CN222759691U - High leakproofness's interior window that sideslips - Google Patents

Abstract

The present application provides a highly sealed inward-tilted sliding window, which is applied to the technical field of doors and windows. The inward-tilted sliding window comprises an outer frame, and a glass window sash and a screen window sash arranged side by side in the outer frame along the X-axis direction, a first area for installing the glass window is formed between the glass window sash and the screen window sash, heat insulation adhesive strips are arranged on both sides of the glass window along the Y-axis direction, and a window sash adhesive strip is arranged on the side of the glass window sash close to the glass window along the X-axis direction; an intermediate adhesive strip is fixed between the outer frame and the glass window sash, the intermediate adhesive strip is in contact with the heat insulation adhesive strip to form a first sealing structure, and the window sash adhesive strip is in contact with the outer frame to form a second sealing structure. Through the two sealing structures, the sealing performance of the inward-tilted sliding window can be effectively improved, and the problem of insufficient sealing performance caused by the translational sliding of the glass window sash in the outer frame can be solved.

Description

High leakproofness's interior window that sideslips

Technical Field

The application relates to the technical field of doors and windows, in particular to an inner inverted side sliding window with high sealing performance.

Background

The aluminum alloy door and window has become one of the door and window materials commonly used in modern buildings due to the characteristics of light weight, high strength, corrosion resistance, easy processing and the like. In aluminum alloy door and window products, main opening forms comprise an inner casement window, an outer casement window and a sliding window, and each form has unique characteristics and application scenes. The casement window is generally provided with a good sealing strip, can provide excellent sealing performance, effectively isolates wind, rain and noise, keeps indoor environment stable, is relatively simple in design and structure compared with other types of doors and windows, is not only beneficial to production and installation, but also convenient for daily maintenance and repair, but when the casement window is opened, a window sash can be opened to one indoor side, and a certain indoor space can be occupied, and is a problem to be considered for a room with limited space. The outward casement window is characterized in that the window sash is outwards opened, and the outward casement window is similar to the inward casement window, has good sealing performance and can provide good heat insulation and sound insulation effects, but the structural design of the outward casement window is relatively complex, and more mechanical factors and safety measures are required to be considered so as to ensure the stability of the window sash during opening and closing. And because the window sashes are outwards opened, if the design is improper or the use is improper, potential safety hazards can exist, such as strong wind can cause the window sashes to fall off. The sliding window is opened and closed by sliding the window sashes left and right, the opening mode of the sliding window is simple, and a user can easily push the window sashes to realize ventilation and lighting. Because of the way the sliding window is opened, it does not occupy indoor space like a casement window, which is an advantage for rooms with limited space. The sliding window is generally inferior in sealing performance to the casement window because its sliding structure restricts the design of the sealing strip, and there may be penetration of air and noise. Therefore, a door and window which is simple in structure, does not occupy excessive indoor space and is good in sealing performance is lacking in the prior art.

In view of the above, there is a need in the art for improvements.

Disclosure of utility model

The application aims to provide an inverted side sliding window with high sealing performance, wherein a first sealing structure and a second sealing structure are formed by arranging a heat insulation adhesive tape, a window sash adhesive tape and a middle adhesive tape at key positions in the inverted side sliding window in a matching way, so that the sealing performance of the inverted side sliding window is improved.

In a first aspect, the application provides an inverted sliding window with high sealing performance, which has the following technical scheme:

The inward-tilting window comprises an outer frame, and a glass window sash and a gauze window sash which are arranged in the outer frame side by side along the X-axis direction, wherein the glass window sash is arranged near one side of the room and can horizontally slide in the outer frame and tilt inwards in the room direction,

A first area is formed between the glass window sash and the gauze window sash, the first area is used for installing a glass window, heat insulation rubber strips are arranged on two sides of the glass window along the Y-axis direction, and a window sash rubber strip is arranged on one side, close to the glass window, of the glass window sash along the X-axis direction;

an intermediate adhesive tape is fixed between the outer frame and the glass window sash;

the middle adhesive tape is in abutting connection with the heat insulation adhesive tape to form a first sealing structure, and the window sash adhesive tape is in abutting connection with the outer frame to form a second sealing structure.

