CN202299945U - Door and window structure with heat insulation and sound insulation effects - Google Patents
Door and window structure with heat insulation and sound insulation effects Download PDFInfo
- Publication number
- CN202299945U CN202299945U CN2011203923481U CN201120392348U CN202299945U CN 202299945 U CN202299945 U CN 202299945U CN 2011203923481 U CN2011203923481 U CN 2011203923481U CN 201120392348 U CN201120392348 U CN 201120392348U CN 202299945 U CN202299945 U CN 202299945U
- Authority
- CN
- China
- Prior art keywords
- section bar
- door
- insulating
- heat
- section
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Abstract
The utility model relates to a door and window structure with heat insulation and sound insulation effects, which comprises a light rabbet section, a hook rabbet section, an upper section and a lower section and is characterized in that an upper rail section is characterized in that a first upper rail section and a second upper rail section are connected through a heat insulation strip. A lower rail section is characterized in that a first lower rail section and a second lower rail section are connected through two heat insulation strips. The upper section is formed by connecting a first upper section and a second upper section through a heat insulation strip. The lower section is formed by connecting a first lower section and a second lower section through a heat insulation strip. A frame section is formed by connecting a first frame section and a second frame section through a heat insulation strip. The light rabbet section is formed by connecting a first light rabbet section and a second light rabbet section through a heat insulation strip. The hook rabbet section is formed by connecting a first hook rabbet section and a second hook rabbet section through two heat insulation strips. The door and window structure can connect two sections through one heat insulation strip, achieve good heat insulation and sound insulation effects and save cost.
Description
Technical field
The utility model relates to a kind of door and window structure, and especially a kind of door and window structure with heat-insulating sound-insulating effect belongs to the door and window processing technique field.
Background technology
Modern architecture requires building doors and windows must have daylighting, sealing, insulation, heat insulation, sound insulation, dustproof, fire prevention, antitheft, multiple function of use such as energy-conservation; The indoor living environment of safety and comfort could be provided for people like this; Therefore; Building doors and windows is the extremely important functional parts of physical properties such as modern architecture sound, light, thermal environment, and has facade and the double decorative effect of indoor environment, is directly connected to the safe in utilization, comfortable and energy-conservation of building.And building doors and windows is as the part of external wall and interior decoration, and appearance such as its form of structure, material texture, surface color and polish play crucial function and decoration function to the coordination attractive in appearance inside and outside the building.Door and window is the ingredient of architecture enclosing structure, is the sensitive part of building interchange of heat, and its unit area energy consumption is 5~6 times of body of wall, and the heat-energy losses of door and window accounts for more than 40% of whole building.
The door and window of present architectural use is more and more with the important performance assessment criteria of heat preservation energy-saving as the door and window performance.The thermal losses of the outer door and window of building has three approach: the first, through the heat conduction loss of aluminium alloy extrusions; The second, through the radiations heat energy loss of glass; The 3rd, through the cross-ventilation thermal loss in door and window slit.Therefore, the making of heat preservation energy-saving alumium alloy door and window also will be considered from these three aspects.
Summary of the invention
The purpose of the utility model is to overcome the deficiency that exists in the prior art, and a kind of door and window structure with heat-insulating sound-insulating effect is provided, and heat-insulating sound-insulating is respond well.
The technical scheme that provides according to the utility model; A kind of door and window structure with heat-insulating sound-insulating effect comprises the door and window framework of being made up of frame section bar, last rail section bar and Lower rail section, and first forms and second forms are set on said door and window framework; One side of said first forms and second forms is made up of the smooth rabbet section bar; Another side is made up of the hooked rabbet section bar, and the top is made up of Superjacent sectional material, and the below is made up of the below section bar; Characteristic is: said go up the rail section bar by be oppositely arranged first on the rail section bar and second the rail section bar connect to form through a hollow heat insulating strip; Said Lower rail section is connected to form through two I type heat insulating strips by first Lower rail section that is oppositely arranged and second time rail type; Said Superjacent sectional material is connected to form through a hollow heat insulating strip by first Superjacent sectional material that is oppositely arranged and second Superjacent sectional material; Said below section bar is connected to form through a hollow heat insulating strip by the first below section bar that is oppositely arranged and the second below section bar; Said frame section bar is connected to form through a hollow heat insulating strip by the first frame section bar that is oppositely arranged and the second frame section bar; Said smooth rabbet section bar is connected to form through a hollow heat insulating strip by the first smooth rabbet section bar that is oppositely arranged and the second smooth rabbet section bar; Said hooked rabbet section bar is connected to form or connects to form through two I type heat insulating strips through an I type heat insulating strip and a C type heat insulating strip by the first hooked rabbet section bar that is oppositely arranged and the second hooked rabbet section bar.
