CN109798051A - A kind of Energy Saving Windows - Google Patents
A kind of Energy Saving Windows Download PDFInfo
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- CN109798051A CN109798051A CN201910043142.9A CN201910043142A CN109798051A CN 109798051 A CN109798051 A CN 109798051A CN 201910043142 A CN201910043142 A CN 201910043142A CN 109798051 A CN109798051 A CN 109798051A
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Abstract
The invention discloses a kind of Energy Saving Windows, including the window-frame being fixed on the wall, it is hinged on active window body on window-frame, the fixed window body being tightly connected with active window body, active window body outer layer is connected with internal layer by the first thermal insulation board, the outer layer of fixed window body is connected with internal layer by the second thermal insulation board, the first sealing strip that the setting of active window body internal layer is contradicted with fixed window body sealing, the second sealing strip that the outer layer setting of fixed window body is contradicted with active window body sealing, the third foaming sealing joint strip that the setting of fixed window body side is contradicted with the sealing of active window body side, active window body also sets up the 4th foaming sealing joint strip that sealing contradicts fixed window body, 4th foaming sealing joint strip is connect with active window body internal layer inner surface, 4th foaming sealing joint strip and fixed window body sealing resistance surface are located at active window body internal layer inner surface institute in the plane.Above-mentioned Energy Saving Windows reduce the temperature transmission efficiency of window two sides by the setting of multiple-sealed structure, effectively holding room temperature, thus it is energy saving, reduce energy consumption.
Description
Technical field
The present invention relates to window technology field more particularly to a kind of Energy Saving Windows.
Background technique
Currently, triangle sealing strip is usually arranged in existing Energy Saving Windows on fixed window body, by triangle sealing strip with
Being engaged for thermal insulation board in active window body achievees the effect that sealing, but since thermal insulation board is without elasticity, thermal insulation board is direct
It is contacted with sealing strip when being sealed, can have gap between the two, cause the sealing effect of window bad.Secondly, working as indoor and outdoor temperature
When difference is larger, traditional window causes indoor and outdoor temperature transmitting very fast since leakproofness is bad, and the energy consumption of room conditioning or heating mentions
Height in turn results in energy waste.
Therefore, the prior art need further to develop.
Summary of the invention
In view of the above technical problems, the Energy Saving Windows that the present invention provides a kind of structures is simple, sealing performance is excellent, to solve
Sealing performance is not good for conventional window, easily causes the problem of energy waste.
In order to solve the above technical problems, the present invention provides following technical schemes:
A kind of Energy Saving Windows, including be fixed on the wall window-frame, be hinged on window-frame and be equipped with glass active window body, with
The fixed window body that active window body is tightly connected, active window body outer layer are connected with internal layer by the first thermal insulation board, the outer layer of fixed window body
It is connected with internal layer by the second thermal insulation board, wherein the first sealing strip that the setting of active window body internal layer is contradicted with fixed window body sealing, Gu
Determine the second sealing strip that the outer layer setting of forms is contradicted with active window body sealing, the setting of fixed window body side and active window body side
The third foaming sealing joint strip that sealing contradicts, active window body side are also provided with the 4th foaming sealing that sealing contradicts fixed window body
Adhesive tape, the 4th foaming sealing joint strip are connect with active window body internal layer inner surface, and the 4th foaming sealing joint strip and fixed window body seal
Resistance surface is located at active window body internal layer inner surface institute in the plane.
In the Energy Saving Windows, the 4th foaming sealing joint strip includes foam body, interconnecting piece and dashes forward to fixed window body side
The strip gasket portion risen, sealing and third foaming sealing joint strip sealing contradict, interconnecting piece and active window body internal layer and/or first
Thermal insulation board, which is clamped, to be perhaps bonded or interconnecting piece and the first thermal insulation board are integrally formed.
In the Energy Saving Windows, interconnecting piece is made of first connecting portion and second connecting portion, and first connecting portion is caught in first
In thermal insulation board and active window body at the gap of interlayer, second connecting portion is the strip cooperated with active window body internal layer, active window body
Internal layer correspond to strip setting card slot, first connecting portion be with the integrally formed foaming structure of foam body, second connecting portion be with
Foam body is integrally formed or the non-foamed structure of bonding.
