CN223707465U - An improved sliding top-hung window - Google Patents

Abstract

The utility model discloses an improved translational top-hung window which comprises an outer frame assembly, a second window frame assembly, a first window frame assembly, a screen window sash frame assembly and a telescopic swing mechanism, wherein the inner part of the outer frame assembly is divided into a first installation area and a second installation area from top to bottom, the first window frame assembly and the screen window sash frame assembly are located in the first installation area, the first window frame assembly is movably installed in the first installation area through the telescopic swing mechanism, the first window frame assembly and the screen window sash frame assembly are tightly attached and connected, the screen window sash frame assembly is located on the outer side of the first window frame assembly, the second window frame assembly is located in the second installation area, and the second window frame assembly and the first window frame assembly are used for sealing the outer frame assembly. The utility model provides an improved translational suspended window, which solves the problems that sealing is not available between a window sash and a screen sash at present, cold wind easily enters a room through the window sash in winter, the indoor temperature is reduced, and the use feeling of a user is affected.

Description

Improved translational upper-hung window

Technical Field

The utility model relates to the technical field of doors and windows, in particular to an improved translational top-hung window.

Background

The existing window sashes generally have the functions of inward opening and downward suspension, and have the effects of ventilation and rain prevention. When the existing window sashes are opened, a large space is occupied, so that the existing technology has a drifting window combining the inward opening, the downward suspension and the push-pull, the lower part of the drifting window is connected with the guide rail of the window frame through the connecting arm, and the large space is not occupied when the window sashes are opened.

In order to prevent the window sashes from being ventilated, the screen window sashes are additionally arranged on the outer sides of the window sashes, and gaps are reserved between the window sashes and the screen window sashes in order to prevent mutual interference when the window sashes and the screen window sashes move, so that cold wind easily enters the room through the window sashes in winter, the indoor temperature is reduced, and the use experience of a user is affected.

Disclosure of utility model

The utility model aims to provide an improved translational suspended window, which solves the problems that sealing is not available between a window sash and a screen sash at present, cold wind easily enters a room through the window sash in winter, the indoor temperature is reduced, and the use feeling of a user is affected.

To achieve the purpose, the utility model adopts the following technical scheme:

An improved translational top-hung window comprises an outer frame assembly, a second window frame assembly, a first window frame assembly, a screen window frame assembly and a telescopic swing mechanism;

The inside of the outer frame assembly is divided into a first installation area and a second installation area from top to bottom;

The screen window comprises a screen window frame assembly, a telescopic swing mechanism and a first window frame assembly, wherein the screen window frame assembly and the screen window frame assembly are positioned in a first installation area, the first window frame assembly is movably installed in the first installation area through the telescopic swing mechanism, the first window frame assembly is tightly attached to the screen window frame assembly, and the screen window frame assembly is positioned on the outer side of the first window frame assembly;

The second window frame assembly is located in the second mounting area;

The second window frame assembly and the first window frame assembly are used for sealing the outer frame assembly;

the telescopic swing mechanism comprises a translation assembly, a translation swing assembly and a control assembly;

The translation assembly and the fixed end of the translation swing assembly are fixedly arranged in the first installation area, the first telescopic assembly and the second telescopic assembly are respectively and fixedly arranged on the two opposite sides of the outer part of the first window frame assembly, one end of the first telescopic assembly, which is far away from the first window frame assembly, is hinged with the translation end of the translation assembly, and one end of the second telescopic assembly, which is far away from the first window frame assembly, is fixedly connected with the translation swing end of the translation swing assembly;

The control assembly is arranged on the first window frame assembly and used for opening or closing the expansion of the second expansion assembly, so that the first expansion assembly can expand or contract, the second expansion assembly cannot expand or the first expansion assembly and the second expansion assembly can synchronously expand or contract;

When the first telescopic component can be telescopic and the second telescopic component cannot be telescopic, the first window frame component can swing relative to the frame surface of the outer frame component through the translational swing component and the translational component, so that the first window frame component is in an inward-tilting state;

when the first telescopic component and the second telescopic component can synchronously telescopic, the first window frame component can translate towards the direction perpendicular to the frame surface of the outer frame component through the translation swinging component and the translation component, so that the first window frame component moves to the outside of the outer frame component, and the first window frame component moving to the outside of the outer frame component can translate along the direction parallel to the frame surface of the outer frame component through the translation swinging component and the translation component, so that the first window frame component is in a translation state.

