CN219262138U - Low-energy consumption bridge cut-off aluminum alloy passive window structure - Google Patents
Low-energy consumption bridge cut-off aluminum alloy passive window structure Download PDFInfo
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- CN219262138U CN219262138U CN202222564113.7U CN202222564113U CN219262138U CN 219262138 U CN219262138 U CN 219262138U CN 202222564113 U CN202222564113 U CN 202222564113U CN 219262138 U CN219262138 U CN 219262138U
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- muntin
- heat
- section bar
- inner hollow
- heat insulation
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/90—Passive houses; Double facade technology
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Abstract
The utility model discloses a low-energy consumption bridge-cut-off aluminum alloy passive window structure which comprises a glass fan mechanism, a window frame mechanism, a frame muntin mechanism, a heat preservation mechanism, a decorative strip and hollow plate glass, wherein the glass fan mechanism comprises an inner hollow section bar I, an outer hollow section bar I and a main support heat insulation strip connected between the inner hollow section bar I and the outer hollow section bar I. According to the utility model, the heat insulation mechanism is utilized to play a first layer of protection role, heat is isolated from being transferred to the room through the profiles of the glass fan mechanism, the window frame mechanism and the frame muntin mechanism, the indoor and outdoor temperature isolation is effectively maintained, and meanwhile, the main support body heat insulation strips, the self-adhesive heat insulation cotton and the outer sealing plate are combined to form a plurality of sealed chambers, so that the air flow entering the glass fan mechanism is intercepted and cannot be transferred to the room, the indoor and outdoor isolation is perfectly ensured, the sealing performance is improved, and meanwhile, the better sound insulation performance is also achieved, and the practicability of the device is improved.
Description
Technical Field
The utility model relates to the technical field of passive windows, in particular to a low-energy-consumption bridge-cut-off aluminum alloy passive window structure.
Background
The passive house is characterized in that the passive house is a passive ultra-low energy consumption building, the heat preservation, heat insulation and air tightness of the house are achieved, and through comprehensive utilization of cold and heat, heating and refrigerating requirements of the building are remarkably reduced, the development direction of energy conservation of the building in the world is represented, heat preservation, heat insulation and air tightness of the house are greatly related to the performance of opening parts such as doors and windows of the house, therefore, a window with good sealing heat preservation effect and low energy consumption is more important for the passive house, the heat preservation glass on the existing window and window profiles are fixed and connected in a sealing mode through a blank pressing profile and a glass sealing strip, but after indoor and outdoor air flows contact the heat preservation glass, the air flows enter along gaps between the glass and the blank pressing profile, an important air flow passage is formed, the sealing effect of the window sashes is reduced, the heat preservation effect of the whole window is poor, and the whole window is unfavorable for reducing the indoor whole energy consumption.
Disclosure of Invention
The present utility model aims to solve one of the technical problems existing in the prior art or related technologies.
The technical scheme adopted by the utility model is as follows:
the utility model provides a low energy consumption bridge cut-off aluminum alloy passive window structure, includes glass fan mechanism, window frame mechanism, frame muntin mechanism, heat preservation mechanism, ornamental strip and cavity board glass, glass fan mechanism includes interior cavity section bar first and outer cavity section bar first, connect the main tributary support heat-proof strip between interior cavity section bar first and outer cavity section bar first, bond interior cavity section bar first and the inside self-adhesion heat preservation cotton of outer cavity section bar first, fix the outer closing plate in interior cavity section bar outside, window frame mechanism includes interior cavity section bar second that is connected with interior cavity section bar first through the hinge, outer cavity section bar second of two adaptation of interior cavity section bar, assemble the glass blank pressing section bar in interior cavity section bar outside, frame muntin mechanism includes the outer section bar of the heat-proof window frame that is opposite interior cavity section bar second, assemble the muntin heat-proof strip in the inner side of outer cavity section bar of heat-proof window frame, heat preservation mechanism includes fixed heat preservation layer buckle and division heat preservation layer buckle in the frame of frame muntin mechanism outside of fixing in window frame mechanism both ends outside, ornamental strip fixed mounting in the middle part of window frame mechanism and glass blank mechanism.
Preferably, the number of the self-adhesive heat-insulating cotton is three, and the self-adhesive heat-insulating cotton is respectively arranged between the inner hollow section bar I and the outer hollow section bar I, between the inner hollow section bar I and the hollow plate glass and inside the inner hollow section bar I.
Preferably, the main support heat insulation strip corresponds to the muntin heat insulation strip, and the main support heat insulation strip is in supporting connection with the muntin heat insulation strip.
Preferably, the heat preservation mechanism is also provided with self-adhesive heat preservation cotton at a position between the window frame mechanism and the frame muntin mechanism.
Preferably, the end part of the muntin heat insulation strip is provided with a hook, and the hook is clamped with the main support heat insulation strip.