Outside the said second hooked rabbet section bar, be provided with seal profile, between the second hooked rabbet section bar and seal profile, be provided with rubber strip.
One end of said frame section bar is fixedly connected with Lower rail section, and the other end of frame section bar is fixedly connected with last rail section bar; The two ends of said smooth rabbet section bar are connected with an end of Superjacent sectional material and below section bar respectively, and the other end of said Superjacent sectional material and below section bar is connected with the hooked rabbet section bar respectively.
The below of said upward rail section bar and the top of Lower rail section have the protruding slide rail of forming, and chute is formed in the below of the above and below section bar of said Superjacent sectional material, and said chute can slide along said slide rail.
The two ends of said I type heat insulating strip are the triangle connecting portion, and the centre is the long strip type central part.
The two ends of said C type heat insulating strip are the triangle connecting portion, and the centre is the circular arc type central part.
The two ends of said hollow heat insulating strip are the triangle connecting portion, and the centre is a central part, and the external surface of said central part is a hexagon, and the center is provided with cavity.
Said first forms and second forms are provided with hollow glass.
Said smooth rabbet section bar, hooked rabbet section bar, Superjacent sectional material, below section bar are connected with hollow glass through glass cement respectively.
The utility model has been realized good heat-insulating sound-insulating effect according to door and window daylighting, sealing, insulation, heat insulation, sound insulation, dustproof, fire prevention, antitheft, multiple function of use requirement such as energy-conservation; Need to adopt two heat insulating strips in the middle of the prior art; And the utility model adopts a kind of novel heat insulating strip; Make that going up rail section bar, Superjacent sectional material, below section bar, frame section bar and smooth rabbet section bar only need adopt a heat insulating strip that two parts section bar is linked together; Promptly can reach good heat-insulating sound-insulating effect, can practice thrift cost on the other hand.
Description of drawings
Fig. 1 is the structural representation of the utility model.
Fig. 2 is the A-A view of Fig. 1.
Fig. 3 is the B-B view of Fig. 1.
The specific embodiment
Below in conjunction with concrete accompanying drawing the utility model is described further.
Like Fig. 1~shown in Figure 3: the door and window structure with heat-insulating sound-insulating effect comprises rail section bar 1 on first; Rail section bar 2 on second; First Superjacent sectional material 3; Second Superjacent sectional material 4; The first below section bar 5; The second below section bar 6; First Lower rail section 7; Second Lower rail section 8; The first frame section bar 9; The second frame section bar 10; The first smooth rabbet section bar 11; The second smooth rabbet section bar 12; The first hooked rabbet section bar 13; The second hooked rabbet section bar 14; Seal profile 15; Rubber strip 16; Frame section bar 17; Lower rail section 18; Last rail section bar 19; Smooth rabbet section bar 20; Hooked rabbet section bar 21; Superjacent sectional material 22; Below section bar 23; Hollow glass 24; I type heat insulating strip 25; C type heat insulating strip 26; Hollow heat insulating strip 27; Glass cement 28 etc.
As shown in Figure 1; The utility model comprises the door and window framework of being made up of frame section bar 17, last rail section bar 19 and Lower rail section 18; First forms and second forms are set on said door and window framework, and first forms and second forms are provided with hollow glass 24, and a side of said first forms and second forms is made up of smooth rabbet section bar 20; Another side is made up of hooked rabbet section bar 21; The top is made up of Superjacent sectional material 22, and the below is made up of below section bar 23, and said smooth rabbet section bar 20, hooked rabbet section bar 21, Superjacent sectional material 22, below section bar 23 pass through glass cement 28 respectively and be connected with hollow glass 24;
Said frame section bar 17, Lower rail section 18, go up two parts section bar that rail section bar 19, smooth rabbet section bar 20, hooked rabbet section bar 21, Superjacent sectional material 22 and below section bar 23 are oppositely arranged before and after comprising respectively, two parts section bar connects through heat insulating strip;
As shown in Figure 2, said go up rail section bar 19 by be oppositely arranged first on the rail section bar 1 and second rail section bar 2 connect to form through a hollow heat insulating strip 27;
As shown in Figure 2, said Lower rail section 18 is connected to form through two I type heat insulating strips 25 by first Lower rail section 7 that is oppositely arranged and second time rail type 8;
As shown in Figure 2, said Superjacent sectional material 22 is connected to form through a hollow heat insulating strip 27 by first Superjacent sectional material 3 that is oppositely arranged and second Superjacent sectional material 4;
As shown in Figure 2, said below section bar 23 is connected to form through a hollow heat insulating strip 27 by the first below section bar 5 that is oppositely arranged and the second below section bar 6;
