CN202493171U - Heat-insulating sectional material and energy-saving thermal insulation aluminum alloy vertical hinged door adopting same - Google Patents
Heat-insulating sectional material and energy-saving thermal insulation aluminum alloy vertical hinged door adopting same Download PDFInfo
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- CN202493171U CN202493171U CN2012200868951U CN201220086895U CN202493171U CN 202493171 U CN202493171 U CN 202493171U CN 2012200868951 U CN2012200868951 U CN 2012200868951U CN 201220086895 U CN201220086895 U CN 201220086895U CN 202493171 U CN202493171 U CN 202493171U
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- aluminum alloy
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Abstract
The utility model discloses a heat-insulating sectional material used as a fan frame material of an aluminum alloy door or window. The heat-insulating sectional material is composed of a first special-shaped aluminum alloy sectional material and a second special-shaped aluminum alloy sectional material which are paralleled through a first connecting plate and are combined at an interval, wherein the first special-shaped aluminum alloy sectional material comprises a first plate body and a first tube body formed at the middle part of one side surface of the first plate body; sealing bar mounting grooves are arranged at two edges of the first plate body; the first side surface of the first tube body is provided with a first connecting groove while the second side surface thereof is provided with two first convex bars; the second special-shaped aluminum alloy sectional material comprises a second tube body; the third side surface of the second tube body is provided with a second plate body; a second convex bar is arranged at the outer edge of the third side surface; and the fourth side surface of the second tube body is provided with two third convex bars. An energy-saving thermal insulation aluminum alloy vertical hinged door comprising a door frame, a doorsill and door leafs is also provided; and the fan frames of the door leafs are made of the heat-insulating sectional material. The heat-insulating sectional material is simple in structure; and the aluminum alloy window is beautiful in appearance and good in wind pressure resistance.
Description
Technical field
The utility model relates to heat insulation section, particularly is used for the heat insulation section of the fan frame material of Ping Kai aluminium alloy door or window, and the energy-saving heat preserving Ping Kai aluminium alloy door that adopts this heat insulation section.
Background technology
Flat open alumium alloy door and window and be widely used in the present building, and the Along with people's growth in the living standard, air-conditioning, warm-air drier etc. has become necessity for life; Winter need be at indoor heating; Summer need be in indoor refrigeration, yet because the aluminium alloys thermal conductivity is higher, causes the loss of indoor cold air and heating installation easily; Thereby cause the air conditioner refrigerating and the time that heats to increase, cause waste of electric energy.Simultaneously, people's aesthetic standard needs to release the fangle door and window to satisfy people's demand also in continuous change.
The utility model content
The purpose of the utility model provides a kind of heat insulation section.
The utility model heat insulation section is used for the fan frame material of aluminium alloy door or window, and this heat insulation section is parallel and combine with interval through first junction plate of low heat conductivity by first profile aluminium alloy material and second profile aluminium alloy material; Said first profile aluminium alloy material comprises first plate body and first body that forms in this middle part, first plate body, one side; Two edges of said first plate body are provided with the weather strip mounting groove; First side away from said first plate body of said first body is provided with first link slot that cooperates with said first junction plate, and second side adjacent with said first plate body of said first body is provided with two first prominent bars that cross section relative and separated by a distance is L-shaped; Said second profile aluminium alloy material comprises second body; The 3rd side of said second body is provided with second plate body parallel with said first plate body; The 3rd side is vertical with said first plate body near the said first prominent bar and plane, place; Place, the outer of the 3rd side is provided with the second prominent bar, said second body with the 4th opposing side of the 3rd side two the 3rd prominent bars that cross section relative and separated by a distance is L-shaped are set.
Preferably, said second plate body is arranged at the middle part of said the 3rd side, and a side of said second plate body and a side of said second body are provided with second link slot that cooperates with said first junction plate.
The utility model also provides a kind of energy-saving heat preserving Ping Kai the aluminium alloy door; This Ping Kai aluminium alloy door comprises doorframe, threshold and door leaf; The fan lower frame of said door leaf, fan upper ledge and fan munnion adopt above-mentioned any one heat insulation section; Said fan lower frame downside is connected the fan ingredient through the said second prominent bar with said second plate body, said fan ingredient lower end is provided with seal weatherstrip; At least one fan munnion connects stile in the vacation through the said first prominent bar.
Preferably, said door leaf is provided with a waist.
Preferably; Stile comprises the 3rd plate body and is supported on the 3rd profile aluminium alloy material of the 3rd plate body one side through second junction plate in the said vacation; Said the 3rd profile aluminium alloy material comprises that the cross section is the 3rd body of hollow L font, a side setting of said the 3rd body and two first two three junction plates that prominent bar cooperate of said at least one fan on munnion.
This heat insulation section is simple in structure, stile can be installed in the vacation easily and through the fan ingredient seal weatherstrip be installed.This aluminum window good looking appearance, anti-wind pressure is good.
