CN119041803A - Panorama austral window, sliding sash seal structure and panorama window - Google Patents

Abstract

The present invention discloses a panoramic sliding window sealing structure and a panoramic window in the field of window technology, comprising: an upward slide, a downward slide and a window sash. The window sash can slide left and right along a first frame groove and a second frame groove in a sliding opening and closing area to achieve a sliding opening and closing action. The front seal seals the upper and lower ends of the front side of the window sash respectively to separate the panoramic window from the outdoor environment. The rear seal can respectively press against the upper and lower ends of the rear side of the window sash to prevent the window sash from swinging and reduce the friction between the window sash and the upward slide and downward slide to separate the panoramic window from the indoor environment. The panoramic sliding window sealing structure and the panoramic window of the present invention are provided with a waterproof sealing structure according to the window sash structure and characteristics of the panoramic sliding window to ensure a waterproof and windproof sealing effect.

Description

Panorama austral window, sliding sash seal structure and panorama window

Technical Field

The invention relates to the technical field of windows, in particular to a panoramic sliding window sealing structure and a panoramic window.

Background

Common sliding doors and windows are usually either sliding track type or roll-over type. Sliding doors and windows with sliding rails can be opened by moving and overlapping door and window wings, and only half of the doors and windows can be opened when the sliding doors and windows are opened, so that panoramic opening of the whole door and window space can not be realized. The turnover door and window needs to fix one side of the door and window on the window frame, so that the whole door and window area needs to be provided with a frame structure, and the visual space of the door and window is divided into a plurality of parts, so that the visual effect is influenced.

In the prior art, the panoramic sliding window can be turned and folded at a specific position by arranging the window sash into a push-pull structure, so that the panoramic opening of the window is realized, and the push-pull window can have a larger and wider visual field and can be flexibly closed or opened. However, for the panoramic sliding window, the window sashes are arranged on the same track, the sealing structures between the window sashes and the window frame are different from those of the common sliding window, and the sealing performance requirement is further improved.

Disclosure of Invention

The invention aims to provide a panoramic sliding window sealing structure, which solves one or more technical problems in the prior art and at least provides a beneficial choice or creation condition.

The technical scheme adopted for solving the technical problems is as follows:

a panoramic sliding window sealing structure comprises an upper slide, a lower slide and a window sash;

the upper slide and the lower slide are arranged at intervals up and down, a push-pull opening and closing area is formed between the upper slide and the lower slide, a first frame groove extending leftwards and rightwards is arranged on the lower side of the upper slide, and a second frame groove extending leftwards and rightwards is arranged on the upper side of the lower slide;

The number of the window sashes is multiple, the window sashes are arranged in the sliding opening and closing area, and the upper end and the lower end of the window sashes are respectively arranged in the first frame groove and the second frame groove;

The front sides of the first frame groove and the second frame groove are respectively provided with a front seal, one end of the front seal, which faces the window sash, is provided with a plurality of first sealing parts which are arranged up and down, and the plurality of first sealing parts extend along the left-right direction and are in butt joint with the front side of the window sash;

The rear sides of the first frame groove and the second frame groove are respectively provided with a rear seal, and the front end of the rear seal is provided with a second sealing part which is abutted with the rear side of the window sash;

The window sash comprises a fan frame and a fan body, the fan frame is arranged on the outer side of the fan body in a surrounding mode, two first sealing grooves are formed in the left end and the right end of the fan frame, the two first sealing grooves at the same end are arranged at intervals in a front-back mode and are respectively arranged at the front edge and the rear edge of the fan frame, and first sealing strips are arranged in the first sealing grooves.