In the Energy Saving Windows, third foams sealing joint strip by cuneiform/wedge shaped body, the overlap joint contradicted with the sealing of the first thermal insulation board
Portion and the mounting bar being clamped with the second thermal insulation board are constituted, and the clinch is arranged in cuneiform/wedge shaped body lateral surface and is in fixed window body
Where outer layer inner surface near plane, the third sealing joint strip that foams is equipped with a no less than mounting bar, on the second thermal insulation board setting with
The mounting groove of mounting bar clamping.
In the Energy Saving Windows, clinch is to be inverted v-shaped structure, mounting bar and the wedge-shaped body section adjacent with mounting bar
It is elastic foaming material for non-foamed elastic material, clinch and with the 4th foaming sealing joint strip sealing conflict position.
In the Energy Saving Windows, cavity is set in the cuneiform/wedge shaped body of third foaming sealing joint strip, what cavity was axially distributed
Multiple barrier items are separated into multiple barrier chambers, and barrier item extends to the surfaces externally and internally of cuneiform/wedge shaped body, and barrier item extends internally conflict
Second thermal insulation board, barrier item reversely extend to the first thermal insulation board direction.
In the Energy Saving Windows, positioned at active window body side the first thermal insulation board both ends respectively with active window body internal layer and
Outer layer is clamped, and is multi-cavity structure inside the first thermal insulation board, external to extend close to the 4th foaming sealing joint strip.
In the Energy Saving Windows, the heat-insulated foaming of setting is filled out in the cavity that the ectonexine of fixed window body is surrounded with the second thermal insulation board
Item is filled, heat-insulated foam filled item is also provided in the cavity that the ectonexine of active window body and the first thermal insulation board surround.
In the Energy Saving Windows, the 5th foaming sealing joint strip of glass and the setting of active window body junction.
In the Energy Saving Windows, the convergence part of the 5th foaming sealing strip connection glass end face and active window body is that non-foamed is close
Material is sealed, the 5th foaming sealing strip other parts are flexible foaming rubber material.
Energy Saving Windows provided in an embodiment of the present invention have the advantages that
1, close by first of the formation of the first sealing strip be tightly connected in the setting of active window body upper side edge with fixed window body
Seal structure, the setting of fixed window body side forms the second seal structures with the second sealing strip that active window body is tightly connected, fixed
The side of forms, which is correspondingly arranged, forms third seal structures, activity with the first foaming sealing joint strip of end baffle plate sealing cooperation
It is additionally provided with the second foaming sealing joint strip with fixed window body sealing cooperation on forms, the 4th seal structures are formed, by upper
The cooperation for stating four kinds of sealing structures, greatly improves the sealing performance of Energy Saving Windows, and the heat transfer coefficient K value of Energy Saving Windows can achieve
0.80W/m2K, energy-efficient performance is apparently higher than existing common heat-insulated window, and (K value is in 2.0-2.5W/m2Between K).
2, heat-insulated foam filled item is arranged by the inside and outside interlayer in active window body and fixed window body, improves forms main body
Heat insulation and preservation effect, by forming the 5th sealing knot in the 5th foaming sealing joint strip of glass and the setting of active window body junction
Structure, avoids the heat transmitting from the gap of glass Yu forms junction, and then comprehensive raising Energy Saving Windows of the invention is close
Envelope and heat insulation effect.
3, indeformable long using the sealing joint strip softness of foam material, resilient beam, compression resistant due to the present invention, it effectively prevent
Stress damage, while achieving the effect that sealing in glass installation and use process, and heat transfer coefficient is down to 0.05W/m2K,
It is the 1/5 of the thermal coefficient of non-foamed rubber, heat insulation effect is good;In addition, the deformation resistance of foaming sealing joint strip is small, window is closed more
Easily, therefore, Energy Saving Windows of the invention not only have good sealing, heat preservation, energy-efficient performance, are not easy to condense, and window
More easily, use is more convenient.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the Energy Saving Windows of closed state in the embodiment of the present invention 1;
Fig. 2 is the structural schematic diagram of the Energy Saving Windows of open state in the embodiment of the present invention 1;
Fig. 3 is the structural schematic diagram of the 4th foaming sealing joint strip in the embodiment of the present invention 1;
Fig. 4 is the structural schematic diagram of third foaming sealing joint strip in the embodiment of the present invention 1;
Fig. 5 is the partial structural diagram of Energy Saving Windows in other embodiments of the invention;
Fig. 6 is the partial structural diagram of Energy Saving Windows in other embodiments of the invention.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, those skilled in the art's every other implementation obtained without creative efforts
Example, shall fall within the protection scope of the present invention.
