High-air-tightness energy-saving environment-friendly aluminum alloy sliding window
Technical Field
The utility model relates to a building door and window field, in particular to energy-concerving and environment-protective aluminum alloy austral window, sliding sash of high gas tightness.
Background
Aluminum alloy windows are classified according to opening modes, and window types which are popular and practical in the market at present are mainly divided into two modes, namely casement windows (inward casement and outward casement) and sliding windows. The sliding window has the advantages of simplicity, attractive appearance, wide visual field, high lighting rate, flexible use, safety, reliability and the like, and is widely used. The sliding window has long service life, is opened in one plane, occupies less space, is convenient to install a screen window and the like. At present, the popular sliding window with good air tightness in the market is generally developed towards the direction of saving cost, but the problems of air tightness and water resistance of the sliding window are not solved; therefore, the problem of poor air tightness of the sliding window in the prior art generally exists.
SUMMERY OF THE UTILITY MODEL
In view of the above, there is a need to provide an energy-saving and environment-friendly aluminum alloy sliding window with high air tightness.
In order to achieve the above purpose, the utility model adopts the technical proposal that:
a high-air-tightness energy-saving environment-friendly aluminum alloy sliding window comprises a window frame and a sliding window sash, wherein the sliding window sash is positioned in the window frame, the window frame comprises an upper window rail, a lower window rail and side seals, and two sides of the upper window rail and the lower window rail are respectively connected through the side seals; the sliding window sash comprises an outer sliding window sash and an inner sliding window sash; the two inner side walls of the upper window rail and the lower window rail are both provided with an inserting strip groove, and a sealing wool top is arranged in the inserting strip groove; the sealing wool tops are arranged on the side wall of the left frame of the outer side push-pull window sash facing one side of the inner side push-pull window sash along the length direction of the side wall, and the sealing wool tops are also arranged on the side wall of the right frame of the inner side push-pull window sash facing one side of the outer side push-pull window sash along the length direction of the side wall.
Further, the inner rail of the window head rail is higher than the outer rail.
Further, the inner rail of the window lower rail is lower than the outer rail.
Further, the inner surface of the side edge seal is covered with a sealant layer.
The utility model discloses following beneficial effect has:
the utility model discloses an energy-concerving and environment-protective aluminum alloy austral window, sliding sash of high gas tightness through setting up sealed wool tops in the position of difference, under mutually supporting, can let this austral window, sliding sash have very high gas tightness when closing. The sliding window is simple in structure, strong in practicability and suitable for popularization in the field.
Drawings
FIG. 1 is a schematic view of a high-airtightness energy-saving environment-friendly aluminum alloy sliding window of the utility model;
FIG. 2 is a top cross sectional view of the high air tightness energy-saving environment-friendly aluminum alloy sliding window of the utility model;
FIG. 3 is an enlarged view of a portion of FIG. 2;
FIG. 4 is a left side sectional view of the high air tightness energy-saving environment-friendly aluminum alloy sliding window of the utility model;
fig. 5 is an enlarged view of fig. 4.
Description of the main elements
In the figure: the window comprises an upper window rail 11, a lower window rail 12, a side edge seal 13, an outer side sliding window sash 21, an inner side sliding window sash 22, an inserting strip groove 3, a sealing wool top 4 and a sealing glue layer 5.
The following detailed description of the invention will be further described in conjunction with the above-identified drawings.
Detailed Description
Referring to fig. 1-5, in a preferred embodiment of the present invention, a high-airtightness energy-saving environment-friendly aluminum alloy sliding window comprises a window frame and a sliding window sash, wherein the sliding window sash is located in the window frame, the window frame comprises an upper window rail 11, a lower window rail 12 and a side edge seal 13, and two sides of the upper window rail 11 and the lower window rail 12 are respectively connected through the side edge seal 13; the sliding window sashes comprise outer sliding window sashes 21 and inner sliding window sashes 22; the two inner side walls of the upper window rail 11 and the lower window rail 12 are both provided with an inserting strip groove 3, and a sealing wool top 4 is arranged in the inserting strip groove 3; the left frame of the outer side push-pull window sash 21 is provided with a sealing wool top 4 along the length direction of the side wall of the inner side push-pull window sash 22, and the right frame of the inner side push-pull window sash 22 is also provided with a sealing wool top 4 along the length direction of the side wall of the outer side push-pull window sash 21.
In this embodiment, it is preferable that the inner rail of the upper window rail 11 is higher than the outer rail, and the inner rail of the lower window rail 12 is lower than the outer rail; the inner surface of the side edge seal 13 is covered with a sealant layer 5.
The working principle is as follows: when the sliding window is closed, the right frame of the outer side sliding window sash 21 is attached to the side edge seal 13 on the right side, the left frame of the inner side sliding window sash 22 is attached to the side edge seal 13 on the left side, at the moment, two sealing wool tops 4 vertically arranged on the outer side sliding window sash 21 and the inner side sliding window sash 22 are attached to form a sealing state, and in addition, the sealing wool tops 4 positioned in the four inserting groove 3 respectively have a sealing effect with the outer side sliding window sash 21 and the inner side sliding window sash 22, so that the sliding window can have high tightness; when the window is closed, the outer side push-pull window sash 21 and the inner side push-pull window sash 22 both need to move to corresponding positions, so that the length of the inserting bar groove 3 only needs to be slightly longer than the width of the outer side push-pull window sash 21 or the inner side push-pull window sash 22; meanwhile, the side edge seal 13 only needs to be provided with a sealing adhesive layer 5 with a half area to be attached to the outer side push-pull window sash 21 or the inner side push-pull window sash 22, so that the material is saved.
The above description is for the detailed description of the preferred possible embodiments of the present invention, but the embodiments are not intended to limit the scope of the present invention, and all equivalent changes or modifications accomplished under the technical spirit suggested by the present invention should fall within the scope of the present invention.