The panoramic sliding window sealing structure provided by the invention has the beneficial effects that the window sashes can slide left and right along the first frame groove and the second frame groove in the sliding opening and closing area, so that sliding opening and closing actions are realized. The front seals of the first frame groove and the second frame groove respectively seal the upper end and the lower end of the front side of the window sash, so that the panoramic window is separated from the outdoor environment. The rear seals of the first frame groove and the second frame groove can respectively support the upper end and the lower end of the rear side of the window sash tightly, so that the window sash is prevented from swinging, friction between the window sash and the upper sliding and the lower sliding is reduced, and the separation of the panoramic window and the indoor environment is realized. The window sash is always abutted with the front seal strip in the process of left and right pushing and pulling. The first sealing parts of the front seal can form a plurality of seals on the front side of the window sash, so that the waterproof and windproof sealing effect is ensured. When a plurality of window sashes are propped against each other tightly, two first sealing grooves and first sealing strips in the two sealing grooves are arranged in pairs between the adjacent window sashes to form a double-layer sealing structure, so that separation can be formed between the window sashes and indoor environments and outdoor environments respectively when the window sashes are closed, and the sound insulation and water resistance performance is improved.

According to the technical scheme, sealing clamping grooves are formed in the left side and the right side of the window sash, the sealing clamping grooves are formed between the two first sealing grooves, one clamping strip is arranged in one of the two opposite sealing clamping grooves, one side of the clamping strip is embedded in the sealing clamping groove, and a second sealing strip is arranged on the other side of the clamping strip.

As a further improvement of the technical scheme, one side of the clamping strip embedded in the sealing clamping groove is provided with a shock pad, and the shock pad is arranged between the clamping strip and the sealing clamping groove in an interference manner.

The invention also provides a panoramic window, which comprises an upper slide, a lower slide and a window sash in the sealing structure of the panoramic sliding window, and also comprises two side frames extending up and down, wherein the two side frames are respectively arranged at the left end and the right end of the panoramic window and form the sliding and opening area together with the upper slide and the lower slide;

the side frame is provided with a side groove towards one side of the push-pull opening and closing area, and both sides of the side groove are provided with side seals.

The panoramic window provided by the invention has the beneficial effects that the sliding guide and the bearing of the window sashes at the first frame groove and the second frame groove are provided, and meanwhile, the window sashes can be sealed and isolated from the indoor environment and the outdoor environment through the front seal and the rear seal. When the window sashes are sequentially abutted and arranged in the push-pull opening and closing area, edges of the window sashes arranged at the left end or the right end can be embedded in the side grooves. And sealing is realized through the side seals, so that the panoramic window is separated from indoor and outdoor environments.

As a further improvement of the above technical solution, the panorama window further includes a middle frame extending up and down, the middle frame is disposed at a left end and/or a right end of the front side of the push-pull opening and closing area, a first side seal is disposed at a rear side of the middle frame, and a second side seal aligned with the first side seal is disposed at the left end and/or the right end of the window sash.

As a further improvement of the technical scheme, a micro ventilation area is arranged between the middle frame and one of the side frames, a micro ventilation opening is arranged at the lower part of the micro ventilation area, and a micro ventilation window is arranged in the micro ventilation area in an adjustable mode along the up-down direction.

As a further improvement of the technical scheme, the rear side of the lower slide is fixedly provided with a storage platform, the upper end of the storage platform is provided with a storage plane extending left and right, and the lower side of the storage platform is provided with a guide rail extending left and right.

As a further improvement of the technical scheme, a bottom frame is arranged below the lower slide, a glass curtain wall is arranged between the bottom frame and the lower slide, and the upper end and the lower end of the glass curtain wall are respectively connected with the lower slide and the bottom frame in a sealing manner.

Drawings

The invention is further described below with reference to the drawings and examples;

FIG. 1 is a front view of one embodiment of a panoramic window provided by the present invention;

FIG. 2 is a side cross-sectional view of one embodiment of a panoramic window provided by the present invention;

FIG. 3 is a side cross-sectional view of one embodiment of a panoramic window provided by the present invention;

FIG. 4 is a top-down cross-sectional view of one embodiment of a panoramic window provided by the present invention;

FIG. 5 is a top-down cross-sectional view of one embodiment of a panoramic window provided by the present invention;

FIG. 6 is an enlarged partial view of area A of FIG. 3;

FIG. 7 is an enlarged partial view of region B of FIG. 4;

FIG. 8 is an enlarged partial view of region C of FIG. 5;

fig. 9 is a partial enlarged view of the region D in fig. 5.

