CN203846929U - Installation system of thermal insulation doors and windows - Google Patents

Installation system of thermal insulation doors and windows Download PDF

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Publication number
CN203846929U
CN203846929U CN201420286747.3U CN201420286747U CN203846929U CN 203846929 U CN203846929 U CN 203846929U CN 201420286747 U CN201420286747 U CN 201420286747U CN 203846929 U CN203846929 U CN 203846929U
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China
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bar
heat insulation
installation
outdoor
indoor
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CN201420286747.3U
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Chinese (zh)
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杨帆
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Dangdai Energy-Saving House Purchasing Co Ltd
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Dangdai Energy-Saving House Purchasing Co Ltd
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Abstract

The utility model discloses an installation system of thermal insulation doors and windows. The installation system of the thermal insulation doors and windows comprises an auxiliary steel frame (50) installed on an installation foundation (60), and thermal insulation section materials fixedly connected to the auxiliary steel frame (50). The thermal insulation section materials comprise outdoor section materials (10), indoor section materials (20) and thermal insulation connectors (30) connected between the indoor section materials (20) and the outdoor section materials (10). The thermal insulation connectors (30) are arranged in the length direction of the thermal insulation section materials at intervals and enable interval spaces to be reserved between the indoor section materials (20) and the outdoor section materials (10). According to the installation system of the thermal insulation doors and windows, the thermal insulation effect can be guaranteed, the cost of the thermal insulation section materials is lowered at the same time, and the thermal insulation section materials are not limited by the length of thermal insulation strips.