Further, the translational swing assembly includes a bracket and a slider;

The support fixed mounting in the bottom of first installation region, the second flexible subassembly keep away from the one end of first window frame subassembly with the top of slider links to each other, the bottom of slider is located in the support, the bottom of support is protruding to be equipped with the guide block, the bottom of slider be equipped with guide block matched with guiding portion, the side cross section of guide block and guiding portion is the arc, guiding portion can for the guide block swing.

Further, the outer frame assembly comprises a first frame, a second frame, a first middle stile and a second middle stile;

The second frame is arranged on the inner side of the first frame, the first mullion is positioned in the first frame, and the first mullion is arranged in the first frame through the screen fan frame component and the second window frame component;

the second middle stile is arranged on the inner side of the first middle stile, and a first adhesive tape is arranged between the second frame and the first frame and between the first middle stile and the second middle stile;

The translation component and the translation swinging component are respectively arranged on the inner sides of the second frame and the second middle stile.

Further, the screen window frame assembly comprises a screen window, a fourth frame, a buckle strip, a second adhesive tape and a third adhesive tape;

The fourth frame is arranged between the first frame and the first middle stile, the screen window sash is in pressure connection with the outer side of the fourth frame through a buckling strip, a second adhesive tape is arranged between the buckling strip and the screen window sash, and a third adhesive tape is arranged on one side, far away from the screen window sash, of the fourth frame.

Further, the first window frame assembly includes a fifth frame, a sixth frame, a seventh frame, and a first glass;

The first glass is installed between the sixth frame and the seventh frame, the sixth frame is installed on the outer side of the fifth frame, the outer side of the sixth frame is propped against the third adhesive tape, and the seventh frame is installed inside the fifth frame.

Further, fourth adhesive tapes are respectively installed between the sixth frame and the first glass, and fifth adhesive tapes are installed between the sixth frame and the fifth frame.

Further, a sixth adhesive tape is installed on one side of the fifth frame, and one end, away from the fifth frame, of the sixth adhesive tape is attached to the side wall of the second frame.

Further, two third rims are included, two of the third rims are located in the first installation area, and two of the third rims are located between the first window frame assembly and the screen window sash frame assembly.

Further, an elastic bulge is arranged at the end part of the third frame and is propped against the fifth frame.

Further, the second window frame assembly includes an eighth bezel, a second glass, a seventh adhesive strip, and an eighth adhesive strip;

The eighth frame is arranged between the second mullion and the second frame, the second glass is arranged between the eighth frame and the first mullion and between the eighth frame and the first frame, the seventh adhesive tape is arranged between the second glass and the eighth frame, and the eighth adhesive tape is arranged between the second glass and the first mullion and between the second glass and the first frame.

The technical scheme provided by the utility model can comprise the following beneficial effects:

Through the mode of closely laminating between the first window frame subassembly of setting and the screen window frame subassembly and be connected, can seal the clearance between first window frame subassembly and the screen window frame subassembly, prevent the convection current of air, reduce indoor and outdoor heat exchange efficiency, reach the leakproofness that improves the translation and hang the window and keep warm thermal-insulated effect.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the construction of the frame assembly, first sash assembly and screen sash frame assembly of the present utility model;

FIG. 3 is a schematic view of the structure of the outer frame assembly and the second window frame assembly of the present utility model;

FIG. 4 is a schematic view of the structure of the first sash assembly of the present utility model in an inverted state;

FIG. 5 is a schematic view of the structure of the first sash assembly of the present utility model in a translated state;

Fig. 6 is an enlarged view of area a of fig. 4 in accordance with the present utility model.