Description of drawings
Fig. 1 is the structural representation in the cross section of an embodiment heat insulation section of the utility model.
Fig. 2 is the structural representation of an embodiment energy-saving heat preserving of the utility model Ping Kai aluminium alloy door.
Fig. 3 is the A-A sectional view of Fig. 2.
Fig. 4 is the B-B sectional view of Fig. 2.
Fig. 5 is the structural representation of the joint portion of its fan lower frame and threshold.
Fig. 6 is the structural representation in the cross section of stile in its vacation.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the utility model is further specified.
Fig. 1 shows the structure in the cross section of an embodiment heat insulation section, and this heat insulation section can be used in the fan frame of making Ping Kai aluminium alloy door or window.
As shown in Figure 1; This heat insulation section is parallel and combine with interval through first junction plate 13 of low heat conductivity by first profile aluminium alloy material 11 and second profile aluminium alloy material 12; First profile aluminium alloy material 11 comprises the first plate body 11a and the first body 11c that forms in middle part, this first plate body 11a one side; Two edges of the first plate body 11a are provided with weather strip mounting groove 11b; The first side 11e away from the first plate body 11a of the first body 11c is provided with the first link slot 11d that cooperates with first junction plate 13; Second side adjacent with the first plate body 11a of the first body 11c is provided with two first prominent bar 11f that the cross section is L-shaped, and two first prominent bar 11f are relative and separated by a distance; Second profile aluminium alloy material 12 comprises the second body 12a; The 3rd side 12d of the second body 12a is provided with the second plate body 12e parallel with the first plate body 11a; The 3rd side 12d is vertical with the first plate body 11a near the first prominent bar 11f and plane, place; The place, outer of the 3rd side 12d is provided with the second prominent bar 12c, and the second body 12a is provided with two the 3rd prominent bar 12b that the cross section is L-shaped with the 4th opposing side of the 3rd side 12d, and two the 3rd prominent bar 12b are relative and separated by a distance.
The second plate body 12e is arranged at the middle part of the 3rd side 12d, and the side of the side of the second plate body 12e and the second body 12a respectively is provided with second a link slot 12f who cooperates with first junction plate 13.Be appreciated that ground, also three or more a plurality of first link slot can be set on first profile aluminium alloy material 11, three or more a plurality of second link slot correspondingly also are set on second profile aluminium alloy material 12.In addition, the second plate body 12e also can be in the edge near first profile aluminium alloy material 11 of the 3rd side 12d.
Fig. 2-5 shows the structure of a kind of 55 series energy-savings insulation Ping Kai aluminium alloy door, and its Door leaf frame has adopted heat insulation section shown in Figure 1.
Shown in Fig. 2-5, this energy-saving heat preserving Ping Kai aluminium alloy door comprises doorframe 2, threshold 10 and is installed on two door leafs in the doorframe 2 through hinge 5, and handle 4 is installed on the door leaf, stile, 6 expression glass in 7 expressions among the figure.Door leaf comprises fan munnion 1, fan upper ledge 1 ' and fan lower frame 1 ".Doorframe 2, middle stile 7, fan munnion 1, fan upper ledge 1 ' and fan lower frame 1 " all adopt heat insulation section, glass 6 adopts hollow glass.
The fan lower frame 1 of door leaf ", fan upper ledge 1 ' adopts heat insulation section as shown in Figure 1 with fan munnion 1, fan lower frame 1 " downside is connected fan ingredient 9 through the second prominent bar 12c with the second plate body 12e, fan ingredient 9 lower ends seal weatherstrip 9d be set; More particularly; A side plate of fan ingredient 9 is embedded in fan lower frame 1 " last second to dash forward between the bar 12c and the second plate body 12e, another side plate upper surface is provided with that groove 9b is connected with the end of the said second plate body 12e and soffit is installed said seal weatherstrip 9d through groove 9c.
As shown in Figure 4, the left side fan munnion 1 of right door leaf connects stile 8 in the vacation through the prominent bar 11f of first on it.With reference to Fig. 6; Stile 8 comprises the 3rd plate body 81 and is supported on the 3rd profile aluminium alloy material 82 of the 3rd plate body 81 1 sides through second junction plate 83 in this vacation; The 3rd profile aluminium alloy material 82 comprises that the cross section is the 3rd body 82a of hollow L font, two first two the 3rd junction plate 82b that prominent bar 11f cooperates on the side setting of the 3rd body 82a and this fan munnion 1.
Shown in Fig. 3 and 4, fan munnion 1, fan upper ledge 1 ' and fan lower frame 1 " be connected glass profile K through two the 3rd on it prominent bar 12b.
In order to increase aesthetic feeling and the resisting wind press capacity that improves door, door leaf is provided with a waist 3.