The application provides an inner-tilting side sliding window with high sealing performance, which comprises an outer frame, and a glass window sash and a screen window sash which are arranged in the outer frame side by side along the X-axis direction, wherein the glass window sash is arranged near one side of an indoor space, and can slide in the outer frame in a translational manner and tilt inwards in the indoor space, so that the inner-tilting side sliding window has the advantages of space saving of the sliding window sash and good sealing performance of the inner-tilting window sash. A first area is formed between the glass window sash and the screen window sash and used for installing the glass window, the glass window is fixed on the glass window sash, heat insulation rubber strips are arranged on two sides of the glass window along the Y-axis direction so as to improve indoor heat insulation effect and sealing effect of the glass window sash, a window sash rubber strip is arranged on one side of the glass window sash, which is close to the glass window along the X-axis direction, so that heat insulation and sealing effect of the glass window sash are improved, an intermediate rubber strip is fixed between the outer frame and the glass window sash, the glass window sash is arranged at a correct position in a facilitated manner, the sealing performance of connection between the glass window sash and the outer frame is improved, the intermediate rubber strip is in abutting connection with the heat insulation rubber strip to form a first sealing structure, the window sash rubber strip is in abutting connection with the outer frame to form a second sealing structure, and sealing performance of the inner inverted window can be effectively improved through the two sealing structures, and the problem that the sealing performance of the glass window sash is insufficient due to translational sliding in the outer frame is solved.

Further, a glass outer adhesive tape is arranged on one side, close to the outside, of the glass window along the X-axis direction, and glass pressing wires with two ends respectively connected with the glass outer adhesive tape and the heat insulation adhesive tape, a seam allowance adhesive tape is arranged on one side, close to the glass window, of the gauze window sash, and the seam allowance adhesive tape is in abutting connection with the glass pressing wires to form a third sealing structure.

According to the high-tightness inner inverted side sliding window, the glass outer adhesive tape, the heat insulation adhesive tape and the glass pressing line are arranged on one side, close to the outside, of the glass window along the X-axis direction, of the glass window, so that the sealing performance of the glass window sash can be effectively improved, external air, moisture, dust and the like are prevented from entering a room, and the sealing, sound insulation, vibration reduction and other effects can be achieved by arranging the seam allowance adhesive tape on one side, close to the glass, of the gauze window sash, and rainwater, noise and the like penetrating through the gauze window sash cannot penetrate through the glass window sash. The tang adhesive tape is contradicted with the glass line ball and is connected, forms third seal structure, and third seal structure can cooperate with first seal structure, second seal structure, improves the sealing performance of interior side sliding window.

Further, the outer frame comprises outer frame outer sections and inner frame sections which are arranged at intervals along the X-axis direction, a heat insulation structure is arranged between the outer frame outer sections and the inner frame sections, and the heat insulation structure is arranged on two sides of the glass window sash along the Y-axis direction.

The application provides a high-tightness inner inverted side sliding window, which comprises an outer frame outer section bar and an inner frame section bar, wherein the outer frame outer section bar and the inner frame section bar are arranged at intervals along the X-axis direction, the outer frame outer section bar is arranged close to the outside of a room, and the inner frame section bar is arranged close to the inside of the room and is used for installing a gauze window sash and a glass window sash. The heat insulation structure is arranged between the outer frame outer section bar and the outer frame inner section bar and arranged on two sides of the glass window sash along the Y-axis direction, so that the exchange of indoor and outdoor temperatures is reduced, the indoor temperature is maintained, and the comfort level of the indoor environment is improved.

Further, the width dimension of the heat insulating structure in the X-axis direction is 39mm.

The width dimension of the heat insulation structure in the X-axis direction of the inner inverted side sliding window with high sealing performance is 39mm, and compared with the heat insulation structure in the prior art, the width dimension of the heat insulation structure is larger, so that a more remarkable heat insulation effect can be provided.

Further, the heat insulation structure is provided with two heat insulation strips extending towards the X-axis direction at intervals in the Y-axis direction, and two ends of the heat insulation strips are respectively connected with the outer frame to form a hollow heat insulation cavity.

Further, the outer frame outer section bar, the outer frame inner section bar, the glass window sashes and the gauze window sashes are formed with vertical first cavities in the Y-axis direction, and the heat insulation cavities and the heat insulation adhesive tapes are arranged in the first cavities at intervals along the Y-axis direction.

Further, pulley assemblies are arranged on two sides of the glass window sash in the Y-axis direction, and the pulley assemblies are connected with the outer frame.

Further, the gauze window sash does not protrude out of the edge of the outer frame outer section bar of the outer frame in the X-axis direction, and a second area is formed between the gauze window sash and the outer frame outer section bar, and the second area is used for installing gauze.

Further, the gauze is provided with a gauze adhesive tape at one side close to the outside of the room.

