CN217558182U - Heat-insulating composite door and window profile - Google Patents

Abstract

The utility model discloses a thermal-insulated heat retaining compound door and window section bar relates to house ornamental material technical field. The utility model discloses a section bar bottom plate, section bar bottom plate upside from left to right has set gradually second section bar curb plate and first section bar curb plate, and the logical groove of worker's shape has been seted up to the first square block front side in second section bar curb plate upside rear portion, and the anterior second square block rear side of first section bar curb plate upside is connected with the worker's shape piece, and section bar bottom plate downside, second section bar curb plate and the first section bar curb plate outside are all seted up flutedly. The utility model discloses a set up worker's shape and lead to groove and worker's shape piece for the user splices this thermal-insulated heat preservation composite door and window section bar according to work needs, and then makes this thermal-insulated heat preservation composite door and window section bar be applicable to in the different operating condition, and the existence of heat preservation and insulating layer, makes this thermal-insulated heat preservation composite door and window section bar have good heat preservation and heat insulation performance, and then makes this thermal-insulated heat preservation composite door and window section bar play good thermal-insulated effect of heat preservation indoor.

Description

Heat-insulating composite door and window profile

Technical Field

The utility model belongs to the technical field of house ornamental material, especially, relate to a thermal-insulated heat retaining compound door and window section bar.

Background

The door and window is one of important components of the current house, and due to the fact that the door and window is arranged on the house, the circulation of air inside the house is improved, the effect of shielding wind and rain of the house is improved, and the door and window section bar needs to be used by workers in the process of producing the door and window.

Through the retrieval, disclose an asymmetric fire-retardant door and window frame section bar in patent document that patent publication number is CN208220561U, including the section bar bottom plate, section bar bottom plate both sides are connected with first section bar curb plate and second section bar curb plate respectively, first section bar curb plate one side is equipped with the recess, be equipped with the heat insulating layer in the recess, the heat insulating layer pass through the screw all around with recess inner wall connects, the breakwater is connected to section bar bottom one side, breakwater one side is connected with the breakwater, first section bar curb plate with the second section bar curb plate all includes thermal-insulated skin, fire-retardant layer, support sheet layer, back up coat and base plate, the utility model discloses the breakwater that sets up plays water-proof effects with the breakwater, and when the conflagration takes place, the deformation hole receives thermal deformation, has reduced the deformation volume of section bar, has fine flame retardant efficiency, and the crisscross setting of reinforcing rib in the back coat plays fine effect that increases intensity, and because this door and window frame section bar is asymmetric structure U-shaped, energy-concerving and environment-protective, save material.

However, the following disadvantages still exist in the practical use:

1. the shape structure of the asymmetric flame-retardant door and window frame sectional material disclosed in the patent publication No. CN208220561U is inconvenient for a user to position two adjacent asymmetric flame-retardant door and window frame sectional materials, so that inconvenience is brought to the work of splicing the two asymmetric flame-retardant door and window frame sectional materials by the user;

2. the asymmetric flame-retardant door and window frame profile disclosed in patent publication No. CN208220561U has a simple structure, resulting in poor heat insulation performance of the asymmetric flame-retardant door and window frame profile.

Therefore, the asymmetric flame retardant door and window frame section disclosed in patent publication No. CN208220561U cannot meet the requirements in practical use, so that there is a strong need for an improved technology in the market to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a thermal-insulated heat retaining composite door and window section bar leads to groove, worker shape piece, heat preservation and insulating layer through setting up worker shape, has solved the asymmetric fire-retardant door and window frame section bar that discloses in the patent document that patent publication number is CN208220561U and is not convenient for splice to and the not good problem of thermal insulation performance.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a thermal-insulated heat retaining compound door and window section bar, including the section bar bottom plate, section bar bottom plate upside has from left to right set gradually second section bar curb plate and first section bar curb plate, the logical groove of worker shape has been seted up to the first square block front side in second section bar curb plate upside rear portion, the square block rear side of the anterior second of first section bar curb plate upside is connected with the worker shape piece, section bar bottom plate downside, second section bar curb plate and the first section bar curb plate outside are all seted up flutedly, the inboard second tie layer outside of recess is provided with the heat preservation, the first tie layer outside in the heat preservation outside is provided with the insulating layer body, it is thus visible, logical groove and worker shape piece are led to through the worker shape that sets up, make the user can splice this thermal-insulated heat retaining compound door and window section bar according to the work needs, and the mode that the user spliced this thermal-insulated compound door and window section bar is simple, and through heat preservation and the insulating layer that sets up, make this thermal-insulated compound door and window section bar have good heat-insulating property, and the asymmetric door and window section bar that a kind of the section bar that discloses in patent document that patent publication is CN 208561U is not convenient for carrying on the concatenation problem, and the heat preservation property that the concatenation of not good.