Description

The installation system of Thermal insulation door and window
Technical field
The utility model relates to Thermal insulation door and window, in particular to a kind of installation system of Thermal insulation door and window.
Background technology
The mounting structure of Thermal insulation door and window generally comprises steel auxiliary frame and is arranged on the heat insulation section on this steel auxiliary frame, steel auxiliary frame is fixedly connected on to be installed on basis, then heat insulation section is fixedly mounted on steel auxiliary frame, and glass of door and window is arranged in heat insulation section, thereby complete the installation of whole Thermal insulation door and window.
The molding mode of existing heat insulation section is two kinds, and the first, for wearing bar technological forming, is coupled together two parts inside and outside section bar by two heat insulating strips, thereby stops the conduction of the inside and outside heat of section bar, realizes energy-conservation object.The second is pouring technology, be that the good section bar of surfacing is done to rectilinear motion by running gear, the heat dam that makes section bar is during through the pouring head below of casting machine, and liquid heat-barrier material flows in heat dam, after solidifying after a while, in section bar, form isolation layer.
For by wearing for the heat insulation section that bar technique forms, generally comprise two section bars that are oppositely arranged and be arranged on the heat insulating strip between two section bars, this heat insulating strip links together two section bars, and realizes heat insulation between two section bars by the insulative properties of heat insulating strip itself.But it is heat insulation that this kind of heat insulation section need to be realized by heat insulating strip, and the price of heat insulating strip is generally more expensive, therefore cause the cost of heat insulation section higher, in addition, the length of heat insulating strip also can limit the width of heat insulation section.
Utility model content
A kind of installation system of Thermal insulation door and window is provided in the utility model embodiment, can when guaranteeing effect of heat insulation, reduces the cost of installation system, make the heat insulation section of installation system can not be subject to the restriction of heat insulating strip length simultaneously.
For solving the problems of the technologies described above, the utility model embodiment provides a kind of installation system of Thermal insulation door and window, comprising: steel auxiliary frame, is arranged on and installs on basis; Heat insulation section, is fixedly connected on steel auxiliary frame, and heat insulation section comprises: outdoor section bar; Indoor section bar; Heat insulation connector, is connected between indoor section bar and outdoor section bar, and a plurality of heat insulation connectors arrange along the length direction interval of heat insulation section, and make to form clearance space between indoor section bar and outdoor section bar.
Further, heat insulation section structure also comprises glass and heat-barrier material, glass is arranged on outside heat insulation connector, and be tightly connected with heat insulation section, heat-barrier material extends along the length direction of heat insulation section, and is arranged in the clearance space that indoor section bar, outdoor section bar and glass surrounds with isolation room inner profile and outdoor section bar by heat insulation connector.
Further, heat insulation connector is provided with the installation cavity extending along the length direction of heat insulation section, and installation cavity is between indoor section bar and outdoor section bar, and heat-barrier material is located in installation cavity.
Further, two opposite sides of heat insulation connector are respectively arranged with the first holding tank and the second holding tank, and outdoor section bar is arranged in the first holding tank, and indoor section bar is arranged in the second holding tank.
Further, outdoor section bar includes opening towards first draw-in groove on the first side channel limit of the first holding tank, and the first side channel limit of the first holding tank extends in the first draw-in groove.
Further, indoor section bar includes opening towards second draw-in groove on the first side channel limit of the second holding tank, and the first side channel limit of the second holding tank extends in the second draw-in groove.
Further, between steel auxiliary frame and heat insulation section, have installation interval, heat-barrier material is filled in installation interval from the interval location of two adjacent heat insulation connectors.
Further, steel auxiliary frame comprises: the first square steel; The second square steel, with the first square steel interval and be oppositely arranged; Installing rack, is arranged on and basis is installed above, and the first square steel and the second square steel are arranged on installing rack; Indoor section bar is arranged on the first square steel, and outdoor section bar is arranged on the second square steel.
Further, heat-barrier material is filled in the spatial accommodation between the first square steel and the second square steel.
Further, a plurality of installing racks arrange along the length direction interval of the first square steel.
Apply embodiment of the present utility model, the installation system of Thermal insulation door and window comprises: steel auxiliary frame, is contained in and installs on basis; Heat insulation section, is fixedly connected on steel auxiliary frame, and heat insulation section comprises: indoor section bar; Outdoor section bar; Heat insulation connector, is connected between indoor section bar and outdoor section bar, and a plurality of heat insulation connectors arrange along the length direction interval of heat insulation section, and make to form clearance space between indoor section bar and outdoor section bar.In this application, between the indoor section bar of heat insulation section and outdoor section bar, by the heat insulation connector of spaced multistage, connect, therefore can effectively reduce the materials of heat insulation connector, reduce the use cost of heat insulation connector.And being multistage, heat insulation connector is disposed between indoor section bar and outdoor section bar, make the entire length of heat insulation section can not be subject to the effect length of heat insulation connector, the length that can freely select any appropriate, can meet more kinds of designing requirements, and applicability is better.
