CN209244481U - A kind of aluminum window discharge structure - Google Patents
A kind of aluminum window discharge structure Download PDFInfo
- Publication number
- CN209244481U CN209244481U CN201821285890.5U CN201821285890U CN209244481U CN 209244481 U CN209244481 U CN 209244481U CN 201821285890 U CN201821285890 U CN 201821285890U CN 209244481 U CN209244481 U CN 209244481U
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- drainage hole
- heat insulating
- insulating strip
- aluminum window
- mounting groove
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Abstract
The utility model provides panel outside a kind of aluminum window discharge structure, including lower rail indoor panel and lower rail room, is connected between panel by heat insulating strip bridge cut-off outside the lower rail indoor panel and the lower rail room;The rainwater catchment that upper layer is easy to happen ponding position is discharged outside outside window into the cavity of lower layer, and through apopore by the way that multiple rhones are arranged and drainage hole is arranged in heat insulating strip, strengthens the rainwater discharge capacity of aluminum window by the utility model;By the way that protective baffle plate is arranged, it can effectively prevent dust and rainwater from entering in window from the external world while guaranteeing aluminum window drainage performance, it is frequently regional to be more suitable for typhoon.
Description
Technical field
The utility model relates to a kind of building material product fields, more specifically, in particular to a kind of aluminum window draining knot
Structure.
Background technique
Common aluminum window ponding in order to prevent at present, towards offering drainage hole on side outside window, but with
Increasing using the time, often by some impurity, dust or sludge blockage, ponding can not be arranged drainage hole from lower window frame
Out, it is possible to can stretch to the inside of sliding window, windowsill even indoor environment be polluted, it is therefore desirable to regularly to draining
Hole is cleared up, but since drainage hole is smaller, and cleaning is got up very complicated, and is also not easy to clean out.
For skyscraper, often occur that wind is big, external pressure, which is greater than internal pressure and the vortex of generation, causes water arrange not go out, easy
Rainwater occurs and flows backward indoor problem.
In view of this, designing and manufacturing a kind of window discharge structure with good drainage effect is particularly important.
Utility model content
The utility model provides a kind of aluminum window discharge structure, to solve sliding window mentioned above in the background art
In the rainy day, drainage hole is easy blocking, influences the problems such as draining.
To achieve the above object, the utility model provides the following technical solutions: a kind of aluminum window discharge structure, is set to aluminium
Face outside panel outside the lower rail of alloy window, including lower rail indoor panel and lower rail room, the lower rail indoor panel and the lower rail room
It is connected between plate by heat insulating strip bridge cut-off;
The lower rail indoor panel includes first baffle, the first rhone, the first guide rail mounting surface and the first cavity;It is described
The height of first baffle is greater than the height of the first guide rail mounting surface;It is provided in the bottom interval of first rhone more
First rhone is connected by a first drainage hole, multiple first drainage holes with first cavity;Described first
The right side wall of cavity is equipped with the first trapezoidal mounting groove and the second trapezoidal mounting groove, below the right side wall of the first cavity of Yu Suoshu between
Every being provided with multiple first drainage holes;
Panel includes second baffle, the second rhone, the second guide rail mounting surface and the second cavity outside the lower rail room;It is described
The height of second baffle is identical as the height of the first baffle;The bottom interval of second rhone is provided with multiple
Second rhone is connected by three drainage holes, multiple third drainage holes with second cavity;Second cavity
Left side wall be equipped with the trapezoidal mounting groove of third and the 4th trapezoidal mounting groove;Interval setting below the left side wall of second cavity
There are multiple second drainage holes, is arranged at intervals with multiple apopores below right side wall;First drainage hole, second drainage hole
It is connected between the apopore;
The heat insulating strip includes c-type heat insulating strip and I type heat insulating strip, and the c-type heat insulating strip is respectively engaged with first ladder
On shape mounting groove and the trapezoidal mounting groove of the third, the I type heat insulating strip is respectively engaged with the described second trapezoidal mounting groove and institute
It states on the 4th trapezoidal mounting groove;Multiple second drainage holes are arranged at intervals on the c-type heat insulating strip;Second drainage hole, institute
It states and is interconnected between the first drainage hole and second drainage hole.