Further, second section bar curb plate, first section bar curb plate and section bar bottom plate front side all are provided with the base plate, and base plate front side is provided with the support sheet layer, and the back up coat is connected with the support sheet layer rear side about the base plate front side, and the equidistant strengthening rib front side that distributes of base plate front side is connected with the support sheet layer rear side, specifically, the existence of back up coat, strengthening rib and support sheet layer has promoted this thermal-insulated compound door and window section bar's that keeps warm intensity, and then makes this thermal-insulated compound door and window section bar that keeps warm have good compressive property.

Furthermore, the support sheet layer front side is provided with thermal-insulated subassembly, and thermal-insulated subassembly includes first insulating layer, third articulamentum and second insulating layer, and the first insulating layer front side of support sheet layer front side is provided with the third articulamentum, and first insulating layer front side third articulamentum front side is provided with the second insulating layer, and specifically, first insulating layer and second insulating layer are the aluminium foil coiled material, and the aluminium foil coiled material has functions such as thermal-insulated heat preservation, waterproof and dampproofing.

Further, second insulating layer front side is provided with sound insulation assembly, sound insulation assembly includes first puigging, third articulamenting and second puigging, second insulating layer front side second puigging front side is provided with the third articulamenting, second puigging front side third articulamenting front side is provided with first puigging, specifically, first puigging and second puigging are soundproof cotton, what soundproof cotton adopted is an artificial inorganic fiber of price/performance ratio, the structure is inseparable, the sound absorptivity is high, non-deformable, very high.

Further, first puigging front side is provided with anticorrosive moisture protection component, anticorrosive moisture protection component includes first anticorrosive moisture protection coating, third connecting layer and anticorrosive moisture protection coating of second, first puigging front side anticorrosive moisture protection coating front side second is provided with the third connecting layer, second anticorrosive moisture protection coating front side third connecting layer front side is provided with first anticorrosive moisture protection coating, specifically, first anticorrosive moisture protection coating and anticorrosive moisture protection coating of second are polyurea elastic coating, because polyurea elastic coating has good anticorrosive moisture protection's performance.

Furthermore, a flame-retardant component is arranged on the front side of the first anti-corrosion moisture-proof layer, the flame-retardant component comprises a first flame-retardant layer, a third connecting layer and a second flame-retardant layer, the third connecting layer is arranged on the front side of the second flame-retardant layer on the front side of the first anti-corrosion moisture-proof layer, the first flame-retardant layer is arranged on the front side of the third connecting layer on the front side of the second flame-retardant layer, and the first flame-retardant layer and the second flame-retardant layer are both polyurethane layers; wherein, the third connecting layer is PU glue.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up worker's shape and lead to groove and worker's shape piece for the user can work and need splice this thermal-insulated heat preservation composite door and window section bar, and convenient to use person confirms the position between two adjacent this thermal-insulated heat preservation composite door and window section bars, and then convenient to use person is to this thermal-insulated heat preservation composite door and window section bar's concatenation.