Accompanying drawing explanation
Fig. 1 is that the heat insulation section of the utility model embodiment is removed the structural representation after heat-barrier material;
Fig. 2 is the sectional view according to Fig. 1;
Fig. 3 is that the heat insulation section of the utility model embodiment adds the structural representation after heat-barrier material;
Fig. 4 is the sectional view according to Fig. 3;
Fig. 5 shows the indoor window structural representation of the heat insulation section of the utility model embodiment;
Fig. 6 shows according to the A-A of the indoor window of Fig. 5 to sectional view;
Fig. 7 shows the outdoor window structural representation of the heat insulation section of the utility model embodiment;
Fig. 8 shows according to the B-B of the outdoor window of Fig. 7 to sectional view;
Fig. 9 shows the combining structure schematic diagram of the heat insulation section of the utility model embodiment;
Figure 10 shows according to the C-C of the combining structure of Fig. 7 to sectional view;
Figure 11 shows the mounting structure schematic diagram of steel auxiliary frame of installation system of the Thermal insulation door and window of the utility model embodiment;
Figure 12 shows the package assembly schematic diagram of installation system of the Thermal insulation door and window of the utility model embodiment;
Figure 13 shows the glazing procedure structure schematic diagram of installation system group of the Thermal insulation door and window of the utility model embodiment;
The installation system that Figure 14 shows the Thermal insulation door and window of the utility model embodiment completes the structure chart after assembling.
Description of reference numerals
10, outdoor section bar; 20, indoor section bar; 30, heat insulation connector; 40, heat-barrier material; 50, steel auxiliary frame; 60, basis is installed; 70, screed; 80, glass; 11, the first draw-in groove; 21, the second draw-in groove; 31, installation cavity; 32, the first holding tank; 33, the second holding tank; 51, the first square steel; 52, the second square steel; 53, installing rack; 53a, the first spacing preiection sheet; 53b, the second spacing preiection sheet; 54, screw; 55, rivet.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, but not as to restriction of the present utility model.
As shown in Figures 1 to 12, according to embodiment of the present utility model, the installation system of Thermal insulation door and window comprises: steel auxiliary frame 50 and heat insulation section, and steel auxiliary frame 50 is arranged on to be installed on basis 60, and it is for example body of wall that basis 60 is installed; Heat insulation section is fixedly connected on steel auxiliary frame 50, together forms the installation system of Thermal insulation door and window with steel auxiliary frame.Heat insulation section comprises indoor section bar 20, outdoor section bar 10 and heat insulation connector 30, indoor section bar 20 and outdoor section bar 10 are parallel to each other and are oppositely arranged, heat insulation connector 30 is connected between indoor section bar 20 and outdoor section bar 10, a plurality of heat insulation connectors 30 arrange along the length direction interval of heat insulation section, indoor section bar 20 and outdoor section bar 10 is spaced apart, thus make to form clearance space between indoor section bar 20 and outdoor section bar 10.
Due to steel auxiliary frame 50 and heat insulation section Integral design, and by the spaced heat insulation connector 30 of multistage, connect between indoor section bar 20 and outdoor section bar 10, therefore without making heat insulation connector 30 there is the length identical with outdoor section bar 10 with indoor section bar 20 as prior art, make as a whole thermal insulation barriers and use.Because the length of each section of heat insulation connector 30 is all shorter, therefore can reduce significantly the materials of heat insulation connector 30, reduce on the whole the cost of the installation system of Thermal insulation door and window.Heat insulation connector 30 is spaced apart by indoor section bar 20 and outdoor section bar 10, and make to form clearance space between indoor section bar 20 and outdoor section bar 10, therefore can be undertaken heat insulation by air, can when reducing heat insulation section cost, guarantee the effect of heat insulation of installation system itself, and then guarantee the effect of heat insulation of whole Thermal insulation door and window.In addition, because heat insulation connector 30 arranges along the length direction section gap of heat insulation section, therefore can to the length of heat insulation section, not form restriction due to the length restriction of heat insulation connector 30 itself, heat insulation section that can production and processing any convenient length.
In conjunction with referring to shown in Fig. 3 and Fig. 4, preferably, in order further to improve the effect of heat insulation between indoor section bar 20 and outdoor section bar 10, heat insulation section also comprises glass 80 and heat-barrier material 40, glass 80 is arranged on outside heat insulation connector 30, match with indoor section bar 20 and outdoor section bar 10, form above-mentioned clearance space, glass 80 can form restriction to heat-barrier material 40 when filling with insulation material 40, heat-barrier material 40 is filled between indoor section bar 20 and outdoor section bar 10, and and glass 80 between be tightly connected.This heat-barrier material 40 extends along the length direction of heat insulation section, and be arranged in the clearance space that indoor section bar 20, outdoor section bar 10 and glass 80 surrounds with isolation room inner profile 20 and outdoor section bar 10 by heat insulation connector 30, heat-barrier material 30 is filled to glass 80 positions, and match with glass 80, make whole door and window become Thermal insulation door and window.Because this heat-barrier material 40 is arranged in the whole clearance space that indoor section bar 20, outdoor section bar 10 and glass 80 surrounds, the therefore heat transmission between isolating chamber inner profile 20 and outdoor section bar 10 preferably, improves the effect of heat insulation of whole Thermal insulation door and window.In addition, because heat-barrier material 40 does not play connection, therefore can select lower-cost heat-barrier material to realize heat insulation object, can reduce the heat insulation cost of whole heat insulation section.Preferably, heat-barrier material 40 can be heat insulating material or fire proofing material.