In the utility model, first junction plate 13 and second junction plate 83 can adopt the material that various coefficient of thermal conductivity are little, intensity is big to process, as: adopt the polyamide nylon 66 of band tempered glass fiber, etc.The coefficient of thermal conductivity of first junction plate 13 and second junction plate 83 is more little good more, preferably not heat conduction.
The above only is the preferred implementation of the utility model, and the protection domain of the utility model also not only is confined to the foregoing description, and all technical schemes that belongs under the utility model thinking all belong to the protection domain of the utility model.Should be pointed out that for those skilled in the art in the some improvement and the retouching that do not break away under the utility model principle prerequisite, these improvement and retouching also should be regarded as the protection domain of the utility model.
Claims (5)
1. heat insulation section; Be used for the fan frame material of aluminium alloy door or window, it is characterized in that: this heat insulation section is parallel and combine with interval through first junction plate (13) of low heat conductivity by first profile aluminium alloy material (11) and second profile aluminium alloy material (12);
Said first profile aluminium alloy material comprises first plate body (11a) and forms in first body (11c) at this middle part, first plate body, one side; Two edges of said first plate body are provided with weather strip mounting groove (11b); First side (11e) away from said first plate body of said first body is provided with first link slot (11d) that cooperates with said first junction plate, and second side adjacent with said first plate body of said first body is provided with two first prominent bars (11f) that cross section relative and separated by a distance is L-shaped;
Said second profile aluminium alloy material comprises second body (12a); The 3rd side (12d) of said second body is provided with second plate body (12e) parallel with said first plate body; The 3rd side is vertical with said first plate body near the said first prominent bar (11f) and plane, place; Place, the outer of the 3rd side is provided with the second prominent bar (12c), said second body with the 4th opposing side of the 3rd side two the 3rd prominent bars (12b) that cross section relative and separated by a distance is L-shaped are set.
2. heat insulation section according to claim 1; It is characterized in that: said second plate body (12e) is arranged at the middle part of said the 3rd side (12d), and a side of a side of said second plate body (12e) and said second body (12a) is provided with second link slot (12f) that cooperates with said first junction plate.
3. energy-saving heat preserving Ping Kai aluminium alloy door; Comprise doorframe (2), threshold (10) and door leaf; It is characterized in that: the fan lower frame of said door leaf (1 "), fan upper ledge (1 ') adopt claim 1 or 2 described heat insulation sections with fan munnion (1); said fan lower frame downside is connected with said second plate body (12e) through the said second prominent bar (12c) fans ingredient (9), and said fan ingredient lower end is provided with seal weatherstrip (9d); At least one fan munnion connects stile (8) in the vacation through the said first prominent bar (11f).
4. energy-saving heat preserving Ping Kai according to claim 3 aluminium alloy door is characterized in that: said door leaf is provided with a waist (3).
5. energy-saving heat preserving Ping Kai according to claim 3 aluminium alloy door; It is characterized in that: stile in the said vacation (8) comprises the 3rd plate body (81) and is supported on the 3rd profile aluminium alloy material (82) of the 3rd plate body one side through second junction plate (83); Said the 3rd profile aluminium alloy material comprises that the cross section is the 3rd body (82a) of hollow L font, a side setting of said the 3rd body and two first two three junction plates (82b) that prominent bar (11f) cooperate of said at least one fan on munnion.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2012200868951U CN202493171U (en) | 2012-03-09 | 2012-03-09 | Heat-insulating sectional material and energy-saving thermal insulation aluminum alloy vertical hinged door adopting same |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2012200868951U CN202493171U (en) | 2012-03-09 | 2012-03-09 | Heat-insulating sectional material and energy-saving thermal insulation aluminum alloy vertical hinged door adopting same |
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CN202493171U true CN202493171U (en) | 2012-10-17 |
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CN2012200868951U Expired - Fee Related CN202493171U (en) | 2012-03-09 | 2012-03-09 | Heat-insulating sectional material and energy-saving thermal insulation aluminum alloy vertical hinged door adopting same |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103643858A (en) * | 2013-11-14 | 2014-03-19 | 天津市升发工贸有限公司 | Flush door |
CN104047512A (en) * | 2014-05-28 | 2014-09-17 | 安徽科蓝特铝业有限公司 | Insulated casement window doorsill sectional material mechanism |
CN109594874A (en) * | 2017-09-30 | 2019-04-09 | 刘祥 | The hinge hiding mechanism of Foldable door and window |
-
2012
- 2012-03-09 CN CN2012200868951U patent/CN202493171U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103643858A (en) * | 2013-11-14 | 2014-03-19 | 天津市升发工贸有限公司 | Flush door |
CN104047512A (en) * | 2014-05-28 | 2014-09-17 | 安徽科蓝特铝业有限公司 | Insulated casement window doorsill sectional material mechanism |
CN109594874A (en) * | 2017-09-30 | 2019-04-09 | 刘祥 | The hinge hiding mechanism of Foldable door and window |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121017 Termination date: 20140309 |