The frame comprises a frame component 1, a frame component 11, a first frame, a frame component 12, a second frame, a frame component 13, a third frame, a frame 131, an elastic bulge, a frame component 14, a first adhesive tape, a frame 15, a middle stiffener 16, a middle stiffener second, a frame component 2, a frame component second, a frame component eighth, a frame 22, a frame component second, a frame 23, a frame adhesive tape seventh, a frame 24, a frame adhesive tape eighth, a frame component first, a frame 31, a frame fifth, a frame 32, a frame sixth, a frame 33, a frame seventh, a frame 34, a frame fourth, a frame 35, a frame adhesive tape fifth, a frame 36, a frame sixth, a frame 37, a frame glass first, a frame 4, a first telescopic component, a frame component 5, a frame component of a screen, a frame 51, a screen fan, a frame 52, a frame fourth, a frame 53, a buckle bar 54, a frame second adhesive tape, a frame 55, a frame third adhesive tape, a frame component fourth, a frame component translational component, a frame component 7, a translational swinging component, a frame 71, a bracket 72, a guide block 73, a slider 74, a guide part 8 and a second telescopic component.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

The technical scheme provides an improved translational top-hung window which comprises an outer frame component 1, a second window frame component 2, a first window frame component 3, a screen window sash frame component 5 and a telescopic swing mechanism;

The inside of the outer frame assembly 1 is divided into a first installation area and a second installation area from top to bottom;

The first window frame component 3 and the screen window frame component 5 are positioned in the first installation area, the first window frame component 3 is movably installed in the first installation area through the telescopic swing mechanism, the first window frame component 3 is tightly attached to the screen window frame component 5, and the screen window frame component 5 is positioned on the outer side of the first window frame component 3;

the second window frame assembly 2 is located in the second installation area;

The second window frame assembly 2 and the first window frame assembly 3 are used for plugging the outer frame assembly 1;

the telescopic swing mechanism comprises a translation assembly 6, a translation swing assembly 7 and a control assembly;

The fixed ends of the translation assembly 6 and the translation swing assembly 7 are fixedly arranged in the first installation area, the first telescopic assembly 4 and the second telescopic assembly 8 are fixedly arranged on two opposite sides of the outer part of the first window frame assembly 3 respectively, one end, away from the first window frame assembly 3, of the first telescopic assembly 4 is hinged with the translation end of the translation assembly 6, and one end, away from the first window frame assembly 3, of the second telescopic assembly 8 is fixedly connected with the translation swing end of the translation swing assembly 7;

The control assembly is mounted on the first window frame assembly 3, and is used for opening or closing the expansion and contraction of the second expansion and contraction assembly 8, so that the first expansion and contraction assembly 4 can expand and contract, the second expansion and contraction assembly 8 cannot expand and contract, or the first expansion and contraction assembly 4 and the second expansion and contraction assembly 8 can synchronously expand and contract;

When the first telescopic component 4 can be telescopic and the second telescopic component 8 cannot be telescopic, the first window frame component 3 can swing relative to the frame surface of the outer frame component 1 through the translation swinging component 7 and the translation component 6, so that the first window frame component 3 is in an inverted state;

When the first telescopic assembly 4 and the second telescopic assembly 8 can be synchronously telescopic, the first window frame assembly 3 can translate along the direction perpendicular to the frame surface of the outer frame assembly 1 through the translation swinging assembly 7 and the translation assembly 6, so that the first window frame assembly 3 moves to the outside of the outer frame assembly 1, and the first window frame assembly 3 moving to the outside of the outer frame assembly 1 can translate along the direction parallel to the frame surface of the outer frame assembly 1 through the translation swinging assembly 7 and the translation assembly 6, so that the first window frame assembly 3 is in a translation state.

As shown in fig. 1-6, the mode of closely laminating and connecting between the first window frame component 3 and the screen window frame component 5 that this scheme was through setting up can seal the clearance between first window frame component 3 and the screen window frame component 5, prevents the convection current of air, reduces indoor and outdoor heat exchange efficiency, reaches the effect that improves the leakproofness and the thermal insulation of translation upper suspension window.

When the control component closes the expansion and contraction of the second expansion and contraction component 8, a user can drive the first window frame component 3 to drive the second expansion and contraction component 8 to rotate around the translational swing component 7, at the moment, the first expansion and contraction component 4 performs expansion and contraction movement and rotates relative to the translational component 6, at the moment, a small angle is formed between the first window frame component 3 and the outer frame component 1 to realize ventilation and lighting, when the control component opens the expansion and contraction of the second expansion and contraction component 8, when the user moves the first window frame component 3, the first expansion and contraction component 4 and the second expansion and contraction component 8 of the first window frame component 3 synchronously expand and contract, so that the first window frame component 3 moves to the outside of the outer frame component 1, and then the translational movement of the first window frame component 3 can be controlled by means of the translational component 6 and the translational swing component 7.