Preferably, be provided with the installation cavity 31 extending along the length direction of heat insulation section on heat insulation connector 30, installation cavity 31 is between indoor section bar 20 and outdoor section bar 10, and heat-barrier material 40 is located in installation cavity 31.Installation cavity 31 can provide position for the installation of heat-barrier material 40 on heat insulation connector 30, and heat-barrier material 40 can be uploaded from heat insulation connector 30, further improves the effect of heat insulation at heat insulation connector 30 places, position.Preferably, the through hole that installation cavity 31 runs through for the length direction along heat insulation section, the shape of this through hole can arrange as required,, rectangle square such as being set to etc.
In the present embodiment, two opposite sides of heat insulation connector 30 are respectively arranged with the first holding tank 32 and the second holding tank 33, and indoor section bar 20 is arranged in the first holding tank 32, and outdoor section bar 10 is arranged in the second holding tank 33.Indoor section bar 20 and outdoor section bar 10 are all arranged in the holding tank of heat insulation connector 30, can form restriction to the setting position of indoor section bar 20 and outdoor section bar 10, guarantee the stability of the link position between indoor section bar 20, outdoor section bar 10 and heat insulation connector 30.
Between heat insulation connector 30 and indoor section bar 20 and outdoor section bar 10, be fixedly connected with, in the present embodiment, between indoor section bar 20 and heat insulation connector 30, and all by screw 54, be fixedly connected with between outdoor section bar 10 and heat insulation connector 30.Certainly, between heat insulation connector 30 and indoor section bar 20 and outdoor section bar 10, can be also other fixed connection structures such as riveted joint, welding.
Preferably, indoor section bar 20 includes opening and extends in the first draw-in groove 11 towards the first side channel limit of first draw-in groove 11, the first holding tanks 32 on the first side channel limit of the first holding tank 32.Correspondingly, outdoor section bar 10 also can include opening and extends in the second draw-in groove 21 towards the first side channel limit of second draw-in groove 21, the second holding tanks 33 on the first side channel limit of the second holding tank 33.Enter the room in the first draw-in groove 11 of inner profile 20 in the first side channel checkpost of the first holding tank 32 of heat insulation connector 30, enter the room in the second draw-in groove 21 of outer profile 10 in the first side channel checkpost of the second holding tank 33 of heat insulation connector 30, and indoor section bar 20 is arranged in the first holding tank 32, outdoor section bar 10 is arranged on again in the second holding tank 33, this just cooperatively interacts the syndeton between indoor section bar 20 and outdoor section bar 10 and heat insulation connector 30, interact again, can better heat insulation connector 30 and indoor section bar 20 and outdoor section bar 10 be linked together, improve the overall construction intensity of heat insulation section.
The first draw-in groove 11 is relative with the opening of the second draw-in groove 21, thereby heat insulation connector 30 is limited between indoor section bar 20 and outdoor section bar 10, can further strengthen the syndeton between heat insulation connector 30 and indoor section bar 20 and outdoor section bar 10.
Preferably, the width of installation cavity 31 is more than or equal to the width of indoor section bar 20 and outdoor section bar 10.Because heat-barrier material 40 is arranged in installation cavity 31, if therefore the width of installation cavity 31 is more than or equal to the width of indoor section bar 20 and outdoor section bar 10, the width of heat-barrier material 40 also just can be more than or equal to the width of indoor section bar 20 and outdoor section bar 10 so, isolation room inner profile 20 and the outdoor section bar 10 completely of arranging that makes heat-barrier material 40, plays better effect of heat insulation.
Between steel auxiliary frame 50 and heat insulation section, have installation interval, heat-barrier material is filled in installation interval from the interval location of two adjacent heat insulation connectors 30.Because steel auxiliary frame 50 is fixedly connected with heat insulation section, heat insulation section is fixedly installed on steel auxiliary frame 50, and by the spaced heat insulation connector 30 of multistage, connect between the indoor section bar 20 of heat insulation section and outdoor section bar 10, therefore when filling with insulation material, heat-barrier material can enter the installation interval between steel auxiliary frame 50 and heat insulation section from the interstitial site between heat insulation connector 30, heat-barrier material 40 in heat insulation section is become one with the heat-barrier material 40 in installation interval, disposablely just can fill, can reduce operation.Heat-barrier material 40 can make steel auxiliary frame 50 bridge cut-off, therefore can improve the heat-proof quality of whole installation system.Heat-barrier material 40 is polyurethane foam glue or fills the heat-barrier materials such as rock wool, is preferably polyurethane foam glue.