2. The utility model discloses a set up heat preservation and insulating layer body for this thermal-insulated heat preservation composite door and window section bar has good heat preservation and thermal-insulated performance, and then makes this thermal-insulated heat preservation composite door and window section bar can play good heat preservation and thermal-insulated effect indoor.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic connection diagram of a first profile side plate, a profile bottom plate, a second profile side plate and a heat insulation layer body according to the present invention;

FIG. 3 is a schematic view of the external structure of the second profile side plate of the present invention;

FIG. 4 is a schematic structural view of a flame retardant assembly of the present invention;

FIG. 5 is a schematic structural view of the corrosion and moisture protection assembly of the present invention;

fig. 6 is a schematic structural view of the sound insulation assembly of the present invention;

fig. 7 is a schematic structural view of the middle heat insulation assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a first profile side panel; 101. a groove; 102. a thermal insulation layer body; 103. a first tie layer; 104. a heat-insulating layer; 105. a second connection layer; 2. a profile base plate; 3. a second profile side plate; 301. reinforcing ribs; 302. a substrate; 303. a reinforcement layer; 304. supporting the slab layer; 305. an insulating assembly; 3051. a first insulating layer; 3052. a second thermal insulation layer; 306. a sound insulating assembly; 3061. a first sound insulating layer; 3062. a second sound insulating layer; 307. an anti-corrosive and moisture-proof component; 3071. a first corrosion and moisture resistant layer; 3072. a second corrosion and moisture resistant layer; 308. a flame retardant component; 3801. a first flame retardant layer; 3082. a third connection layer; 3083. a second flame retardant layer; 4. a first square block; 401. an I-shaped through groove; 5. a second square block; 501. and (7) forming a shaped block.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Please refer to fig. 1 to 7, the present invention relates to a heat insulation composite door and window profile, including a profile bottom plate 2, a second profile side plate 3 and a first profile side plate 1 are sequentially disposed from left to right on the upper side of the profile bottom plate 2, an i-shaped through groove 401 is disposed on the front side of a first square block 4 on the rear side of the upper side of the second profile side plate 3, an i-shaped block 501 is connected to the rear side of a second square block 5 on the front side of the upper side of the first profile side plate 1, specifically, when a user needs to splice the heat insulation composite door and window profile, the user aligns the i-shaped through groove 401 and the i-shaped block 501 on the first heat insulation composite door and window profile with the i-shaped block 501 and the i-shaped through groove 401 on the second heat insulation composite door and window profile, then, the user applies opposite external force to the first heat insulation composite door and window profile, so that the i-shaped through groove 401 and the i-shaped block 501 on the first heat insulation composite door and window profile are respectively aligned with the i-shaped through groove 501 and the i-shaped block 501 on the second heat insulation composite door and window profile, until the second heat insulation composite door and window profile are completely spliced, the heat insulation composite door and window profile 401 and the second heat insulation composite door and window profile are completely connected to the user;

grooves 101 are formed in the lower side of the profile bottom plate 2, the outer sides of the second profile side plate 3 and the first profile side plate 1, a heat insulation layer 104 is arranged on the outer side of a second connecting layer 105 in the inner side of the groove 101, a heat insulation layer body 102 is arranged on the outer side of a first connecting layer 103 in the outer side of the heat insulation layer 104, specifically, the heat insulation layer 104 is made of polyurethane foam, the polyurethane foam has light weight, good processability, high compactness and good heat insulation effect, and further the heat insulation layer 104 has good heat insulation performance, so that the heat insulation composite door and window profile has good heat insulation effect; the heat insulation layer body 102 is an aluminum foil coiled material which has the functions of heat insulation, heat preservation, water resistance, moisture resistance and the like, so that the heat insulation layer body 102 has good heat insulation performance, and the heat insulation and heat preservation composite door and window profile has good heat insulation performance; the first connection layer 103 and the second connection layer 105 are both made of PU glue.