It should be noted that, the translation assembly 6, the first telescopic assembly 4 and the second telescopic assembly 8 are all of a conventional structure, and will not be described in detail herein.

Further illustratively, the translational swing assembly 7 includes a bracket 71 and a slider 73;

The support 71 is fixedly installed at the bottom of the first installation area, one end, away from the first window frame assembly 3, of the second telescopic assembly 8 is connected with the top of the sliding block 73, the bottom of the sliding block 73 is located in the support 71, a guide block 72 is convexly arranged at the bottom end of the support 71, a guide portion 74 matched with the guide block 72 is arranged at the bottom of the sliding block 73, the side sections of the guide block 72 and the guide portion 74 are arc-shaped, and the guide portion 74 can swing relative to the guide block 72.

The sliding block 73 can slide along the guiding block 72 and can rotate around the guiding block 72 by means of the matching mode of the guiding block 72 and the guiding part 74 with arc-shaped side sections, so that the translational swing assembly 7 drives the first window frame assembly 3 to perform translational and swing motions.

Further illustratively, the outer frame assembly 1 includes a first frame 11, a second frame 12, a first middle stile 15, and a second middle stile 16;

The second frame 12 is mounted on the inner side of the first frame 11, the first mullion 15 is positioned in the first frame 11, and the first mullion 15 is mounted in the first frame 11 through the screen window frame assembly 5 and the second window frame assembly 2;

The second middle stile 16 is arranged on the inner side of the first middle stile 15, and a first adhesive tape 14 is arranged between the second frame 12 and the first frame 11 and between the first middle stile 15 and the second middle stile 16;

the translation assembly 6 and the translation swing assembly 7 are respectively installed on the inner sides of the second frame 12 and the second middle stile 16.

The inner part of the outer frame assembly 1 can be divided into two spaces by the aid of the first middle stile 15 and the second middle stile 16 through the outer frame assembly 1 formed by the first frame 11, the second frame 12, the first middle stile 15 and the second middle stile 16, wherein one space is used for installing the first window frame assembly 3 and the screen window frame assembly 5, and the other space is used for installing the second window frame assembly 2, and two outer frame assemblies 1 are not needed.

Further, the stability and the sealing property of the connection between the first frame 11 and the second frame 12 can be improved by the first adhesive tape 14.

Further illustratively, the screen frame assembly 5 includes a screen 51, a fourth frame 52, a snap bar 53, a second adhesive strip 54, and a third adhesive strip 55;

The fourth frame 52 is installed between the first frame 11 and the first middle stile 15, the yarn fan 51 is in pressure connection with the outer side of the fourth frame 52 through a buckling strip 53, a second adhesive tape 54 is installed between the buckling strip 53 and the yarn fan 51, and a third adhesive tape 55 is installed on one side, far away from the yarn fan 51, of the fourth frame 52.

The mode of installing in first frame 11 and first mullion 15 through fourth frame 52 can make things convenient for the dismouting between screen window frame subassembly 5 and the frame subassembly 1 to the equipment of the window that hangs up of being convenient for need change the screen window, only need separate buckle strip 53 and fourth frame 52, alright remove the fixed to screen window 51, can increase the stability of being connected between buckle strip 53 and the screen window 51 through the third adhesive tape 55 that sets up, thereby fix the lateral wall at fourth frame 52 with the screen window is stable.

Further illustratively, the first window frame assembly 3 includes a fifth frame 31, a sixth frame 32, a seventh frame 33, and a first glass 37;

The first glass 37 is mounted between the sixth frame 32 and the seventh frame 33, the sixth frame 32 is mounted on the outer side of the fifth frame 31, the outer side of the sixth frame 32 abuts against the third adhesive tape 55, and the seventh frame 33 is mounted inside the fifth frame 31.

When the first window frame assembly 3 is closed, the sixth frame 32 is tightly attached to the third adhesive tape 55, so that the outside air is prevented from entering the room through the gap between the sixth frame 32 and the fourth frame 52, and the sealing performance of the device is improved.

Further, a fourth adhesive tape 34 is installed between the sixth frame 32 and the seventh frame 33 and the first glass 37, and a fifth adhesive tape 35 is installed between the sixth frame 32 and the fifth frame 31.