Further, the gauze rubber strip is provided with a gauze pressing line on one side close to the outside of the room, and the gauze pressing line is used for fixing the gauze.

The high-tightness inward-tilting sliding window has the beneficial effects that the inward-tilting sliding window comprises the outer frame, and the glass window sashes and the gauze window sashes which are arranged in the outer frame side by side along the X-axis direction, wherein the glass window sashes are arranged near one indoor side, and the glass window sashes can slide in the outer frame in a translational manner and tilt inwards in the indoor direction, so that the inward-tilting sliding window has the advantages of space saving of the sliding window sashes and good sealing performance of the inward-tilting window sashes. A first area is formed between the glass window sash and the screen window sash and used for installing the glass window, the glass window is fixed on the glass window sash, heat insulation rubber strips are arranged on two sides of the glass window along the Y-axis direction so as to improve indoor heat insulation effect and sealing effect of the glass window sash, a window sash rubber strip is arranged on one side of the glass window sash, which is close to the glass window along the X-axis direction, so that heat insulation and sealing effect of the glass window sash are improved, an intermediate rubber strip is fixed between the outer frame and the glass window sash, the glass window sash is arranged at a correct position in a facilitated manner, the sealing performance of connection between the glass window sash and the outer frame is improved, the intermediate rubber strip is in abutting connection with the heat insulation rubber strip to form a first sealing structure, the window sash rubber strip is in abutting connection with the outer frame to form a second sealing structure, and sealing performance of the inner inverted window can be effectively improved through the two sealing structures, and the problem that the sealing performance of the glass window sash is insufficient due to translational sliding in the outer frame is solved.

Drawings

Fig. 1 is a cross-sectional view of an inverted side sliding window provided by the present application.

Fig. 2 is another cross-sectional view of an inverted side sliding window provided by the present application.

Fig. 3 is a cross-sectional view of a first cavity provided by the present application.

Fig. 4 is a structural diagram of the inward-tilting sliding window according to the present application when the window is slid sideways.

Fig. 5 is a diagram showing a structure of the inward tilting window according to the present application.

In the figure, 1, a glass window sash; 2, gauze window sashes, 3, an outer frame, 4, a first area, 11, window sash adhesive tapes, 12, a glass window, 13, a heat insulation adhesive tape, 14, an intermediate adhesive tape, 15, a glass outer adhesive tape, 16, a glass pressing line, 21, gauze, 22, a seam allowance adhesive tape, 23, a second area, 24, a gauze adhesive tape, 25, gauze pressing lines, 31, an outer frame profile, 32, an inner frame profile, 33, a heat insulation strip, 34, a heat insulation cavity, 35, a first cavity, 5, a pulley, 6, a hinge, 7, a first sealing structure, 8, a second sealing structure and 9, a third sealing structure.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the application, as presented in the figures, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

At present, most of doors and windows on the market are sliding doors and windows, inner side-hung doors and windows or outer side-hung doors and windows, wherein the sliding doors and windows occupy small space but have poor sealing performance, while the inner side-hung doors and windows or outer side-hung doors and windows occupy large space when being opened and have certain safety risks, and in order to solve the problem, the application provides the inner side-hung sliding window with high sealing performance.

Referring to fig. 1 to 5, a high-tightness sliding window for sliding inwards comprises an outer frame 3, and a glass window sash 1 and a gauze window sash 2 arranged side by side in the X-axis direction in the outer frame 3, wherein the glass window sash 1 is arranged near one side of the room and can slide in translation in the outer frame 3 and fall inwards in the room direction,

A first area 4 is formed between the glass window sash 1 and the gauze window sash 2, the first area 4 is used for installing a glass window 12, and heat insulation rubber strips 13 are arranged on two sides of the glass window 12 along the Y-axis direction;

an intermediate adhesive tape 14 is fixed between the outer frame 3 and the glass window sash 1;

The middle adhesive tape 14 is in abutting connection with the heat insulation adhesive tape 13 to form a first sealing structure 7, and the window sash adhesive tape 11 is in abutting connection with the outer frame 3 to form a second sealing structure 8.