It should be noted that be expressed " being fixed on " another element when element, it can directly on the other element,
Or there may be one or more elements placed in the middle therebetween.When an element is expressed " connection " another element, it can be with
It is directly to another element or there may be one or more elements placed in the middle therebetween.Used in this specification
The orientation or position of the instructions such as term "vertical", "horizontal", "left" and "right", "upper", "lower", "inner", "outside", " bottom "
Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, without referring to
Show or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot manage
Solution is limitation of the present invention.In addition, term " first ", " second " etc. are used for description purposes only, and should not be understood as instruction or
Imply relative importance.
Unless otherwise defined, technical and scientific term all used in this specification is led with technology of the invention is belonged to
The normally understood meaning of the technical staff in domain is identical.Used term is only in the description of the invention in this specification
The purpose of description specific embodiment is not intended to the limitation present invention.Term "and/or" used in this specification includes
Any and all combinations of one or more related listed items.In addition, invention described below difference is implemented
Technical characteristic involved in mode can be combined with each other as long as they do not conflict with each other.
A kind of Energy Saving Windows as shown in Figs. 1-2 comprising the window-frame being fixed on the wall, the active window being hinged on window-frame
Body 2 is closed the fixed window body 1 connected with active window body 2, and glass 7 is housed in active window body 2.It is living for the ease of transporting and installing
Dynamic forms outer layer 21 and active window body internal layer 22 are connected by multiple first thermal insulation boards 23, the outer layer 11 and internal layer 12 of fixed window body by
Multiple second thermal insulation boards 13 connect.In the present embodiment, in order to improve heat preservation and energy conservation effects, window 7 uses triplex glass, active window body
Opening direction is interior, and opposite direction is outdoor.In other embodiments, to reduce cost, double glazing can be used.Fixed window body 1
Metal material is used with the main structure of active window body 2, preferably uses aluminium alloy.
For the cross-ventilation between completely cutting off inside and outside forms, heat transfer is reduced, the energy-saving effect of window, active window are improved
The setting of outer layer 11 of the first sealing strip 4 that the internal setting of layer 22 is contradicted with the sealing of fixed window body 1, fixed window body is close with active window body
Seal the second sealing strip 3 of conflict, the third foaming sealant that the setting of 1 side of fixed window body is contradicted with the sealing of 2 side of active window body
Item 5,2 side of active window body are also provided with the 4th foaming sealing joint strip 6 that sealing contradicts fixed window body 1, the 4th foaming sealant
Item 6 is connect with 22 inner surface of active window body internal layer, and the 4th foaming sealing joint strip 6 and fixed window body sealing resistance surface are located at active window
22 inner surface of internal layer institute is in the plane.
The present invention forms the by the first sealing strip 4 contradicted in the setting of active window body internal layer 22 with the sealing of fixed window body 1
One seal structures form second in the second sealing strip 3 that the setting of outer layer 11 of fixed window body is contradicted with the sealing of active window body 2
The side wall of sealing structure, preceding two sealed structures and fixed window body, active window body is enclosed convection cavity 8, in 1 side of fixed window body
The third foaming sealing joint strip 5 that face setting is contradicted with the sealing of 2 side of active window body forms third seal structures, active window body 2
Side is also provided with the 4th foaming the 4th seal structures of formation of sealing joint strip 6 that sealing contradicts fixed window body 1.Above-mentioned four kinds close
The cooperation of seal structure reinforces the sealed connection of active window body and fixed window body, greatly improves the sealing performance of Energy Saving Windows.This reality
It applies in example, the first sealing strip 4 and the second sealing strip 3 are all v-shaped structure, the v-shaped structure setting at an acute angle of the first sealing strip 4, and
The v-shaped structure of second sealing strip 3 is arranged in obtuse angle.In other embodiments, the first sealing strip 4 and the second sealing strip 3 can be it
His structure.
