the cut aerogel felt 4 into a U-shaped space 12 formed by the aluminum alloy section bar 1 and the two heat insulation strips 2;
the method for inserting the aerogel felt 4 into the U-shaped space 12 comprises the following steps: the cut aerogel felt 4 is conveyed to the inside of the U-shaped space 12 along the axial direction of the U-shaped space through the aerogel rolling disc, a pressing wheel is arranged on the upper portion of the U-shaped space 12 and used for pressing the part exceeding the upper portion of the U-shaped space 12 into the inside of the U-shaped space 12, and the aerogel felt 4 is pressed into the U-shaped space 12 tightly.
(3) The aluminum alloy section 1 on the other side is arranged at the other ends of the two heat insulation strips 2, so that the compounding of the aerogel felt 4 and the aluminum alloy section 1 is completed;
(4) and extruding the notched groove 11 on the aluminum alloy section bar 1 to complete the tight fixation of the aerogel felt 4 between the aluminum alloy section bars 1 and the two heat insulation strips 2 on the two sides, thereby obtaining the heat-preservation and heat-insulation aluminum alloy door and window.
Example two
The difference between this embodiment and the first embodiment is that the aerogel plate 4' is tightly disposed in the U-shaped space of the al-alloy door/window.
The difference is that the method for inserting the aerogel plate 4' into the U-shaped space is as follows: a U-shaped lining paper is arranged below the aerogel plate 4 ', the aerogel plate 4 ' is positioned inside the U-shaped lining paper, and the U-shaped lining paper and the aerogel plate 4 ' arranged inside are pushed together into the U-shaped space 12.
The insertion method of the aerogel plate utilizes the smoothness of the outer side of the U-shaped liner paper to more conveniently and quickly realize the insertion of the aerogel plate and improve the manufacturing efficiency.
Therefore, the heat-preservation and heat-insulation aluminum alloy door and window prepared by the preparation method not only contains the aerogel plate 4 ', but also is provided with the U-shaped lining paper on the outer side of the aerogel plate 4'.
EXAMPLE III
The difference between this embodiment and the first embodiment is that the aerogel plate 4' is tightly disposed in the U-shaped space of the al-alloy door/window.
The difference is that the method for inserting the aerogel plate 4' into the U-shaped space is as follows: the U-shaped lining paper is arranged below the aerogel plate 4 ', the aerogel plate 4 ' is positioned in the U-shaped lining paper, a gap is reserved between the aerogel plate 4 ' and the U-shaped lining paper, the U-shaped lining paper and the aerogel plate 4 ' are pushed into the U-shaped space 12 together, and meanwhile, polyurethane foaming glue is injected into the gap reserved between the aerogel plate 4 ' and the U-shaped lining paper.
The insertion method of the aerogel plate is characterized in that the smoothness of the outer side of the U-shaped liner paper is utilized, so that the aerogel plate 4' can be inserted more conveniently and rapidly, and the manufacturing efficiency is improved; secondly, the polyurethane foaming adhesive is used for filling a gap between the aerogel plate 4' and the U-shaped liner paper, and after the polyurethane is solidified, the U-shaped space can be filled and filled better, so that the heat insulation and sound insulation effects are further improved.
Therefore, the heat-preservation and heat-insulation aluminum alloy door and window prepared by the preparation method not only contains the aerogel plate 4', but also is provided with the U-shaped lining paper on the outer side, and the polyurethane foaming glue is arranged between the aerogel plate 4 and the U-shaped lining paper.
Of course, still can set up many aerogel felts or aerogel board between two heat insulating strips according to actual conditions, all fill polyurethane foam between many aerogel felts or the aerogel board, further promote the complex of aerogel and polyurethane material.
And through contrast research, the aerogel felt or aerogel plate is filled in the cavity position between the two heat insulation strips, and the heat insulation performance of the whole window is improved more excellently than the cavity position filled in the aluminum alloy section bar, the heat transfer coefficient is reduced more, and the manufacturing method is simple and feasible.
The heat-insulating aluminum alloy door and window can enable the aerogel material to be fully filled in the U-shaped space and not to be easily loosened, the aerogel material cannot fall off in the later-stage aluminum alloy profile processing process, the strength is higher, the surface precision is higher, the later-stage aluminum alloy profile further processing is facilitated, the external decoration effect is rich, and the heat-insulating aluminum alloy door and window has the advantages of easiness in processing, corrosion resistance, long service life and the like. And the heat transfer coefficient K value of the heat-insulating aluminum alloy door and window can reach 0.6-0.9W/(m)2K) is far lower than the heat transfer coefficient of the existing aluminum alloy doors and windows.
The heat-insulating aluminum alloy door and window can greatly improve the heat-insulating performance of the door and window, can also improve the sound-insulating performance of products, reduces the weight of aluminum alloy sections, reduces the manufacturing cost, reduces the performance requirement of accessory products matched with the aluminum alloy window and greatly improves the overall performance of the whole window on the premise of ensuring the performance improvement of the sections.
In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention in any way, and it will be apparent to those skilled in the art that the above description of the present invention can be applied to various modifications, equivalent variations or modifications without departing from the spirit and scope of the present invention.

Claims (5)

1. The utility model provides a heat preservation and insulation aluminum alloy door and window, includes the aluminum alloy ex-trusions of two relative settings to and two heat insulating strip of setting between two aluminum alloy ex-trusions, its characterized in that, two closely set up aerogel felt or aerogel board between the heat insulating strip.
2. The heat-insulating aluminum alloy door and window as claimed in claim 1, wherein the aerogel felt or the aerogel plate is provided with a U-shaped lining paper on the outer side.
3. The heat-insulating aluminum alloy door and window as claimed in claim 2, wherein polyurethane foam is arranged between the aerogel felt or the aerogel plate and the U-shaped liner paper.
4. The heat-insulating aluminum alloy door and window as claimed in claim 1, wherein a plurality of aerogel felts or aerogel plates are arranged between the two heat-insulating strips, and polyurethane foaming glue is arranged between the aerogel felts or aerogel plates.
5. The heat-insulating aluminum alloy door and window as claimed in any one of claims 1 to 4, wherein the heat-insulating strips are nylon heat-insulating strips.
CN202122220415.8U 2021-09-14 2021-09-14 Heat-preservation and heat-insulation aluminum alloy door and window Active CN215978995U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122220415.8U CN215978995U (en) 2021-09-14 2021-09-14 Heat-preservation and heat-insulation aluminum alloy door and window

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122220415.8U CN215978995U (en) 2021-09-14 2021-09-14 Heat-preservation and heat-insulation aluminum alloy door and window

Publications (1)

Publication Number Publication Date
CN215978995U true CN215978995U (en) 2022-03-08

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122220415.8U Active CN215978995U (en) 2021-09-14 2021-09-14 Heat-preservation and heat-insulation aluminum alloy door and window

Country Status (1)

Country Link
CN (1) CN215978995U (en)

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