Wherein as shown in fig. 3, second section curb plate 3, first section curb plate 1 and section bottom plate 2 front side all are provided with base plate 302, base plate 302 front side is provided with support sheet layer 304, reinforced layer 303 is connected with support sheet layer 304 rear side about the base plate 302 front side, base plate 302 front side equidistant distribution strengthening rib 301 front side is connected with support sheet layer 304 rear side, specifically, reinforced layer 303, the existence of strengthening rib 301 and support sheet layer 304, the intensity of this thermal-insulated compound door and window section bar that keeps warm has been promoted, and then make this thermal-insulated compound door and window section bar that keeps warm have good compressive property.

As shown in fig. 3 and 7, the heat insulation assembly 305 is disposed on the front side of the support plate layer 304, the heat insulation assembly 305 includes a first heat insulation layer 3051, a third connection layer 3082 and a second heat insulation layer 3052, the third connection layer 3082 is disposed on the front side of the first heat insulation layer 3051 on the front side of the support plate layer 304, the second heat insulation layer 3052 is disposed on the front side of the third connection layer 3082 on the front side of the first heat insulation layer 3051, specifically, the first heat insulation layer 3051 and the second heat insulation layer 3052 are both aluminum foil coiled materials, which have functions of heat insulation, water resistance, moisture resistance and the like, so that the first heat insulation layer 3051 and the second heat insulation layer 3052 both have good heat insulation performance, and further the heat insulation composite door and window profile has good heat insulation performance.

As shown in fig. 3 and 6, the sound insulation assembly 306 is disposed on the front side of the second heat insulation layer 3052, the sound insulation assembly 306 includes a first sound insulation layer 3061, a third connection layer 3082 and a second sound insulation layer 3062, the third connection layer 3082 is disposed on the front side of the second sound insulation layer 3052 and the first sound insulation layer 3061 is disposed on the front side of the second heat insulation layer 3052 and the third connection layer 3082 and the first sound insulation layer 3061 is disposed on the front side of the second sound insulation layer 3062 and specifically, the first sound insulation layer 3061 and the second sound insulation layer 3062 are both soundproof cotton, the soundproof cotton is made of artificial inorganic fiber, the structure is compact, the sound absorption rate is high, the deformation is low, the cost performance is high, and the first sound insulation layer 3061 and the second sound insulation layer 3062 both have good sound insulation effects, so that the sound insulation performance of the heat insulation and heat preservation composite door and window section is improved.

Wherein as shown in fig. 3, 5, first puigging 3061 front side is provided with anticorrosive moisture-proof components 307, anticorrosive moisture-proof components 307 includes first anticorrosive moisture-proof course 3071, third connecting layer 3082 and second anticorrosive moisture-proof course 3072, first puigging 3061 front side second anticorrosive moisture-proof course 3072 front side is provided with third connecting layer 3082, second anticorrosive moisture-proof course 3072 front side third connecting layer 3082 front side is provided with first anticorrosive moisture-proof course 3071, concretely, first anticorrosive moisture-proof course 3071 and second anticorrosive moisture-proof course 3072 are polyurea elastic coating, because polyurea elastic coating has good anticorrosive damp-proof performance, and then make first anticorrosive moisture-proof course 3071 and second anticorrosive moisture-proof course 3072 have good anticorrosive moisture-proof performance, and then make first anticorrosive moisture-proof course 3071 and second anticorrosive moisture-proof course 3072 carry out good protection to this compound type door section bar inside part that insulates against heat and preserve heat.