Conventional window has above-mentioned first seal structures and the second seal structures, but the sealing of this two sealed structures
Effect is limited, and there are gap at sealing, a small amount of air still can enter in convection cavity 8 from the gap of this two sealed structures,
After entering convection cavity 8 from 4 gap of the first sealing strip such as outdoor air, it can be transmitted by air from the second sealing strip of the other side
3 enter indoor carry out heat exchange, or carry out hot transmitting by the main structure (aluminium alloy) of forms, due to leading for aluminium alloy
Hot coefficient is 160W/mK, and capacity of heat transmission is strong, and this thermaltransmission mode has seriously affected the energy-saving effect of window, by above-mentioned
Two ways, the air of traditional forms two sides are easy to carry out hot transmitting, cause the heat-energy losses of conventional window two sides big, energy-saving effect
Difference.
Twice foaming sealing joint strip structure (third foaming sealing joint strip 5 and the 4th is additionally arranged in the present invention in convection cavity 8
Foam sealing joint strip 6), not only softness, resilient beam, compression resistant are indeformable long for the foaming sealing joint strip, and it is tight to seal conflict
Close, it is non-foamed that in sealing resistance surface, there is no gaps, and the thermal coefficient for the sealing joint strip that foams is low (0.05W/mK)
The 1/5 of the thermal coefficient of material, good heat insulating, to dramatically improve sealing and the energy-saving effect of window.Specifically,
Third foaming sealing joint strip 5 prevents cold (or warm) air-flow entered from 3 gap of the second sealing strip from flowing into convection cavity 8, and
Positioned at 22 inner surface of active window body internal layer in the plane the 4th foaming sealant 6 then effectively prevent from the first sealing strip 4 stitch
Warm (or cold) air-flow that gap enters flow into convection cavity 8 carries out hot transmitting, especially prevents active window body internal layer 22 and admittedly
Determine the thermal energy conduction between the air and aluminum alloy material of 12 internal layer inner surface two sides of forms progress, improves the sealing and heat preservation of window
Performance.Third foaming sealing joint strip 5 and the 4th foaming mutual cooperation of sealing joint strip 6 obstruct air and enter convection current from window side gap
(thermally conductive by convection current, the heat-conducting modes such as radiation) carry out hot transmitting with other side air after chamber 8.Further, since third foaming is close
The deformation resistance of seal strip 5 and the 4th foaming sealant 6 is small, and it is lighter to close window.Therefore, Energy Saving Windows of the invention not only have
Good sealing performance improves heat preservation, energy-saving effect, and window is lighter, and use is more convenient.
In the present embodiment, as shown in figure 3, the 4th foaming sealing joint strip 6 includes foam body, interconnecting piece 61 and to fixed window
The strip gasket portion 62 of body side surface protrusion, sealing 62 and the third foaming sealing of sealing joint strip 5 contradict, interconnecting piece 61 and active window
Internal layer 22 and/or the first thermal insulation board 23, which are clamped, to be perhaps bonded or interconnecting piece 61 and the integrated molding of the first thermal insulation board 23.
In the present embodiment, the interconnecting piece 61 and active window body internal layer 22 of the 4th foaming sealing joint strip 6 are clamped, convenient for sealing knot
Installation, disassembly and the replacement of structure.In other embodiments, in order to reduce production cost and Fast Installation, interconnecting piece and active window body
Internal layer or the first thermal insulation board 23 are bonded.
In other embodiments as shown in Figure 5, the interconnecting piece 603 of the 4th foaming sealing joint strip 6 is snapped fit onto active window body
The inner surface of layer 22, sealing are similar backward L-shaped, are also possible to triangle, V-arrangement, such structure is simpler, reduces cost.
In the present embodiment, as shown in Figure 1,3, the 4th foaming sealing joint strip 6 is in ear shape, and interconnecting piece 61 is by the first connection 611
Portion and second connecting portion 612 form, and first connecting portion 611 is caught in the first thermal insulation board 23 and active window body internal layer by interference fit
At gap between 22, second connecting portion 612 is the strip cooperated with active window body internal layer 22, the corresponding strip of active window body internal layer 22
Card slot 221 is set, and first connecting portion 611 is to be and foaming with the integrally formed foaming structure of foam body, second connecting portion 612
Main body is integrally formed or the non-foamed rubber structure of bonding.Second connecting portion 612 uses non-foamed rubber material, improves the 4th
The clamping fastness of foaming sealing joint strip 6 and 22 card slot 221 of active window body internal layer.In the present embodiment, the first connection 611 and the
Two interconnecting pieces 612 are arranged in obtuse angle, and second connecting portion 612 is connected in the corner of active window body internal layer 22, can reinforce itself and work
The connection of dynamic forms 2.It is the deformation of another structure in other embodiments as shown in FIG. 6, the first connection 611 and second connect
Socket part 612 is arranged at right angle, ipsilateral, this set of the first connection 611 and second connecting portion 612 and active window body internal layer 22
Keep the processing of active window body simpler.