Through the arrangement of the fourth adhesive tape 34 and the fifth adhesive tape 35, the first glass 37 can be installed by adopting a glue pressing process, the first glass 37 can be installed directly indoors, the installation on one side outdoors is not needed, and the safety of the installation of the upper suspended window is improved.

Further, a sixth adhesive tape 36 is installed on one side of the fifth frame 31, and an end of the sixth adhesive tape 36 away from the fifth frame 31 is attached to the side wall of the second frame 12.

Through the sixth adhesive tape 36 that sets up, can be when first window frame subassembly 3 is closed, shutoff fifth frame 31 and the gap between the second frame 12 to avoid outside air to enter into indoor, further improve the sealing performance of this top suspension window.

Further, two third rims 13 are included, two third rims 13 are located in the first installation area, and two third rims 13 are located between the first window frame assembly 3 and the screen frame assembly 5.

The two third frames 13 are used for connecting the first frame 11 and the second frame 12, and the first middle stile 15 and the second middle stile 16 respectively, so that the stability of the internal structure of the upper suspended window can be improved.

Further, an elastic protrusion 131 is disposed at an end of the third frame 13, and the elastic protrusion 131 abuts against the fifth frame 31.

Through the elastic bulge 131 that sets up, can be when first window frame assembly 3 closes, shutoff fifth frame 31 and the gap between the third frame 13 to avoid outside air to enter into indoor, further improve the sealing performance of this upper suspension window.

Further illustratively, the second window frame assembly 2 includes an eighth jamb 21, a second glass 22, a seventh adhesive strip 23, and an eighth adhesive strip 24;

The eighth frame 21 is installed between the second mullion 16 and the second frame 12, the second glass 22 is installed between the eighth frame 21 and the first mullion 15 and the first frame 11, the seventh adhesive tape 23 is installed between the second glass 22 and the eighth frame 21, and the eighth adhesive tape 24 is installed between the second glass 22 and the first mullion 15 and between the second glass 22 and the first frame 11.

Through the arrangement of the eighth frame 21, the seventh adhesive tape 23 and the eighth adhesive tape 24, the second glass 22 can be installed by adopting a glue pressing process, the installation of the second glass 22 can be directly completed indoors, the installation on one side outdoors is not needed, and the installation safety of the upper hung window is improved.

It should be noted that, in the closed state of the up-hung window, the first glass 37 and the second glass 22 are parallel to each other, when the first window frame assembly 3 is in the inverted state, and the first window frame assembly 3 swings relative to the outer frame assembly 1, the first window frame assembly 3 drives the first glass 37 to swing, at this time, an included angle is formed between the first glass 37 and the second glass 22, and when the first window frame assembly 3 is in the translational state, the first window frame assembly 3 moves towards the outside of the outer frame assembly 1 to increase the distance between the first glass 37 and the second glass 22, and then the first window frame assembly 3 can be translated, and in this process, the first glass 37 and the second glass 22 are always kept parallel.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present utility model unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. 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 discussion thereof is necessary in subsequent figures.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the application described herein may be implemented in sequences other than those illustrated or otherwise described herein.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. An improved translational top-hung window is characterized by comprising an outer frame assembly, a second window frame assembly, a first window frame assembly, a screen window sash frame assembly and a telescopic swing mechanism;

The inside of the outer frame assembly is divided into a first installation area and a second installation area from top to bottom;

The screen window comprises a screen window frame assembly, a telescopic swing mechanism and a first window frame assembly, wherein the screen window frame assembly and the screen window frame assembly are positioned in a first installation area, the first window frame assembly is movably installed in the first installation area through the telescopic swing mechanism, the first window frame assembly is tightly attached to the screen window frame assembly, and the screen window frame assembly is positioned on the outer side of the first window frame assembly;

The second window frame assembly is located in the second mounting area;

The second window frame assembly and the first window frame assembly are used for sealing the outer frame assembly;

the telescopic swing mechanism comprises a translation assembly, a translation swing assembly and a control assembly;

The translation assembly and the fixed end of the translation swing assembly are fixedly arranged in the first installation area, a first telescopic assembly and a second telescopic assembly are fixedly arranged on two opposite sides of the outer part of the first window frame assembly respectively, one end of the first telescopic assembly, which is far away from the first window frame assembly, is hinged with the translation end of the translation assembly, and one end of the second telescopic assembly, which is far away from the first window frame assembly, is fixedly connected with the translation swing end of the translation swing assembly;