Preferably,
Between the c-type heat insulating strip and the first trapezoidal mounting groove, the c-type heat insulating strip and the trapezoidal installation of the third
Between slot, between the I type heat insulating strip and the second trapezoidal mounting groove, the I type heat insulating strip and the 4th trapezoidal installation
Silicone sealant is filled between slot.
Preferably,
The quantity of first drainage hole, second drainage hole and the third drainage hole is identical, first draining
The quantity in hole, second drainage hole and the apopore is identical, the quantity of first drainage hole and first drainage hole
Quantitative proportion be 2:1.
Preferably,
It further include the anti-skid plate on the outside of the apopore.
Preferably,
The section of the anti-skid plate is of an L-shaped structure, and the anti-skid plate includes arc panel and vertical plate, the arc panel
One end connect with the upper side position of the apopore, the other end is connect with the vertical plate, and the vertical plate is parallel to described
Second baffle.
Preferably,
It further include the deflector set on first cavity bottom.
Preferably,
The section of the deflector is slope structure, and the left side of the deflector leans with the first baffle, right
Side and the bottom of first drainage hole lean.
Preferably,
Water check valve is equipped in first drainage hole, second drainage hole and the third drainage hole.
Preferably,
Filter screen is equipped with above the water check valve.
Preferably,
The upper surface of panel is coated with hydrophobic coating outside the upper surface of the lower rail indoor panel and the lower rail room.
Compared with prior art, the utility model has the beneficial effects that by above-mentioned design, it is provided by the utility model
Upper layer is easy hair by the way that multiple rhones are arranged and drainage hole is arranged in heat insulating strip by a kind of aluminum window discharge structure
The rainwater catchment of ponding position is given birth into the cavity of lower layer, and outer outside window by apopore discharge, strengthens the rain of aluminum window
Water discharge capacity;By be arranged protective baffle plate, can while guaranteeing aluminum window drainage performance, effectively prevent dust with
Rainwater enters in window from the external world, and it is frequently regional to be more suitable for typhoon.
Detailed description of the invention
Fig. 1 is the structure chart of aluminum window discharge structure in the utility model embodiment;
Fig. 2 is the installation view of aluminum window discharge structure in the utility model embodiment;
Water (flow) direction when direction shown in arrow is draining in figure;
In fig. 1 and fig. 2, the corresponding relationship of component names and accompanying drawing number are as follows:
1-- lower rail indoor panel, 11-- first baffle, the first rhone of 12--, the first guide rail of 13-- mounting surface, 14--
One cavity, the first drainage hole of 15--, the trapezoidal mounting groove of 16-- first, the trapezoidal mounting groove of 17-- second, the first drainage hole of 18--,
Panel outside 2-- lower rail room, 21-- second baffle, the second rhone of 22--, the second guide rail of 23-- mounting surface, the second cavity of 24--,
25-- third drainage hole, the trapezoidal mounting groove of 26-- third, the trapezoidal mounting groove of 27-- the 4th, the second drainage hole of 28--, 29-- water outlet
Hole, 3-- heat insulating strip, 31--C type heat insulating strip, 32--I type heat insulating strip, the second drainage hole of 33--, the anti-skid plate of 4--, 5-- water conservancy diversion
Plate.
Specific embodiment
The embodiments of the present invention is described in further detail with reference to the accompanying drawings and examples.Following embodiment
For illustrating the utility model, but cannot be used to limit the scope of the utility model.
In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more;Term
The orientation of the instructions such as "upper", "lower", "left", "right", "inner", "outside", " front end ", " rear end ", " head ", " tail portion " or position are closed
System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, rather than
The device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot
It is construed as a limitation of the present invention.In addition, term " first ", " second ", " third " etc. are used for description purposes only, and cannot
It is interpreted as indication or suggestion relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " phase
Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected;It can
To be mechanical connection, it is also possible to be electrically connected;It can be directly connected, it can also be indirectly connected through an intermediary.For this
For the those of ordinary skill in field, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.