Further, as shown in figure 4, third foams, sealing joint strip 5 is supported by cuneiform/wedge shaped body 53, with the sealing of the first thermal insulation board 23
The clinch 51 of touching and the mounting bar 52 being clamped with the second thermal insulation board 13 are constituted.The clinch 51 is arranged on the outside of cuneiform/wedge shaped body
Face is simultaneously near the plane of 11 inner surface of fixed window body outer layer place, and setting so effectively prevents active window body outer layer 21 and fixes
The thermal energy conduction of 11 inner surface of forms outer layer and 8 middle part air of convection cavity, reduces heat transference efficiency, improve window sealing and
Thermal insulation property.For the ease of installation, third foams sealing joint strip 5 equipped with 2 mounting bars 52 are no less than, and sets on the second thermal insulation board 13
Set the mounting groove being clamped with mounting bar 52.The cuneiform/wedge shaped body 53 of above-mentioned foam material is filled in convection cavity 8, and convection current is not only prevented
The cross-ventilation of 8 two sides of chamber, and its thermal coefficient is low, further improves energy-saving effect.
In the present embodiment, clinch 51 is to be inverted v-shaped structure, and one side of V-arrangement and the sealing of the first thermal insulation board 23 contradict, close
Envelope contact area is big, and sealing effect is good.In other embodiments, the cross section of clinch 51 is triangle, inverted U-shape etc..
Wherein, in order to improve the structural stability of cuneiform/wedge shaped body 53 and installation position, the firmness of clamping, 52 He of mounting bar
The wedge-shaped body section adjacent with mounting bar is non-foamed elastic material, also, in order to guarantee sealing and heat insulation effect, clinch
51 and with the 4th foaming sealing joint strip 6 sealing contradict position be elastic foaming material.
In order to improve thermal insulation property while saving material, reduce production cost, the wedge shape of third foaming sealing joint strip 5 is main
Cavity is set in body 53, and multiple barrier items 54 that cavity is axially distributed are separated into multiple barrier chambers, and barrier item 54 extends to wedge
The surfaces externally and internally of shape main body, barrier item, which extends internally, contradicts the second thermal insulation board 13, obstructs item reversely to 23 direction of the first thermal insulation board
Extend.Barrier item 54 not only prevents cross-ventilation between adjacent cavities, heat transmitting, and also slows down third and foam sealing joint strip
Air flowing between 5 lateral surfaces and the first thermal insulation board 23 in gap, further improves heat preservation, the energy-saving effect of window.
As shown in Figs. 1-2, positioned at 2 side of active window body the first thermal insulation board 23 both ends respectively with active window body internal layer and
Outer layer is clamped, inside the first thermal insulation board 23 be multi-cavity structure, outside to third foaming sealing joint strip 5 extend close to.The
The above structure of one thermal insulation board 23 not only expands the packing volume of convection cavity 8, reduces the air flowing in convection cavity 8, and
And Multicarity setting saves material, also obstructs the air flowing between cavity, heat preservation, energy-saving effect are further improved.
In order to further increase energy-saving effect, set in the cavity that the ectonexine of fixed window body 1 is surrounded with the second thermal insulation board 13
Heat-insulated foam filled item 9 is set, heat-insulated foaming is also provided in the cavity that the ectonexine of active window body 2 is surrounded with the first thermal insulation board 23 and is filled out
Fill item 9.The heat transfer coefficient of heat-insulated foam filled item is low, and above structure setting has further obstructed fixed window body and active window
The heat transmitting of inside and outside two interlayer of body, improves the heat insulation and preservation effect of forms skeleton, further improves the whole energy of Energy Saving Windows
Effect.
Further, as shown in Figure 1, the 5th foaming sealing joint strip 10 of glass 7 and the setting of 2 junction of active window body, this
Structure constitutes the 5th seal structures.The structure is further mentioned by improving the connection sealing between glass and active window body
Integral heat insulation, the energy-saving effect of high Energy Saving Windows.