In the figure, 10, a window frame, 20, a window sash;

100. Upper slide, 110, first frame slot, 111, front baffle, 120, rear baffle, 200, lower slide, 210, second frame slot, 220, drainage cavity, 300, side frame, 310, side slot, 410, front seal, 411, first seal, 412, cavity, 413, scraping strip, 420, rear seal, 430, side seal, 500, middle frame, 510, first side seal, 520, mute side seal, 530, waterproof side seal, 600, micro ventilation area, 610, fixed fan, 620, micro ventilation opening, 630, micro ventilation window, 640, ventilation track, 650, mosquito proof gauze, 710, object placement platform, 711, object placement plane, 712, guide rail, 720, bottom frame, 730, glass curtain wall, 800, fan frame, 810, first seal slot, 811, first seal strip, 820, sealing clamping slot, 821, clamping strip, 822, second seal strip, shock pad, 830, limiting strip, 831, second side seal, 900, fan body.

Detailed Description

Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present invention, but not to limit the scope of the present invention.

In the description of the present invention, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present invention and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, if there is a word description such as "a plurality" or the like, the meaning of a plurality is one or more, and the meaning of a plurality is two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number.

In the description of the present invention, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present invention can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 9, the panorama window of the present invention is according to the following embodiments:

A panorama window includes a window frame 10 and a window sash 20.

The window frame 10 includes an upper slider 100, a lower slider 200, and two side frames 300.

The upper slide 100 and the lower slide 200 are arranged at an upper-lower interval, and the upper slide 100 and the lower slide 200 extend along the left-right direction. The two side frames 300 are respectively disposed at the left and right ends of the panorama window. The upper ends of the two side frames 300 are respectively and fixedly connected with the left and right ends of the upper slide 100, and the lower ends of the two side frames 300 are respectively and fixedly connected with the left and right ends of the lower slide 200. The upper slide 100, the lower slide 200 and the two side frames 300 enclose a push-pull opening/closing area.

The lower side of the upper slide 100 is provided with a first frame groove 110 extending left and right, and the upper side of the lower slide 200 is provided with a second frame groove 210 extending left and right.

The number of the window sashes 20 is plural, and the plurality of window sashes 20 are arranged in the sliding opening/closing area along the left-right direction and are slidingly connected with the window frame 10 along the left-right direction. The upper and lower ends of the window sash 20 are respectively disposed in the first frame groove 110 and the second frame groove 210.

Front seals 410 are disposed on the front sides of the first and second frame slots 110 and 210. The front seal 410 has a plurality of first sealing portions 411 arranged up and down toward one end of the window sash 20. The plurality of first sealing parts 411 each extend in the left-right direction and abut against the front side of the window sash 20.

The rear sides of the first frame groove 110 and the second frame groove 210 are respectively provided with a rear seal 420. The front end of the rear seal 420 has a second seal portion abutting against the rear side of the window sash 20. A side groove 310 is formed on one side of the side frame 300 facing the push-pull opening/closing area, and side seals 430 are respectively arranged on the front side and the rear side of the side groove 310.

In actual use, the window sash 20 can slide left and right along the first frame groove 110 and the second frame groove 210 in the sliding opening and closing area, so as to realize sliding opening and closing actions.

The front seals 410 of the first and second frame slots 110 and 210 respectively seal the upper and lower ends of the front side of the window sash 20, so as to separate the panorama window from the outdoor environment. The rear seals 420 of the first and second frame slots 110 and 210 can respectively tightly support the upper and lower ends of the rear side of the window sash 20, thereby avoiding the window sash 20 from swinging and reducing the friction between the window sash 20 and the upper and lower slides 100 and 200, and realizing the separation of the panoramic window from the indoor environment.

The window sash 20 is always abutted against the front seal 410 during the left-right pushing and pulling process. The plurality of first sealing parts 411 of the front seal 410 can form a multi-seal on the front side of the window sash 20, thereby ensuring a waterproof and windproof sealing effect. When the plurality of window sashes 20 are sequentially abutted and arranged in the sliding opening/closing area, the edges of the window sashes 20 arranged at the left end or the right end can be embedded in the side grooves 310, and sealing is realized through the side seals 430, so that the panoramic window is separated from indoor and outdoor environments.