Referring to FIG. 1, Fig. 1 is the structure chart of aluminum window discharge structure in the utility model embodiment.
The utility model provides a kind of aluminum window discharge structure, in the lower rail of aluminum window, including lower rail room
Pass through 3 bridge cut-off of heat insulating strip outside panel 2 outside panel 1 and lower rail room, the lower rail indoor panel 1 and the lower rail room between panel 2
Connection;
The lower rail indoor panel 1 includes first baffle 11, the first rhone 12, the first guide rail mounting surface 13 and the first sky
Chamber 14;The height of the first baffle 11 is greater than the height of the first guide rail mounting surface 13;In first rhone 12
Bottom interval is provided with multiple first drainage holes 15, and multiple first drainage holes 15 are by first rhone 11 and described the
One cavity 14 is connected;The right side wall of first cavity 14 is equipped with the first trapezoidal mounting groove 16 and the second trapezoidal mounting groove
Multiple first drainage holes 18 are arranged at intervals with below the right side wall of 17, Yu Suoshu first cavitys 14;
Panel 2 includes second baffle 21, the second rhone 22, the second guide rail mounting surface 23 and the second sky outside the lower rail room
Chamber 24;The height of the second baffle 21 is identical as the height of the first baffle 11;In the bottom of second rhone 22
Multiple third drainage holes 25 are arranged at intervals with, multiple third drainage holes 25 are empty by second rhone 22 and described second
Chamber 24 is connected;The left side wall of second cavity 24 is equipped with the trapezoidal mounting groove 26 of third and the 4th trapezoidal mounting groove 27;Institute
State and be arranged at intervals with multiple second drainage holes 28 below the left side wall of the second cavity 24, be arranged at intervals with below right side wall it is multiple go out
Water hole 29;It is connected between first drainage hole 18, second drainage hole 28 and the apopore 29;
The heat insulating strip 3 includes c-type heat insulating strip 31 and I type heat insulating strip 32, and the c-type heat insulating strip 31 is respectively engaged with described
On first trapezoidal mounting groove 26 and the trapezoidal mounting groove 26 of the third, the I type heat insulating strip 32 is respectively engaged with second ladder
On shape mounting groove 17 and the 4th trapezoidal mounting groove 27;Multiple second drainage holes are arranged at intervals on the c-type heat insulating strip 31
33;It is interconnected between second drainage hole 33, first drainage hole 28 and second drainage hole 28.
Traditional sliding window discharge structure is all single layer rhone, and rhone side begins to rehearse water hole, and is blocked with plastic part,
And plastic part is opened when needing to drain, for drainage hole often by some impurity, dust or sludge blockage, ponding can not be from lower window
It is discharged in frame, it is possible to can stretch to the inside of sliding window, windowsill even indoor environment be polluted, it is therefore desirable to regularly
Drainage hole is cleared up.For skyscraper, often occur that wind is big, external pressure, which is greater than internal pressure and the vortex of generation, causes water to be arranged
Do not go out, is easy to happen rainwater and flows backward indoor problem.This technology takes double-layer structure to design, and the first rhone on upper layer
12, the bottom of the second rhone 22 and c-type heat insulating strip 31 open up respectively first drainage hole 15, second drainage hole 33 and
The third drainage hole 25, first cavity 14 and second cavity 24 of the ponding on upper layer directly from row side to lower layer, and through under
The first drainage hole 18, the second drainage hole 28 and the apopore 29 of layer are drained.
Preferably,
Between the c-type heat insulating strip 31 and the first trapezoidal mounting groove 16, the c-type heat insulating strip 31 and third ladder
Between shape mounting groove 26, between the I type heat insulating strip 32 and the second trapezoidal mounting groove 17, the I type heat insulating strip 32 and institute
It states between the 4th trapezoidal mounting groove 27 filled with silicone sealant.By filling silicone sealant, enhancing heat insulating strip and aluminium are closed
Sealing performance between golden window can reduce the amount of rainfall penetrated into inside trapezoidal mounting groove when rainwater is flowed down from heat insulating strip.