In the present embodiment, the stability and leakproofness that glass is connect with active window body heat insulating strip in order to balance, the 5th foaming
It is non-foamed sealed material, the 5th foaming other portions of sealing strip that sealing strip 10, which connects glass end face and the convergence part 11 of active window body,
It is divided into flexible foaming rubber material.
In the present embodiment, the frothing part for the sealing joint strip that foams uses EPDM foamed material or other elastic rubbers
Ethylene propylene diene rubber or other elastic rubbers can be used in foamed material, non-foamed part;Thermal insulation board preferably uses nylon material
Or other.
The performance test of Energy Saving Windows
The present invention is had into the Energy Saving Windows of above-mentioned 4th foaming sealing joint strip (having four seal structures) as experimental group,
And as a control group by the Energy Saving Windows setting (only there are three seal structures) of not set 4th foaming sealing joint strip, to two groups of sections
Energy window carries out simulated experiment, compares the energy-efficient performance of the two, and the standard according to ISO10077-2 is calculated, detection method ginseng
According to the requirement of Europe superscript EN12412-2, whole window K value (the i.e. U of energy-saving window is calculatedw)。
The heat transfer coefficient of whole window is calculated according to the following formula.
In formula, Uw--- overall window U factor [W/ (m2K)];
Uf--- window frame heat transfer coefficient [W/ (m2K)];
Af--- window frame area (m2);
Ug--- glass pane heat transfer coefficient [W/ (m2K)];
Ag--- glass pane area (m2);
ψ g --- the linear heat transfer coefficient [W/ (mK)] between window frame and glass pane;
The edge length (m) of Lg --- glassy zone.
| Experimental group | Control group | |
| Uf[W/(m2·K) | 0.847 | 0.855 |
| Uw[W/(m2·K) | 0.80 | 0.81 |
As the result is shown:
As shown above, compared to control group, whole window and window frame (active window body and the fixed window of experimental group energy-saving window
Body) heat transfer coefficient be all significantly reduced, whole window heat transfer coefficient UwDown to 0.80W/ (m2K), energy-efficient performance is obtained
To being greatly improved, industry forefront is occupied;And the Isothermal Line Distribution of Energy Saving Windows is shown: the thermoisopleth and active window body of glass,
The thermoisopleth of fixed window body essentially coincides, and each thermoisopleth of forms is linearly distributed substantially, is not obviously risen and fallen, is illustrated forms
Excellent thermal insulation performance, in addition, the temperature of active window body, fixed window body and inside glass, at 11-12 DEG C, this illustrates section of the present invention
It can be not easy to condense inside forms.
Forms of the present invention pass through four seal structures that active window body and fixed window body junction is arranged in, and reinforce active window
Body and the sealing of fixed window body junction, heat insulation effect, obstruct heat transmitting, while by inside and outside active window body and fixed window body
The heat insulation and preservation effect that heat-insulated foam filled item improves forms main body is arranged in interlayer, also by glass and active window body junction
5th foaming sealing joint strip is set, forms the 5th and arrives sealing structure, the heat from the gap of glass Yu forms junction is avoided to pass
It passs, and then the comprehensive sealing for improving Energy Saving Windows of the invention and heat insulation effect, dramatically reduces the temperature of window two sides
Transmission efficiency effectively keeps room temperature constant, thus it is energy saving, reduce energy consumption.
The apparatus embodiments described above are merely exemplary, wherein described, unit can as illustrated by the separation member
It is physically separated with being or may not be, component shown as a unit may or may not be physics list
Member, it can it is in one place, or may be distributed over multiple network units.It can be selected according to the actual needs
In some or all of the modules achieve the purpose of the solution of this embodiment.
It, can according to the technique and scheme of the present invention and this hair it is understood that for those of ordinary skills
Bright design is subject to equivalent substitution or change, and all these changes or replacement all should belong to the guarantor of appended claims of the invention
Protect range.