Steel auxiliary frame 50 comprises: the first square steel 51; The second square steel 52, with the first square steel 51 intervals and be oppositely arranged, and the spatial accommodation that communicates with the installation interval of steel auxiliary frame 50 and heat insulation section of formation; Installing rack 53, is arranged on and installs on basis 60, and the first square steel 51 and the second square steel 52 are arranged on installing rack 53; Indoor section bar 20 is arranged on the first square steel 51, and outdoor section bar 10 is arranged on the second square steel 52.In the present embodiment, indoor section bar 20 is fixedly installed on the first square steel 51 by attachment screw, and outdoor section bar 10 is fixedly installed on the second square steel 52 by attachment screw.Heat insulation section integral installation on steel auxiliary frame 50 time, can be controlled to the installation interval between heat insulation section and steel auxiliary frame 50 by attachment screw, obtain suitable installation system.
Preferably, in order further to reduce the manufacturing procedure of Thermal insulation door and window, improve the heat-proof quality of Thermal insulation door and window, when making this installation system, heat-barrier material 40 enters the installation interval of steel auxiliary frame 50 and heat insulation section from the interstitial site of heat insulation section, then in installing rack 53 is filled to the spatial accommodation between the first square steel 51 and the second square steel 52, gap in whole installation system can disposablely have been filled heat-barrier material 40, and make to be full of heat-barrier material 40 in steel auxiliary frame 50 and the formed installation system of heat insulation section, thereby improve on the whole the heat-proof quality of installation system.
Preferably, a plurality of installing racks 53 arrange along the length direction interval of the first square steel 51.In the present embodiment, a plurality of installing racks 53 intervals are arranged between the first square steel 51 and the second square steel 52, for the setting of the first square steel 51 and the second square steel 52 provides stable mounting condition.
In order further to improve the integrally-built stability of steel auxiliary frame 50, installing rack 53 comprises base plate and is arranged on two spacing preiection sheets on base plate, i.e. the first spacing preiection sheet 53a and the second spacing preiection sheet 53b, the first spacing preiection sheet 53a is along extending to heat insulation section position perpendicular to the direction of base plate, for limiting the position of the first square steel 51, the medial surface close contact of itself and the first square steel 51.The second spacing preiection sheet 53b is along extending to heat insulation section position perpendicular to the direction of base plate, for limiting the position of the second square steel 52, and the medial surface close contact of itself and the second square steel 52.By the setting of the first spacing preiection sheet 53a and the second spacing preiection sheet 53b, can limit the position of the first square steel 51 and the second square steel 52, thereby limit the spacing distance between the first square steel 51 and the second square steel 52.In actual applications, the first spacing preiection sheet 53a and the second spacing preiection sheet 53b can be sheet, can be also the form of structure such as bulk.
In conjunction with referring to shown in Fig. 5 to Figure 14, the formation step of the installation system of the Thermal insulation door and window in the utility model is as follows:
Step 1, according to the structural requirement processing indoor window (referring to Fig. 5 and Fig. 6) of the indoor section bar 20 of heat insulation section.
Step 2, according to the structural requirement Processing Room exterior window (referring to Fig. 7 and Fig. 8) of the outdoor section bar 10 of heat insulation section.
Step 3, is fixed together outdoor section bar 10 and indoor section bar 20 by heat insulation connector 30, and heat insulation connector 30 is along the frame space setting (referring to Fig. 9 and Figure 10) of window construction.Step 4, on installation basis 60, screed 70 is set, and on screed 70, leave the mounting groove of steel auxiliary frame 50, then steel auxiliary frame 50 is arranged in mounting groove, and by rivet 55 (being the swollen bolt of M8X80 nylon) herein, steel auxiliary frame 50 is fixedly mounted on and is installed on basis 60 (shown in Figure 11).
Step 5, on steel auxiliary frame 50, and regulates the installation interval (shown in Figure 12) between heat insulation section and steel auxiliary frame 50 by being connected to attachment screw between heat insulation section and steel auxiliary frame 50 by heat insulation section (being window construction) integral installation.
Step 6, in the framework of heat insulation section, heat-protecting glass is installed, and at the interval location place of heat insulation connector 30 in the indoor section bar 20 and the interval between outdoor section bar 10 of heat insulation section, in the installation interval of heat insulation section and steel auxiliary frame 50, in spatial accommodation between the first square steel 51 and the second square steel 52 and in the holding tank of screed 70, inject heat-barrier material 40, make heat-barrier material fill the space in whole installation system, break off the heat transmission between all parts of installation system, when improving heat-proof quality, also improve the integrally-built sealing of installation system (shown in Figure 13).
Step 7 is installed window profile between heat insulation section and glass, and glass is fixedly installed on the formed mounting structure of heat insulation section, then plays glue and processes, and further improves sealing and the thermal insulation (shown in Figure 14) of whole Thermal insulation door and window.
Above-mentioned indoor section bar and outdoor section bar are for example aluminium.
Certainly, be more than preferred embodiment of the present utility model.It should be pointed out that for those skilled in the art, not departing under the prerequisite of the utility model basic principle, can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (10)