Preferably,
The quantity of first drainage hole 15, second drainage hole 33 and the third drainage hole 25 is identical, and described
The quantity of one drainage hole 28, second drainage hole 28 and the apopore 29 is identical, the quantity of first drainage hole 15 with
The quantitative proportion of first drainage hole 28 is 2:1.
Preferably,
It further include the anti-skid plate 4 set on 29 outside of apopore.
Preferably,
The section of the anti-skid plate 4 is of an L-shaped structure, and the anti-skid plate includes arc panel and vertical plate, the arc
One end of plate is connect with the upper side position of the apopore 29, and the other end is connect with the vertical plate, and the vertical plate is parallel to
The second baffle 21.
In the embodiments of the present invention, the lateral surface of panel outside lower rail room is arranged in apopore, what is do not blocked
In the case of, positive pressure easily formed here, so that the ponding in the window can not be discharged.In order to solve this problem, in water outlet
Protective baffle plate is set on the outside of hole, radix saposhnikoviae and dust-proof effect can be played, can effectively be prevented while guaranteeing its drainage performance
Only dust and rainwater are entered in window by apopore from the external world.
Preferably,
It further include the deflector 5 set on 14 bottom of the first cavity.
Preferably,
The section of the deflector 5 is slope structure, and the left side of the deflector leans with the first baffle 11,
Right side and the bottom of first drainage hole 18 lean.
In said structure design, by the way that deflector 5 is arranged in 14 bottom of the first cavity, enable to rainwater as early as possible from oblique
Slope structure is fallen, and is discharged to the first drainage hole 18 from the first cavity 14.
Preferably,
It is equipped with water check valve in first drainage hole 15, second drainage hole 33 and the third drainage hole 25, only
Allow rainwater to outdoor discharge, rainwater can be stopped to pour into interior.
Preferably,
It is equipped with filter screen above the water check valve, can prevent sundries from entering inside forms from drainage hole and result in blockage.
Preferably,
The upper surface of panel 2 is coated with hydrophobic coating outside the upper surface of the lower rail indoor panel 1 and the lower rail room.
Compared with prior art, the utility model has the beneficial effects that by above-mentioned design, it is provided by the utility model
Upper layer is easy hair by the way that multiple rhones are arranged and drainage hole is arranged in heat insulating strip by a kind of aluminum window discharge structure
The rainwater catchment of ponding position is given birth into the cavity of lower layer, and outer outside window by apopore discharge, strengthens the rain of aluminum window
Water discharge capacity;By be arranged protective baffle plate, can while guaranteeing aluminum window drainage performance, effectively prevent dust with
Rainwater enters in window from the external world, and it is frequently regional to be more suitable for typhoon.
The embodiments of the present invention are given for the purpose of illustration and description, and are not exhaustively or to incite somebody to action
The utility model is limited to disclosed form.Many modifications and variations are aobvious and easy for the ordinary skill in the art
See.Embodiment was chosen and described in order to better illustrate the principle and practical application of the utility model, and makes this field
Those of ordinary skill it will be appreciated that the utility model to designing various embodiments suitable for specific applications with various modifications.