With specific reference to fig. 4 and 5, the inverted sliding window comprises an outer frame 3, the outer frame 3 is used for supporting and fixing a glass window sash 1 and a gauze window sash 2, the glass window sash 1 and the gauze window sash 2 are arranged side by side along the X-axis direction, the gauze window sash 2 is fixed in the outer frame 3, the glass window sash 1 is arranged on one side close to a room, and can horizontally slide along the outer frame 3, so that the glass window sash 1 can be horizontally opened for convenient ventilation. The glass window sash 1 can also realize the inward tilting function through hardware fixed on the outer frame 3. Through setting up the glass casement 1 that can translate inwards, combine the advantage of internal flat-open window and austral window, sliding sash, make door and window possess occupation space little simultaneously, and sealing performance's beneficial effect.

Wherein, be formed with first region 4 between glass casement 1 and the gauze casement 2, first region 4 is used for installing glass window 12, and glass window 12 is provided with thermal-insulated adhesive tape 13 along Y axle direction both sides, and thermal-insulated adhesive tape 13 is used for promoting indoor heat preservation effect and sealed effect. The glass window sash 1 is provided with the window sash adhesive tape 11 at one side close to the glass window 12 in the X-axis direction, and the window sash adhesive tape 11 is used for being connected with the glass window sash 1, so that the glass window 12 is conveniently fixed on the glass window sash 1, and the sealing performance of the glass window sash 1 is improved.

Wherein the middle adhesive tape 14 is used for assisting the glass window sash 1 to be installed at the correct position, so as to avoid interference with the installation of the gauze window sash 2. The middle adhesive tape 14 has certain elasticity, and can play a role in buffering when the door and window is opened. The middle adhesive tape 14 is in abutting connection with the heat insulation adhesive tape 13 to form a first sealing structure 7, so that gaps between the glass window 12 and the outer frame 3 are blocked, foreign matters such as external rainwater and dust are prevented from entering the gaps between the glass window 12 and the outer frame 3, and the sealing performance of the inverted side sliding window is improved. Wherein, casement adhesive tape 11 is contradicted with frame 3 and is connected, forms second seal structure 8, blocks up the gap between frame 3 and the glass casement 1, prevents debris such as external rainwater, dust and get into in the glass casement 1, cooperates with first seal structure 7, further improves the leakproofness of this interior side sliding window. This interior window that sideslips through first seal structure 7 and the cooperation of second seal structure 8, has realized good sealed effect, has solved among the prior art sliding door tightness low, and interior flat-open door and window and outer flat-open door and window structure complicacy, occupation space big problem have realized simple structure, have reduced the beneficial effect that indoor space occupies and sealing performance is good.

Further, a glass outer adhesive tape 15 is arranged on one side, close to the outdoor side, of the glass window 12 along the X-axis direction, and a glass pressing line 16 with two ends respectively connected with the glass outer adhesive tape 15 and the heat insulation adhesive tape 13, a seam allowance adhesive tape 22 is arranged on one side, close to the glass window 12, of the gauze window sash 2, and the seam allowance adhesive tape 22 is in abutting connection with the glass pressing line 16 to form a third sealing structure 9.

Wherein, glass window 12 is close to outdoor one side and is provided with outer adhesive tape 15 of glass and glass line ball 16, outer adhesive tape 15 of glass and glass window 12 contact for fixed glass window 12, reinforcing glass window 12's sealing performance and shock attenuation effect, glass line ball 16 is located outer adhesive tape 15 of glass and is close to outdoor one side, it is connected with gauze casement 2 along X axis direction one side, both ends are connected with outer adhesive tape 15 of glass and thermal insulation adhesive tape 13 respectively, spacing through gauze casement 2, glass line ball 16 can compress tightly glass window 12 to indoor one side, be favorable to glass window 12's fixed and improve glass window 12's leakproofness.

Wherein the gauze casement 2 is close to indoor one side and is provided with tang adhesive tape 22, tang adhesive tape 22 and glass line ball 16 contact, in fact, the gauze casement 2 passes through tang adhesive tape 22 restriction glass line ball 16's position promptly, make glass line ball 16 compress tightly glass window 12 simultaneously, the waterproof sealing part that glass line ball 16 and tang adhesive tape 22 were made for same rubber or silica gel material, consequently the two contradicts and connects, compare glass line ball 16 and gauze casement 2 lug connection, its sealing performance is better, and when this internal side slip window receives external force vibrations, provide good shock attenuation effect. The gap between the gauze window sash 2 and the glass window 12 is blocked by the third sealing structure 9 formed by abutting and connecting the seam allowance adhesive tape 22 and the glass pressing line 16, so that external rainwater is prevented from penetrating into the glass window 12 through the gauze window sash 2, and the sealing performance of the inverted sliding window is further improved.