As shown in Figure 3, said frame section bar 17 is connected to form through a hollow heat insulating strip 27 by the first frame section bar 9 that is oppositely arranged and the second frame section bar 10;
As shown in Figure 3, said smooth rabbet section bar 20 is connected to form through a hollow heat insulating strip 27 by the first smooth rabbet section bar 11 that is oppositely arranged and the second smooth rabbet section bar 12;
As shown in Figure 3, said hooked rabbet section bar 21 is connected to form or connects to form through two I type heat insulating strips 25 through an I type heat insulating strip 25 and a C type heat insulating strip 26 by the first hooked rabbet section bar 13 that is oppositely arranged and the second hooked rabbet section bar 14;
As shown in Figure 3, outside the said second hooked rabbet section bar 13, be provided with seal profile 15, between the second hooked rabbet section bar 13 and seal profile 15, be provided with rubber strip 16;
As shown in Figure 1, an end of said frame section bar 17 is fixedly connected with Lower rail section 18, and the other end of frame section bar 17 is fixedly connected with last rail section bar 19; The two ends of said smooth rabbet section bar 20 are connected with an end of Superjacent sectional material 22 and below section bar 23 respectively, and the other end of said Superjacent sectional material 22 and below section bar 23 is connected with hooked rabbet section bar 21 respectively;
As shown in Figure 2; The below of said upward rail section bar 19 and the top of Lower rail section 18 have the protruding slide rail of forming; Chute is formed in the below of the above and below section bar 23 of said Superjacent sectional material 22, and said first forms and second forms slide at the slide rail of last rail section bar 19 and Lower rail section 18 through the chute of Superjacent sectional material 22 and below section bar 23;
The two ends of said I type heat insulating strip 25 are the triangle connecting portion, and the centre is the long strip type central part; The two ends of said C type heat insulating strip 26 are the triangle connecting portion, and the centre is the circular arc type central part; The two ends of said hollow heat insulating strip 27 are the triangle connecting portion, and the centre is a central part, and the external surface of said central part is a hexagon, and the center is provided with cavity.
The described heat-insulating sound-insulating door and window of the utility model is according to door and window daylighting, sealing, insulation, heat insulation, sound insulation, dustproof, fire prevention, antitheft, multiple function of use requirement such as energy-conservation; Centre at aluminium alloy extrusions has installed heat insulating strip additional; But only use a heat insulating strip on each section bar; Promptly can reach good heat-insulating sound-insulating effect, can play the effect of practicing thrift cost.
Claims (9)
1. door and window structure with heat-insulating sound-insulating effect; Comprise the door and window framework of forming by frame section bar (17), last rail section bar (19) and Lower rail section (18); First forms and second forms are set on said door and window framework, and a side of said first forms and second forms is made up of smooth rabbet section bar (20), and another side is made up of hooked rabbet section bar (21); The top is made up of Superjacent sectional material (22), and the below is made up of below section bar (23); It is characterized in that: said go up rail section bar (19) by be oppositely arranged first on the rail section bar (1) and second rail section bar (2) connect to form through a hollow heat insulating strip (27); Said Lower rail section (18) is connected to form through two I type heat insulating strips (25) by first Lower rail section (7) that is oppositely arranged and second time rail type (8); Said Superjacent sectional material (22) is connected to form through a hollow heat insulating strip (27) by first Superjacent sectional material (3) that is oppositely arranged and second Superjacent sectional material (4); Said below section bar (23) is connected to form through a hollow heat insulating strip (27) by the first below section bar (5) that is oppositely arranged and the second below section bar (6); Said frame section bar (17) is connected to form through a hollow heat insulating strip (27) by the first frame section bar (9) that is oppositely arranged and the second frame section bar (10); Said smooth rabbet section bar (20) is connected to form through a hollow heat insulating strip (27) by the first smooth rabbet section bar (11) that is oppositely arranged and the second smooth rabbet section bar (12); Said hooked rabbet section bar (21) is connected to form or connects to form through two I type heat insulating strips (25) through an I type heat insulating strip (25) and a C type heat insulating strip (26) by the first hooked rabbet section bar (13) that is oppositely arranged and the second hooked rabbet section bar (14).
2. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 1; It is characterized in that: outside the said second hooked rabbet section bar (13), be provided with seal profile (15), between the second hooked rabbet section bar (13) and seal profile (15), be provided with rubber strip (16).
3. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 1 is characterized in that: an end of said frame section bar (17) is fixedly connected with Lower rail section (18), and the other end of frame section bar (17) is fixedly connected with last rail section bar (19); The two ends of said smooth rabbet section bar (20) are connected with the end of Superjacent sectional material (22) with below section bar (23) respectively, and the other end of said Superjacent sectional material (22) and below section bar (23) is connected with hooked rabbet section bar (21) respectively.
4. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 1; It is characterized in that: the below of said upward rail section bar (19) and the top of Lower rail section (18) have the protruding slide rail of forming; Chute is formed in the below of the above and below section bar (23) of said Superjacent sectional material (22), and said chute can slide along said slide rail.
5. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 1 is characterized in that: the two ends of said I type heat insulating strip (25) are the triangle connecting portion, and the centre is the long strip type central part.
6. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 1 is characterized in that: the two ends of said C type heat insulating strip (26) are the triangle connecting portion, and the centre is the circular arc type central part.
7. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 1 is characterized in that: the two ends of said hollow heat insulating strip (27) are the triangle connecting portion, and the centre is a central part, and the external surface of said central part is a hexagon, and the center is provided with cavity.
8. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 1 is characterized in that: said first forms and second forms are provided with hollow glass (24).
9. the door and window structure with heat-insulating sound-insulating effect as claimed in claim 8 is characterized in that: said smooth rabbet section bar (20), hooked rabbet section bar (21), Superjacent sectional material (22), below section bar (23) are connected with hollow glass (24) through glass cement (28) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011203923481U CN202299945U (en) | 2011-10-15 | 2011-10-15 | Door and window structure with heat insulation and sound insulation effects |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011203923481U CN202299945U (en) | 2011-10-15 | 2011-10-15 | Door and window structure with heat insulation and sound insulation effects |
Publications (1)
Publication Number | Publication Date |
---|---|
CN202299945U true CN202299945U (en) | 2012-07-04 |
Family
ID=46368867
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2011203923481U Expired - Lifetime CN202299945U (en) | 2011-10-15 | 2011-10-15 | Door and window structure with heat insulation and sound insulation effects |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN202299945U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102383695A (en) * | 2011-10-15 | 2012-03-21 | 江苏锦绣铝业有限公司 | Door and window structure with heat-insulation and sound-proof effect |
-
2011
- 2011-10-15 CN CN2011203923481U patent/CN202299945U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102383695A (en) * | 2011-10-15 | 2012-03-21 | 江苏锦绣铝业有限公司 | Door and window structure with heat-insulation and sound-proof effect |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102383695A (en) | Door and window structure with heat-insulation and sound-proof effect | |
CN203223123U (en) | Door/window sectional material with waterproof, thermal-insulation and soundproof performances | |
CN203412475U (en) | Double-wood aluminum door | |
CN202055691U (en) | Sealed aluminum alloy side hung window | |
CN201495918U (en) | Aluminum-clad wood environment-friendly and energy-saving doors and windows | |
CN202299945U (en) | Door and window structure with heat insulation and sound insulation effects | |
CN201292729Y (en) | Multicavity heat insulating strip for aluminum alloy heat insulating energy saving window or door | |
CN201513074U (en) | Aluminum-wood composite inward-opening energy-saving door or window | |
CN102031923B (en) | Structure of head-insulating and soundproof door and window | |
CN201649984U (en) | High-efficiency heat insulating aluminum alloy section structure | |
CN201915793U (en) | Heat-insulation sound-isolation door window structure | |
CN102199973B (en) | Heat-insulation and sound-insulation door and window | |
CN202108392U (en) | Heat insulation sound insulation door and window | |
CN204113006U (en) | The door and window structure of pouring heat insulating section material | |
CN102220824B (en) | Sealing aluminum alloy casement window | |
CN209556753U (en) | Passive type fire resisting composite material Energy Saving Windows | |
CN206737687U (en) | A kind of band gauze type thermal insulating outer opening window | |
CN206737690U (en) | Band is opened flat yarn formula thermal insulating outer opening window | |
CN201605692U (en) | Plastic-steel combined energy-saving curtain walls, doors and windows | |
CN206053708U (en) | A kind of high safety performance wears axle curtain wall opening fan structure | |
CN204060352U (en) | A kind of slide door or window | |
CN103498619A (en) | Wood-aluminum compound insulation side-hung window | |
CN103452433A (en) | Energy-saving side-hung door | |
CN203223125U (en) | Door/window sectional material with waterproof, thermal-insulation and soundproof performances | |
CN203846945U (en) | Energy-saving glass window |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term | ||
CX01 | Expiry of patent term |
Granted publication date: 20120704 |