As shown in fig. 3 and 4, a flame-retardant module 308 is arranged on the front side of the first anticorrosive moisture-proof layer 3071, the flame-retardant module 308 comprises a first flame-retardant layer 3801, a third connecting layer 3082 and a second flame-retardant layer 3083, the front side of the first anticorrosive moisture-proof layer 3071 is provided with the third connecting layer 3082 on the front side of the second flame-retardant layer 3083, the front side of the second flame-retardant layer 3083 is provided with the first flame-retardant layer 3801 on the front side of the third connecting layer 3082, specifically, the first flame-retardant layer 3801 and the second flame-retardant layer 3083 are both polyurethane layers, and as the polyurethane layers are made of flame-retardant materials, the polyurethane layers have good flame-retardant performance, so that the first flame-retardant layer 3801 and the second flame-retardant layer 3083 have good flame-retardant performance, and the first flame-retardant layer 3801 and the second flame-retardant layer 3083 perform fire-retardant protection on the internal components of the heat-insulating composite door and window profile; the third connecting layer 3082 is made of PU glue.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, and any modifications to the technical solutions recorded in the foregoing embodiments, and equivalent replacements to some of the technical features thereof, and any modifications, equivalent replacements, and improvements made belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a thermal-insulated heat retaining compound door and window section bar, includes section bar bottom plate (2), its characterized in that: a second profile side plate (3) and a first profile side plate (1) are sequentially arranged on the upper side of the profile bottom plate (2) from left to right, an I-shaped through groove (401) is formed in the front side of a first square block (4) on the rear portion of the upper side of the second profile side plate (3), and an I-shaped block (501) is connected to the rear side of a second square block (5) on the front portion of the upper side of the first profile side plate (1);

the section bar bottom plate is characterized in that a groove (101) is formed in the lower side of the section bar bottom plate (2), the outer sides of the second section bar side plate (3) and the first section bar side plate (1), a heat insulation layer (104) is arranged on the outer side of the second connecting layer (105) in the inner side of the groove (101), and a heat insulation layer body (102) is arranged on the outer side of the first connecting layer (103) in the outer side of the heat insulation layer (104).

2. The heat-insulating composite door and window profile as claimed in claim 1, wherein: second section bar curb plate (3), first section bar curb plate (1) and section bar bottom plate (2) front side all are provided with base plate (302), base plate (302) front side is provided with support sheet layer (304), reinforcing layer (303) about base plate (302) front side with support sheet layer (304) rear side is connected, base plate (302) front side equidistant distribution strengthening rib (301) front side with support sheet layer (304) rear side is connected.

3. The heat-insulating composite door and window profile as claimed in claim 2, wherein: the heat insulation assembly (305) is arranged on the front side of the support slab (304), and the heat insulation assembly (305) comprises a first heat insulation layer (3051), a third connecting layer (3082) and a second heat insulation layer (3052);

the third connecting layer (3082) is arranged on the front side of the first heat insulation layer (3051) on the front side of the support plate layer (304), and the second heat insulation layer (3052) is arranged on the front side of the third connecting layer (3082) on the front side of the first heat insulation layer (3051).

4. The heat-insulating and heat-preserving composite door and window profile as claimed in claim 3, wherein: a sound insulation component (306) is arranged on the front side of the second heat insulation layer (3052), and the sound insulation component (306) comprises a first sound insulation layer (3061), a third connecting layer (3082) and a second sound insulation layer (3062);

the second insulating layer (3052) front side the second puigging (3062) front side is provided with third articulamentum (3082), second puigging (3062) front side the third articulamentum (3082) front side is provided with first puigging (3061).

5. The heat-insulating composite door and window profile as claimed in claim 4, wherein: the front side of the first sound insulation layer (3061) is provided with an anti-corrosion and moisture-proof component (307), and the anti-corrosion and moisture-proof component (307) comprises a first anti-corrosion and moisture-proof layer (3071), a third connecting layer (3082) and a second anti-corrosion and moisture-proof layer (3072);

first puigging (3061) front side second anticorrosive dampproof course (3072) front side is provided with third articulamenting (3082), second anticorrosive dampproof course (3072) front side third articulamenting (3082) front side is provided with first anticorrosive dampproof course (3071).

6. The heat-insulating composite door and window profile as claimed in claim 5, wherein: a flame-retardant component (308) is arranged on the front side of the first anti-corrosion moisture-proof layer (3071), and the flame-retardant component (308) comprises a first flame-retardant layer (3801), a third connecting layer (3082) and a second flame-retardant layer (3083);

first anticorrosive dampproof course (3071) front side second fire-retardant layer (3083) front side is provided with third articulamentum (3082), second fire-retardant layer (3083) front side third articulamentum (3082) front side is provided with first fire-retardant layer (3801).

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