Further, the outer frame 3 comprises an outer frame outer section bar 31 and an inner frame section bar 32 which are arranged at intervals along the X-axis direction, and a heat insulation structure is arranged between the outer frame outer section bar 31 and the inner frame section bar 32 and arranged on two sides of the glass window sash 1 along the Y-axis direction.

Wherein, frame outer section bar 31 and frame inner section bar 32 are used for fixed gauze casement 2 and glass casement 1 respectively, in order to guarantee the thermal insulation performance of this interior side sliding window, frame outer section bar 31 and frame inner section bar 32 set up at X axis direction interval, are provided with thermal insulation structure in the interval, and thermal insulation structure is not protruding in frame 3 in the Y axis direction, and all has the setting in glass casement 1 along Y axis direction both sides to guarantee the thermal insulation performance of this interior side sliding window.

Further, the width dimension of the heat insulating structure in the X-axis direction was 39mm.

The width dimension of the heat insulation structure in the X-axis direction is 39mm, and compared with the heat insulation structure in the prior art, the heat insulation structure has larger width dimension, and can provide more remarkable heat insulation effect.

Further, two heat insulating strips 33 extending in the X-axis direction are arranged at intervals in the Y-axis direction of the heat insulating structure, and two ends of each heat insulating strip 33 are respectively connected with the outer frame 3 to form a hollow heat insulating cavity 34.

Wherein, the two ends of the heat insulation strip 33 are respectively connected with the outer frame 3, and actually are respectively connected with the outer frame outer section 31 and the inner frame section 32. The heat insulation cavity 34 is formed by connecting the heat insulation strips 33 with the outer frame 3, so that the use of the heat insulation strips 33 can be reduced, and the manufacturing cost can be saved.

Further, the outer frame outer profile 31, the outer frame inner profile 32, the glass window sash 1 and the screen window sash 2 are formed with vertical first cavities 35 along the Y-axis direction, and the heat insulation cavities 34 and the heat insulation adhesive tapes 13 are arranged in the first cavities 35 at intervals along the Y-axis direction.

Referring to fig. 3, the outer frame outer profile 31, the inner frame inner profile 32, the glass window sash 1 and the gauze window sash 2 are formed with a vertical first cavity 35 in the Y-axis direction, the first cavity 35 includes a first area 4 for placing the glass window 12, and meanwhile, the structures such as the middle adhesive tape 14 and the heat insulation adhesive tape 13 disposed on two sides of the glass window 12 are disposed in the first cavity 35, so that the space utilization rate of the inverted sliding window is improved.

Wherein, thermal-insulated adhesive tape 13 and thermal-insulated chamber 34 set up in first cavity 35 along the Y axle, cooperate to form vertical insulation construction, can realize indoor heat preservation effect better.

Further, the glass window sash 1 is provided with pulley assemblies at both sides in the Y-axis direction, and the pulley assemblies are connected with the outer frame 3.

The glass window sash 1 is provided with pulley assemblies on two sides of the Y-axis direction, each pulley assembly at least comprises a pulley 5 connected with the outer frame inner section bar 32 and a hinge 6 connected with the glass window sash 1 and the outer frame inner section bar 32, the glass window sash 1 can horizontally slide along the outer frame inner section bar 32 through the pulley 5, and the glass window sash 1 can tilt indoors for a certain angle under the action of human force through the hinge 6, so that the sideslip and inner tilting functions of the inner tilting side sliding window are realized.

Further, the screen window 2 does not protrude from the edge of the outer frame profile 31 of the outer frame 3 in the X-axis direction, and forms a second region 23 with the outer frame profile 31, and the second region 23 is used for installing the screen 21.

Wherein the gauze window sash 2 does not protrude from the edge of the outer frame outer profile 31 of the outer frame 3 in the X-axis direction, and preferably the gauze window sash 2 is arranged flush with the outer edge of the outer frame 3, thereby providing a more neat and beautiful appearance. When the gauze window sash 2 is level with the outer edge of the outer frame 3, the gap between the window sash and the outer frame 3 can be better sealed, and the mosquito and dust preventing effect is improved. The second area 23 is formed between the gauze window sash 2 and the outer frame outer profile 31, and the design of the second area 23 allows the gauze 21 to be installed between the gauze window sash 2 and the outer frame 3, so that the installation and the disassembly of the gauze 21 are more convenient, and the embedded design is convenient for cleaning and maintaining the gauze 21, because the gauze 21 is not easily damaged by external factors.

Further, the gauze 21 is provided with a gauze strip 24 on a side close to the outside.