1. an installation system for Thermal insulation door and window, is characterized in that, comprising:
Steel auxiliary frame (50), is arranged on and installs on basis (60);
Heat insulation section, is fixedly connected on described steel auxiliary frame (50) upper, and described heat insulation section comprises:
Outdoor section bar (10);
Indoor section bar (20);
Heat insulation connector (30), be connected between described indoor section bar (20) and described outdoor section bar (10), a plurality of described heat insulation connectors (30) arrange along the length direction interval of described heat insulation section, and make to form clearance space between described indoor section bar (20) and described outdoor section bar (10).
2. installation system according to claim 1, it is characterized in that, described heat insulation section structure also comprises glass (80) and heat-barrier material (40), described glass (80) is arranged on outside described heat insulation connector (30), and be tightly connected with described heat insulation section, described heat-barrier material (40) extends along the length direction of described heat insulation section, and it is interior to isolate described indoor section bar (20) and described outdoor section bar (10) by described heat insulation connector (30), to be arranged on the described clearance space that described indoor section bar (20), described outdoor section bar (10) and described glass (80) surrounds.
3. installation system according to claim 2, it is characterized in that, described heat insulation connector (30) is provided with the installation cavity (31) extending along the length direction of described heat insulation section, described installation cavity (31) is positioned between described indoor section bar (20) and described outdoor section bar (10), and described heat-barrier material (40) is located in described installation cavity (31).
4. installation system according to claim 2, it is characterized in that, two opposite sides of described heat insulation connector (30) are respectively arranged with the first holding tank (32) and the second holding tank (33), described indoor section bar (20) is arranged in described the first holding tank (32), and described outdoor section bar (10) is arranged in described the second holding tank (33).
5. installation system according to claim 4, it is characterized in that, described indoor section bar (20) includes opening towards first draw-in groove (11) on the first side channel limit of described the first holding tank (32), and the first side channel limit of described the first holding tank (32) extends in described the first draw-in groove (11).
6. installation system according to claim 4, it is characterized in that, described outdoor section bar (10) includes opening towards second draw-in groove (21) on the first side channel limit of described the second holding tank (33), and the first side channel limit of described the second holding tank (33) extends in described the second draw-in groove (21).
7. installation system according to claim 2, it is characterized in that, between described steel auxiliary frame (50) and described heat insulation section, have installation interval, described heat-barrier material is filled in described installation interval from the interval location of adjacent two described heat insulation connectors (30).
8. according to the installation system described in any one in claim 2 to 7, it is characterized in that, described steel auxiliary frame (50) comprising:
The first square steel (51);
The second square steel (52), with described the first square steel (51) interval and be oppositely arranged;
Installing rack (53), is arranged on described installation basis (60) upper, and described the first square steel (51) and described the second square steel (52) are arranged on described installing rack (53);
It is upper that described indoor section bar (20) is arranged on described the first square steel (51), and described outdoor section bar (10) is arranged on described the second square steel (52).
9. installation system according to claim 8, is characterized in that, described heat-barrier material is filled in the spatial accommodation between described the first square steel (51) and described the second square steel (52).
10. installation system according to claim 8, is characterized in that, a plurality of described installing racks (53) arrange along the length direction interval of described the first square steel (51).
CN201420286747.3U 2014-05-30 2014-05-30 Installation system of thermal insulation doors and windows Active CN203846929U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420286747.3U CN203846929U (en) 2014-05-30 2014-05-30 Installation system of thermal insulation doors and windows

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420286747.3U CN203846929U (en) 2014-05-30 2014-05-30 Installation system of thermal insulation doors and windows

Publications (1)

Publication Number Publication Date
CN203846929U true CN203846929U (en) 2014-09-24

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Application Number Title Priority Date Filing Date
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104213799A (en) * 2014-05-30 2014-12-17 当代节能置业股份有限公司 Installation system for heat insulation doors and windows
WO2016115810A1 (en) * 2015-01-22 2016-07-28 深圳市早田门窗技术发展有限公司 Sealing structure of sliding door and window, and sliding door and window

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104213799A (en) * 2014-05-30 2014-12-17 当代节能置业股份有限公司 Installation system for heat insulation doors and windows
WO2016115810A1 (en) * 2015-01-22 2016-07-28 深圳市早田门窗技术发展有限公司 Sealing structure of sliding door and window, and sliding door and window

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