By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:
according to the utility model, the heat insulation mechanism is utilized to play a first layer of protection role, heat is isolated from being transferred to the room through the profiles of the glass fan mechanism, the window frame mechanism and the frame muntin mechanism, the indoor and outdoor temperature isolation is effectively maintained, and meanwhile, the main support body heat insulation strips, the self-adhesive heat insulation cotton and the outer sealing plate are combined to form a plurality of sealed chambers, so that the air flow entering the glass fan mechanism is intercepted and cannot be transferred to the room, the indoor and outdoor isolation is perfectly ensured, the sealing performance is improved, and meanwhile, the better sound insulation performance is also achieved, and the practicability of the device is improved.
Drawings
FIG. 1 is a schematic view of a glass fan according to an embodiment of the present utility model;
FIG. 2 is a schematic view of a glass fan according to an embodiment of the present utility model;
FIG. 3 is a schematic view of a glass fan mechanism according to an embodiment of the present utility model;
FIG. 4 is a schematic view of a sash mechanism according to one embodiment of the present utility model;
fig. 5 is a schematic view of a frame muntin mechanism in accordance with one embodiment of the utility model.
Reference numerals:
100. a glass fan mechanism; 110. an inner hollow section I; 120. an outer hollow section I; 130. a main support body heat insulation strip; 140. self-adhesive heat-insulating cotton; 150. an outer sealing plate;
200. a window frame mechanism; 210. an inner hollow section II; 220. an outer hollow section II; 230. glass edge pressing section bar;
300. a frame muntin mechanism; 310. outer section bar of middle stile of heat insulation window frame; 320. a mullion heat insulation strip;
400. a heat preservation mechanism; 410. fixing a buckle plate of the heat preservation layer; 420. a buckle plate of the heat insulation layer of the fan; 430. the middle stile heat preservation buckle plate;
500. a decorative strip;
600. hollow sheet glass.
Detailed Description
The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.
The following describes a low energy consumption bridge cut-off aluminum alloy passive window structure provided by some embodiments of the utility model with reference to the accompanying drawings.
Embodiment one:
referring to fig. 1 to 5, the low energy consumption bridge cut-off aluminum alloy passive window structure provided by the present utility model comprises a glass sash mechanism 100, a window frame mechanism 200, a frame muntin mechanism 300, a heat insulation mechanism 400, a decoration strip 500 and a hollow plate glass 600, wherein the glass sash mechanism 100 comprises an inner hollow section one 110 and an outer hollow section one 120, a main support heat insulation strip 130 connected between the inner hollow section one 110 and the outer hollow section one 120, self-adhesive heat insulation cotton 140 adhered inside the inner hollow section one 110 and the outer hollow section one 120, an outer sealing plate 150 fixed outside the inner hollow section one 110, the window frame mechanism 200 comprises an inner hollow section two 210 connected with the inner hollow section one 110 through a hinge, an outer hollow section two 220 matched with the inner hollow section two 210, and a glass blank pressing section 230 assembled outside the inner hollow section two 210, the frame muntin mechanism 300 comprises a muntin outer section 310 of the heat-insulating window frame opposite to the inner hollow section II 210, a muntin heat-insulating strip 320 assembled on the inner side of the muntin outer section 310 of the heat-insulating window frame, a main support heat-insulating strip 130 corresponding to the muntin heat-insulating strip 320, the main support heat-insulating strip 130 being in propped connection with the muntin heat-insulating strip 320, hooks being arranged at the ends of the muntin heat-insulating strip 320 and being clamped with the main support heat-insulating strip 130, the heat-insulating mechanism 400 comprises a fixed heat-insulating layer buckle 410 and a fanning heat-insulating layer buckle 420 fixed on the outer sides of the two ends of the window frame mechanism 200, a frame muntin heat-insulating layer buckle 430 assembled on the outer sides of the frame muntin mechanism 300, the decorative strip 500 being fixedly installed on the two ends of the window frame mechanism 200, and the hollow plate glass 600 being assembled in the middle of the glass fanning mechanism 100 and the window frame mechanism 200.
Specifically, when the glass fan mechanism 100 is closed, the main support body heat insulation strip 130 and the muntin heat insulation strip 320 are clamped, the room can be completely closed, the external environment can not be influenced, the indoor temperature can only be influenced by the human body temperature, the air conditioner and other temperature control equipment, so that the indoor temperature can be accurately regulated, the indoor temperature can be maintained at a comfortable value, and the comfort is improved.
Embodiment two:
as shown in fig. 1, on the basis of the first embodiment, three self-adhesive heat-insulating cottons 140 are installed in a group between the inner hollow profile one 110 and the outer hollow profile one 120, between the inner hollow profile one 110 and the hollow plate glass 600, and inside the inner hollow profile one 110, respectively, and the positions between the heat-insulating mechanism 400 and the window frame mechanism 200 and the muntin mechanism 300 are also equipped with the self-adhesive heat-insulating cottons 140.