Claims (10)
1. a kind of Energy Saving Windows, including be fixed on the wall window-frame, be hinged on window-frame and be equipped with the active window body of glass (7)
(2), the fixed window body (1) being tightly connected with active window body (2), active window body outer layer (21) and internal layer (22) are by the first thermal insulation board
(23) it connects, the outer layer (11) and internal layer (12) of fixed window body are connected by the second thermal insulation board (13), which is characterized in that active window body
The first sealing strip (4) that internal layer (22) setting is contradicted with fixed window body (1) sealing, the outer layer setting of fixed window body and active window body
The second sealing strip (3) contradicted is sealed, the third that the setting of fixed window body (1) side is contradicted with the sealing of active window body (2) side is sent out
It steeps sealing joint strip (5), active window body (2) side is also provided with the 4th foaming sealing joint strip that sealing contradicts fixed window body (1)
(6), the 4th foaming sealing joint strip (6) is connect with active window body internal layer (22) inner surface, and the 4th foams sealing joint strip (6) and fix
Forms sealing resistance surface is located at active window body internal layer inner surface institute in the plane.
2. Energy Saving Windows according to claim 1, which is characterized in that the 4th foaming sealing joint strip (6) includes foam body, connects
Socket part (61) and strip gasket portion (62) to fixed window body side extending projection, sealing (62) and third foaming sealing joint strip (5)
Sealing contradicts, interconnecting piece (61) and active window body internal layer (22) and/or the first thermal insulation board (23) be clamped it is perhaps be bonded or
Interconnecting piece (61) and the first thermal insulation board (23) are integrally formed.
3. Energy Saving Windows according to claim 2, which is characterized in that interconnecting piece (61) is by the first connection (611) portion and second
Interconnecting piece (612) composition, first connecting portion (611) are caught in the gap between the first thermal insulation board (23) and active window body internal layer (22)
Place, second connecting portion (612) are the strip cooperated with active window body internal layer (22), the corresponding strip setting of active window body internal layer (22)
Card slot (221), first connecting portion (611) are to be and hair with the integrally formed foaming structure of foam body, second connecting portion (612)
Steep the non-foamed structure that main body is integrally formed or is bonded.
4. Energy Saving Windows according to any one of claim 1-3, which is characterized in that third foams sealing joint strip (5) by wedge
Shape main body (53), the clinch (51) contradicted with the first thermal insulation board (23) sealing and the mounting bar with the second thermal insulation board (13) clamping
(52) it constitutes, the clinch (51) is arranged in cuneiform/wedge shaped body (53) lateral surface and is in fixed window body outer layer (11) inner surface institute
Near plane, the quantity of mounting bar (52) is no less than 2, the peace of setting and mounting bar (52) clamping on the second thermal insulation board (13)
Tankage.
5. Energy Saving Windows according to claim 4, which is characterized in that clinch (51) is to be inverted v-shaped structure, mounting bar (52)
The wedge-shaped body section adjacent with mounting bar is non-foamed elastic material, the foaming sealing joint strip of clinch (51) He Yu tetra-
(6) it is elastic foaming material that sealing, which contradicts position,.
6. Energy Saving Windows according to claim 5, which is characterized in that the cuneiform/wedge shaped body (53) of third foaming sealing joint strip (5)
Interior setting cavity, multiple barrier items (54) that cavity is axially distributed are separated into multiple barrier chambers, and barrier item (54) extends to wedge
The surfaces externally and internally of shape main body, barrier item (54), which extends internally, contradicts the second thermal insulation board (13), obstructs item reversely to the first thermal insulation board
(23) direction extends.
7. Energy Saving Windows according to claim 6, which is characterized in that the first thermal insulation board (23) positioned at active window body side
Both ends are clamped with active window body internal layer (21) and active window body outer layer (22) respectively, are multi-cavity inside the first thermal insulation board (23)
Structure, outside to the 4th foaming sealing joint strip (6) extend close to.
8. Energy Saving Windows according to claim 4, which is characterized in that the ectonexine of fixed window body (1) is enclosed with the second thermal insulation board
At cavity in heat-insulated foam filled item (9) is set, in the cavity that the ectonexine and the first thermal insulation board of active window body (2) surround
Heat-insulated foam filled item (9) is set.
9. Energy Saving Windows according to claim 4, which is characterized in that glass (7) and active window body (2) junction setting the 5th
It foams sealing joint strip (10).
10. Energy Saving Windows according to claim 9, which is characterized in that the 5th foaming sealing strip (10) connection glass end face and work
The convergence part (11) of dynamic forms is non-foamed sealed material, and the 5th foaming sealing strip other parts are flexible foaming rubber material.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
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| CN115341840A (en) * | 2022-10-19 | 2022-11-15 | 常州市众鑫装饰工程有限公司 | Built-in shutter installation component and hollow window structure |
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Application publication date: 20190524 |