Claims (10)
1. a kind of aluminum window discharge structure, set on the lower rail of aluminum window, it is characterised in that: including lower rail indoor panel and under
It is connected between panel by heat insulating strip bridge cut-off outside panel outside rail room, the lower rail indoor panel and the lower rail room;
The lower rail indoor panel includes first baffle, the first rhone, the first guide rail mounting surface and the first cavity;Described first
The height of baffle is greater than the height of the first guide rail mounting surface;The bottom interval of first rhone is provided with multiple
First rhone is connected by one drainage hole, multiple first drainage holes with first cavity;First cavity
Right side wall be equipped with the first trapezoidal mounting groove and the second trapezoidal mounting groove, interval is set below the right side wall of the first cavity of Yu Suoshu
It is equipped with multiple first drainage holes;
Panel includes second baffle, the second rhone, the second guide rail mounting surface and the second cavity outside the lower rail room;Described second
The height of baffle is identical as the height of the first baffle;It is provided under multiple thirds in the bottom interval of second rhone
Second rhone is connected by water hole, multiple third drainage holes with second cavity;A left side for second cavity
Side wall is equipped with the trapezoidal mounting groove of third and the 4th trapezoidal mounting groove;It is arranged at intervals with below the left side wall of second cavity more
A second drainage hole, right side wall lower section are arranged at intervals with multiple apopores;First drainage hole, second drainage hole and institute
It states and is connected between apopore;
The heat insulating strip includes c-type heat insulating strip and I type heat insulating strip, and the c-type heat insulating strip is respectively engaged with the described first trapezoidal peace
On tankage and the trapezoidal mounting groove of the third, the I type heat insulating strip is respectively engaged with the described second trapezoidal mounting groove and described
On four trapezoidal mounting grooves;Multiple second drainage holes are arranged at intervals on the c-type heat insulating strip;Second drainage hole, described
It is interconnected between one drainage hole and second drainage hole.
2. aluminum window discharge structure according to claim 1, which is characterized in that
Between the c-type heat insulating strip and the first trapezoidal mounting groove, the c-type heat insulating strip and the trapezoidal mounting groove of the third it
Between, between the I type heat insulating strip and the second trapezoidal mounting groove, the I type heat insulating strip and the 4th trapezoidal mounting groove it
Between be filled with silicone sealant.
3. aluminum window discharge structure according to claim 1, which is characterized in that
The quantity of first drainage hole, second drainage hole and the third drainage hole is identical, first drainage hole, institute
The quantity for stating the second drainage hole and the apopore is identical, the quantity of the quantity of first drainage hole and first drainage hole
Ratio is 2:1.
4. aluminum window discharge structure according to claim 1, which is characterized in that
It further include the anti-skid plate on the outside of the apopore.
5. aluminum window discharge structure according to claim 4, which is characterized in that
The section of the anti-skid plate is of an L-shaped structure, and the anti-skid plate includes arc panel and vertical plate, and the one of the arc panel
End is connect with the upper side position of the apopore, and the other end is connect with the vertical plate, and the vertical plate is parallel to described second
Baffle.
6. aluminum window discharge structure according to claim 1, which is characterized in that
It further include the deflector set on first cavity bottom.
7. aluminum window discharge structure according to claim 6, which is characterized in that
The section of the deflector is slope structure, and the left side of the deflector leans with the first baffle, right side and
The bottom of first drainage hole leans.
8. aluminum window discharge structure according to claim 1, which is characterized in that
Water check valve is equipped in first drainage hole, second drainage hole and the third drainage hole.
9. aluminum window discharge structure according to claim 8, which is characterized in that
Filter screen is equipped with above the water check valve.
10. aluminum window discharge structure as claimed in any of claims 1 to 9, which is characterized in that
The upper surface of panel is coated with hydrophobic coating outside the upper surface of the lower rail indoor panel and the lower rail room.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821285890.5U CN209244481U (en) | 2018-08-09 | 2018-08-09 | A kind of aluminum window discharge structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821285890.5U CN209244481U (en) | 2018-08-09 | 2018-08-09 | A kind of aluminum window discharge structure |
Publications (1)
Publication Number | Publication Date |
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CN209244481U true CN209244481U (en) | 2019-08-13 |
Family
ID=67516057
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821285890.5U Active CN209244481U (en) | 2018-08-09 | 2018-08-09 | A kind of aluminum window discharge structure |
Country Status (1)
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CN (1) | CN209244481U (en) |
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2018
- 2018-08-09 CN CN201821285890.5U patent/CN209244481U/en active Active
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