Wherein, gauze adhesive tape 24 can closely laminate on frame section bar 31, reduces air and insect and gets into the room through the gap between gauze casement 2 and the gauze 21, improves sealed effect to gauze adhesive tape 24 can also provide extra puigging, reduces the afferent of external noise.

Further, the gauze rubber strip 24 is provided with a gauze pressing line 25 on a side close to the outside of the room, and the gauze pressing line 25 is used for fixing the gauze 21.

The gauze pressing line 25 has the main function of fixing the gauze 21 on the gauze window sash 2, preventing the gauze 21 from moving or falling off under wind pressure or in the using process, and by pressing the gauze 21, the gauze pressing line 25 can ensure that no gap exists between the gauze 21 and the gauze window sash 2, so that the sealing performance of the window is improved, and insects, dust and rainwater are prevented from entering a room.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. An inner tilting sliding window with high sealing performance, which comprises an outer frame (3), and a glass window sash (1) and a gauze window sash (2) which are arranged in the outer frame (3) side by side along the X-axis direction, wherein the glass window sash (1) is arranged near one side of an indoor and can horizontally slide in the outer frame (3) and tilt inwards in the indoor direction,

A first area (4) is formed between the glass window sash (1) and the gauze window sash (2), the first area (4) is used for installing a glass window (12), heat insulation rubber strips (13) are arranged on two sides of the glass window (12) along the Y-axis direction, and a window sash rubber strip (11) is arranged on one side, close to the glass window (12), of the glass window sash (1) along the X-axis direction;

an intermediate adhesive tape (14) is fixed between the outer frame (3) and the glass window sash (1);

The middle adhesive tape (14) is in abutting connection with the heat insulation adhesive tape (13) to form a first sealing structure (7), and the window sash adhesive tape (11) is in abutting connection with the outer frame (3) to form a second sealing structure (8).

2. The high-tightness inverted-side sliding window according to claim 1 is characterized in that a glass outer adhesive tape (15) is arranged on one side, close to the outside, of the glass window (12) along the X-axis direction, and glass pressing wires (16) with two ends respectively connected with the glass outer adhesive tape (15) and the heat insulation adhesive tape (13), a seam allowance adhesive tape (22) is arranged on one side, close to the glass window (12), of the gauze window sash (2), and the seam allowance adhesive tape (22) is in abutting connection with the glass pressing wires (16) to form a third sealing structure (9).

3. The high-tightness inverted-side sliding window according to claim 1, wherein the outer frame (3) comprises an outer frame outer section bar (31) and an inner frame inner section bar (32) which are arranged at intervals along the X-axis direction, and a heat insulation structure is arranged between the outer frame outer section bar (31) and the inner frame inner section bar (32), and is arranged on two sides of the glass window sash (1) along the Y-axis direction.

4. A high tightness inverted side sliding window according to claim 3, wherein the width dimension of said heat insulating structure in the X-axis direction is 39mm.

5. The high-tightness inverted-side sliding window according to claim 4, wherein the heat insulation structure is provided with two heat insulation strips (33) extending towards the X-axis direction at intervals in the Y-axis direction, and two ends of the heat insulation strips (33) are respectively connected with the outer frame (3) to form a hollow heat insulation cavity (34).

6. The high-tightness inverted-side sliding window according to claim 5, wherein the outer frame outer profile (31), the outer frame inner profile (32), the glass window sash (1) and the gauze window sash (2) are formed with vertical first cavities (35) in the Y-axis direction, and the heat insulation cavities (34) and the heat insulation rubber strips (13) are arranged in the first cavities (35) at intervals in the Y-axis direction.

7. The high-tightness inverted side sliding window according to claim 1, wherein the glass window sash (1) is provided with pulley assemblies on both sides in the Y-axis direction, and the pulley assemblies are connected with the outer frame (3).

8. A sliding window with high tightness on the inside back side according to claim 1, characterized in that the screen window sash (2) does not protrude in the X-axis direction beyond the edge of the outer frame profile (31) of the outer frame (3) and forms a second zone (23) with the outer frame profile (31), said second zone (23) being intended for mounting a screen (21).

9. A high tightness inverted side sliding window according to claim 8, characterized in that the screen (21) is provided with a screen glue strip (24) on the side close to the outside.

10. The high-tightness inverted-side sliding window according to claim 9, wherein the gauze strip (24) is provided with gauze pressing lines (25) on a side close to the outside, and the gauze pressing lines (25) are used for fixing the gauze (21).