Specifically, the self-adhesive heat preservation cotton 140 is used for isolating the outside temperature, so that the inside heat and the outside heat cannot be exchanged, a heat preservation effect is achieved, meanwhile, the self-adhesive heat preservation cotton 140, the main support heat insulation strips 130 and the outer sealing plate 150 form a plurality of sealed cavities, outside air flow can be intercepted, the outside air flow is prevented from entering the room, the influence of the outside temperature on the room is avoided, the sealing performance of the device is improved, and the better sound insulation effect can be achieved.
The working principle and the using flow of the utility model are as follows: firstly, the whole device is installed and used, when the glass fan mechanism 100 is closed, external air flow enters the glass fan mechanism 100 from a gap between a glass sealing strip and glass after contacting with hollow plate glass 600, and at the moment, the air flow is blocked in the glass fan mechanism 100 through a plurality of sealing cavities formed by the main support body heat insulation strip 130, the self-adhesive heat preservation cotton 140 and the outer sealing plate 150, so that the air flow cannot enter into a room, the blocking is completed, meanwhile, cavities formed by the same structure are formed in the window frame mechanism 200 and the frame muntin mechanism 300, the external air flow is completely intercepted, and finally, the glass fan mechanism 100 is opened at regular time for ventilation.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.
Claims (5)
1. The utility model provides a low energy consumption bridge cut-off aluminum alloy passive window structure which characterized in that includes:
the glass fan mechanism (100) comprises an inner hollow section bar I (110) and an outer hollow section bar I (120), a main support heat insulation strip (130) connected between the inner hollow section bar I (110) and the outer hollow section bar I (120), self-adhesive heat insulation cotton (140) adhered inside the inner hollow section bar I (110) and the outer hollow section bar I (120), and an outer sealing plate (150) fixed on the outer side of the inner hollow section bar I (110);
the window frame mechanism (200) comprises a second inner hollow profile (210) connected with the first inner hollow profile (110) through a hinge, a second outer hollow profile (220) matched with the second inner hollow profile (210), and a glass blank pressing profile (230) assembled on the outer side of the second inner hollow profile (210);
a frame muntin mechanism (300) comprising a heat-insulating window frame muntin outer shape (310) opposite to the inner hollow shape II (210), and muntin heat-insulating strips (320) assembled on the inner side of the heat-insulating window frame muntin outer shape (310);
the heat preservation mechanism (400) comprises a fixed heat preservation buckle plate (410) and a fanning heat preservation buckle plate (420) which are fixed at the outer sides of two ends of the window frame mechanism (200), and a frame muntin heat preservation buckle plate (430) which is assembled at the outer side of the frame muntin mechanism (300);
the decorative strips (500) are fixedly arranged at two ends of the window frame mechanism (200);
the hollow plate glass (600) is assembled in the middle of the glass fan mechanism (100) and the window frame mechanism (200).
2. The low energy consumption bridge cut-off aluminum alloy passive window structure according to claim 1, wherein the number of the self-adhesive thermal insulation cottons (140) is three as a group, and the self-adhesive thermal insulation cottons are respectively installed between the inner hollow profile one (110) and the outer hollow profile one (120), between the inner hollow profile one (110) and the hollow plate glass (600), and inside the inner hollow profile one (110).
3. The low energy consumption bridge cut-off aluminum alloy passive window structure according to claim 1, wherein the main support heat insulation strip (130) corresponds to the muntin heat insulation strip (320), and the main support heat insulation strip (130) is in abutting connection with the muntin heat insulation strip (320).
4. A low energy consumption bridge cut-off aluminium alloy passive window structure according to claim 1, characterized in that the location between the insulating means (400) and the sash means (200) and mullion means (300) is also equipped with self-adhesive insulating wool (140).
5. The low energy consumption bridge cut-off aluminum alloy passive window structure of claim 1, wherein the end of the muntin heat insulating strip (320) is provided with hooks, which are clamped with the main support heat insulating strip (130).
Priority Applications (1)
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CN202222564113.7U CN219262138U (en) | 2022-09-27 | 2022-09-27 | Low-energy consumption bridge cut-off aluminum alloy passive window structure |
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CN202222564113.7U CN219262138U (en) | 2022-09-27 | 2022-09-27 | Low-energy consumption bridge cut-off aluminum alloy passive window structure |
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CN219262138U true CN219262138U (en) | 2023-06-27 |
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CN202222564113.7U Active CN219262138U (en) | 2022-09-27 | 2022-09-27 | Low-energy consumption bridge cut-off aluminum alloy passive window structure |
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- 2022-09-27 CN CN202222564113.7U patent/CN219262138U/en active Active
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