In this embodiment, the front seal 410 has two first sealing portions 411 extending in the left-right direction and disposed vertically. Front and rear baffles 111 and 120 are respectively disposed on the front and rear sides of the first and second frame grooves 110 and 210. The rear side of the front baffle 111 is provided with two mounting grooves, and the two mounting grooves extend from left to right and are arranged up and down. The front side of the front seal 410 has two clamping portions, the two clamping portions are respectively clamped in the mounting groove, and the two first sealing portions 411 are respectively disposed at the rear side of the front seal 410.

The front seal 410 is made of an elastic material, and the first seal 811 is elastically abutted against the window sash 20. Referring to fig. 3 and 6, the cross sections of the two first sealing parts 411 are arc-shaped, and a cavity 412 is provided in the first sealing part 411. The first sealing portion 411 is elastically deformed by abutting against the window sash 20, and the first sealing portion 411 has a large contact area with the window sash 20 and good sealing performance.

In a further embodiment, the upper and lower ends of the rear side of the front seal 410 are further provided with scraping strips 413. The cross section of the wiper strip 413 extends rearward from the first seal 411. The wiper 413 can elastically abut against the front side of the window sash 20, thereby further enhancing the sealing and protecting performance.

In this embodiment, two mounting grooves are also provided on the front side of the tailgate 120. The rear side of the rear seal 420 is clamped to the two mounting grooves. The front side of the rear seal 420 is flat and is abutted against the rear side of the window sash 20. The rear seal 420 of this embodiment is an elongated vibration-proof felt.

The window sash 20 includes a sash frame 800 and a sash body 900. The fan 900 has a rectangular plate shape. The fan 900 is made of a light-transmitting material. The fan frame 800 is rectangular and is disposed around the edge of the fan body 900. In this embodiment, the fan 900 is glass, and the fan frame 800 is an aluminum alloy section product.

The left and right ends of the fan frame 800 are provided with first seal grooves 810, and first seal strips 811 are provided in the first seal grooves 810. In this embodiment, the first seal groove 810 extends along the outer edge of the fan frame 800 in a closed loop path. The first sealing strip 811 extends around the outer edge of the window frame 800 along the first sealing groove 810, and provides shock-absorbing protection and sealing performance to the left and right ends and the upper and lower ends of the window 20.

The first sealing strip 811 is elongated. On the cross section of the first sealing strip 811, an end of the first sealing strip 811 near the fan body 900 is embedded in the first sealing groove 810, and an end of the first sealing strip 811 facing away from the fan body 900 has a sealing surface parallel to the front-rear direction.

Since the number of the window sashes 20 in the panorama window is generally large, the plurality of window sashes 20 are abutted against each other in the left-right direction in the closed state of the panorama window. The sealing performance between adjacent window sashes 20 is required to be higher than that of a general window. In this embodiment, the first sealing grooves 810 are disposed at the front and rear ends of the outer edge of the fan frame 800 in pairs, and the first sealing strips 811 are embedded in the first sealing grooves 810 in a one-to-one correspondence. Referring to fig. 4 and 7, on the projection in the up-down direction, two first seal grooves 810 are disposed at intervals in the front-back direction, two first seal grooves 810 are respectively disposed at the front edge and the rear edge of the fan frame 800, and a first seal strip 811 is disposed in each of the first seal grooves 810. The two first sealing grooves 810 of two adjacent window sashes 20 correspond to each other, when two adjacent window sashes 20 are abutted tightly, the two abutted first sealing strips 811 can form two sealing protection at the front end and the rear end of the edge of the window sashes 20, and separate the window sashes 20 from the indoor environment and the outdoor environment, so that the sound insulation and water resistance are improved.

Taking a panoramic window with a right-side window opening structure as an example, in the window closing mode, the window sash 20 provided at the left end abuts against the side frame 300 to the left. The bottom of the side groove 310 is planar and perpendicular to the left-right direction. The first sealing strip 811 at the left end of the window sash 20 abuts against the bottom of the side groove 310, and is embedded between the side sealing strips 430 at both sides. The first seal 811 and the side seal 430 can realize sealing connection between the window sash 20 and the side groove 310, and ensure sealing performance in the window closing mode.