The control assembly is arranged on the first window frame assembly and used for opening or closing the expansion of the second expansion assembly, so that the first expansion assembly can expand or contract, the second expansion assembly cannot expand or the first expansion assembly and the second expansion assembly can synchronously expand or contract;

When the first telescopic component can be telescopic and the second telescopic component cannot be telescopic, the first window frame component can swing relative to the frame surface of the outer frame component through the translational swing component and the translational component, so that the first window frame component is in an inward-tilting state;

when the first telescopic component and the second telescopic component can synchronously telescopic, the first window frame component can translate towards the direction perpendicular to the frame surface of the outer frame component through the translation swinging component and the translation component, so that the first window frame component moves to the outside of the outer frame component, and the first window frame component moving to the outside of the outer frame component can translate along the direction parallel to the frame surface of the outer frame component through the translation swinging component and the translation component, so that the first window frame component is in a translation state.

2. The improved translating, upwardly suspended window of claim 1, wherein the translating, swinging assembly comprises a bracket and a slider;

The support fixed mounting in the bottom of first installation region, the second flexible subassembly keep away from the one end of first window frame subassembly with the top of slider links to each other, the bottom of slider is located in the support, the bottom of support is protruding to be equipped with the guide block, the bottom of slider be equipped with guide block matched with guiding portion, the side cross section of guide block and guiding portion is the arc, guiding portion can for the guide block swing.

3. The improved translating, top-hung window according to claim 1, wherein the outer frame assembly comprises a first frame, a second frame, a first mullion, and a second mullion;

The second frame is arranged on the inner side of the first frame, the first mullion is positioned in the first frame, and the first mullion is arranged in the first frame through the screen fan frame component and the second window frame component;

the second middle stile is arranged on the inner side of the first middle stile, and a first adhesive tape is arranged between the second frame and the first frame and between the first middle stile and the second middle stile;

The translation component and the translation swinging component are respectively arranged on the inner sides of the second frame and the second middle stile.

4. The improved translating, top-hung window according to claim 3, wherein the screen frame assembly comprises a screen, a fourth bezel, a snap bar, a second adhesive strip, and a third adhesive strip;

The fourth frame is arranged between the first frame and the first middle stile, the screen window sash is in pressure connection with the outer side of the fourth frame through a buckling strip, a second adhesive tape is arranged between the buckling strip and the screen window sash, and a third adhesive tape is arranged on one side, far away from the screen window sash, of the fourth frame.

5. The improved translating, top-hung window according to claim 4, wherein the first window frame assembly comprises a fifth frame, a sixth frame, a seventh frame, and a first glass;

The first glass is installed between the sixth frame and the seventh frame, the sixth frame is installed on the outer side of the fifth frame, the outer side of the sixth frame is propped against the third adhesive tape, and the seventh frame is installed inside the fifth frame.

6. The improved translating and up-hung window according to claim 5, wherein a fourth adhesive strip is installed between the sixth frame and the seventh frame and the first glass, and a fifth adhesive strip is installed between the sixth frame and the fifth frame.

7. The improved translational suspended window of claim 5, where a sixth adhesive tape is installed on one side of the fifth frame, and one end of the sixth adhesive tape far away from the fifth frame is attached to the side wall of the second frame.

8. An improved translating, top hung window according to claim 5 further comprising two third rims, both third rims being located in the first mounting area and both third rims being located between the first window frame assembly and the screen frame assembly.

9. The improved translating and suspended window of claim 8, wherein the end of the third frame is provided with an elastic protrusion, and the elastic protrusion abuts against the fifth frame.

10. An improved translating, top-hung window according to claim 3, wherein the second window frame assembly comprises an eighth jamb, a second glass, a seventh adhesive strip, and an eighth adhesive strip;

The eighth frame is arranged between the second mullion and the second frame, the second glass is arranged between the eighth frame and the first mullion and between the eighth frame and the first frame, the seventh adhesive tape is arranged between the second glass and the eighth frame, and the eighth adhesive tape is arranged between the second glass and the first mullion and between the second glass and the first frame.