Sealing clamping grooves 820 are formed in the left side and the right side of the window sash 20. The seal clamping grooves 820 extend in the up-down direction and are disposed between the two first seal grooves 810.

In two adjacent window sashes 20, two sealing clamping grooves 820 at one end of the window sashes 20 close to each other are arranged in opposite directions, and a clamping strip 821 is arranged in one sealing clamping groove 820. The clip 821 is in the form of an elongated shape extending vertically. One side of the clamping strip 821 is embedded in the sealing clamping groove 820, and a second sealing strip 822 is arranged on the other side of the clamping strip 821.

Referring to fig. 4 and 7, the second sealing strip 822 protrudes outside the sealing slot 820. When the first sealing strips 811 of two adjacent window sashes 20 are abutted against each other, the second sealing strip 822 is embedded in the sealing clamping groove 820 of the other window sashes 20 and abutted against the bottom of the sealing clamping groove 820. By providing the second sealing strip 822, the sealing performance between two adjacent window sashes 20 is better, and the anti-collision performance between the adjacent window sashes 20 is improved.

In this embodiment, the end of the clip 821 close to the fan 900 is taken as the root, and the end of the clip 821 far from the fan 900 is taken as the end. The root is embedded in the sealing slot 820, and the end is exposed out of the sealing slot 820 and is arranged between the two first sealing strips 811 of the window sash 20. The second sealing strip 822 is embedded in the end of the clamping strip 821. The root of the clamping strip 821 is provided with a shock pad 823. The shock pad 823 is arranged at the root of the clamping strip 821 in an interference manner and is abutted against the bottom of the sealing clamping groove 820, so that the clamping strip 821 and the fan frame 800 can be abutted tightly in an interference manner, the clamping strip 821 is fixed, and meanwhile shaking or collision noise can be avoided.

In order to realize the opening and closing of the window sash 20, the panorama window needs to be provided with a turnover area, and when the window sash 20 is in the turnover area, the window sash can be separated from the first frame groove 110 and the second frame groove 210 to be turned and folded, so that the panorama opening effect of the push-pull opening and closing area is realized.

In this embodiment, the panorama window is configured as a right side fenestration structure. The right ends of the tailgates 120 of the first and second frame slots 110 and 210 are respectively provided with a notch. The width of the notch is not smaller than the width of the window sash 20. When the window sash 20 slides to the right along the first frame groove 110 and the second frame groove 210 to the notch, the window sash can be turned and folded backward, so as to realize a panoramic opening mode.

In this embodiment, the panorama window further comprises a middle frame 500. The middle frame 500 extends in the up-down direction and is fixedly coupled with the window frame 10. The middle frame 500 is disposed at the right end of the front side of the push-pull opening/closing area. The rear side of the middle frame 500 is provided with a first side seal 510. The left end of the first side seal 510 is connected to the middle frame 500, and the right end of the first side seal 510 has a sealing end surface disposed towards the right. The window sash 20 provided at the right end is provided with a second side seal 831. When the window sash 20 at the right end is turned to be flush with the first frame groove 110 and the second frame groove 210, the second side seal 831 is disposed at the right end of the window sash 20. The second side seal 831 has a sealing surface disposed to the left and aligned in the left-to-right direction with the first side seal 510. When the window sash 20 at the right end is abutted to the left, the left end of the second side seal 831 is abutted to the right end of the first side seal 510, so that the sealing between the middle frame 500 and the window sash 20 is realized. By the left-hand abutment of the right-hand window sash 20, all the remaining window sashes 20 can be restrained between the left-hand side frame 300 and the right-hand window sash 20, and a panoramic window closing mode can be realized.

Referring to fig. 4, 5 and 9, the window sash 20 provided at the right end is provided with a limit bar 830, and the limit bar 830 is fixedly provided at the right end of the frame 800 of the window sash 20. The second side seal 831 is disposed on the front side of the stop strip 830, and the right end of the second side seal 831 is connected with the stop strip 830. In a further embodiment, to ensure sealing performance between the window sash 20 and the middle frame 500, the middle frame 500 is further provided with a mute side seal 520 and a waterproof side seal 530.

The mute side seal 520 and the waterproof side seal 530 extend in the up-down direction. The waterproof side seal 530 and the mute side seal 520 are sequentially disposed on a side of the middle frame 500 facing away from the side frame 300. The waterproof side seal 530 and the mute side seal 520 are both abutted against the fan frame 800. In this embodiment, the waterproof side seal 530 is made of rubber, and the mute side seal 520 is made of a sound insulation felt or a damping sound insulation felt.

In a further embodiment, the panoramic window is configured with micro ventilation structures for increased flexibility. A micro ventilation area 600 is provided between the middle frame 500 and the side frame 300 provided on the right side. The upper portion of the micro ventilation area 600 is provided with a fixing fan 610, and the underside of the fixing fan 610 is provided with a micro ventilation opening 620. The micro ventilation area 600 is provided with micro ventilation windows 630 which are adjustable in the up-down direction.

Referring to fig. 3 and 5, the micro ventilation opening 620 is provided at the front side of the micro ventilation area 600, and the micro ventilation window 630 is provided at the rear side of the micro ventilation area 600. The left and right ends of the micro ventilation area 600 are respectively provided with ventilation tracks 640 extending up and down, and the left and right ends of the micro ventilation window 630 are respectively arranged in the two ventilation tracks 640. The sealing structure between the ventilation track 640 and the micro ventilation window 630 may refer to the sealing structure between the window sash 20 and the first frame slot 110 and the second frame slot 210, and the front seal 410 and the rear seal 420 that are in contact with the micro ventilation window 630 are respectively provided on the front and rear sides of the ventilation track 640.

The micro ventilation window 630 corresponds to the width of the micro ventilation opening 620, and the height dimension of the micro ventilation window 630 is set according to the height dimension of the micro ventilation opening 620. In this embodiment, the height dimension of the micro ventilation openings 620 and the micro ventilation windows 630 is half of the height dimension of the micro ventilation area 600, and the micro ventilation openings 620 can be completely opened when the micro ventilation windows 630 are moved up to the upper limit position. Further, the micro-ventilation opening 620 is provided with a mosquito-proof gauze 650.

The lower slide 200 of the present embodiment is provided with a drainage chamber 220. The drain chamber 220 is provided at the front side of the second frame groove 210. The lower end of the drainage cavity 220 is inclined at a front low and a rear high. A drain hole is communicated between the drain cavity 220 and the second frame groove 210, and a drain hole is provided on the front side of the lower slide 200 to communicate the drain cavity 220 with the outdoor environment.

In this embodiment, a storage platform 710 is fixedly disposed on the rear side of the lower slide 200, the upper end of the storage platform 710 has a storage plane 711 extending from left to right, and the lower side of the storage platform 710 has a guide rail 712 extending from left to right. The object placing platform 710 provides a bearing and supporting foundation, so that green plants or other objects can be placed conveniently, and a windowsill can be formed conveniently for leaning.

The position of the panoramic window can be flexibly set according to indoor layout. In this embodiment, the sliding down 200 of the panorama window is spaced from the ground. A bottom frame 720 is arranged below the lower slide 200, and a glass curtain wall 730 is arranged between the bottom frame 720 and the lower slide 200. In the panorama window mode, the glass curtain wall 730 and the lower slide 200 can form a fence, so that the indoor and outdoor spaces are prevented from being completely opened, and the safety is improved.

In addition, the invention also provides a panoramic sliding window sealing structure, which comprises the upper slide 100, the lower slide 200 and the window sashes 20. The embodiments of the sealing structure of the panoramic sliding window of the present invention may refer to the various examples of the panoramic window listed above, and will not be described herein.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present application have been shown and described, various changes, modifications, substitutions and alterations can be made by those skilled in the art without departing from the principles and spirit of the application, and such changes, modifications, equivalents and substitutions are intended to be included within the scope of the application as defined by the claims and their equivalents.

Claims (8)

1. The panoramic sliding window sealing structure is characterized by comprising an upper slide, a lower slide and a window sash;

the upper slide and the lower slide are arranged at intervals up and down, a push-pull opening and closing area is formed between the upper slide and the lower slide, a first frame groove extending leftwards and rightwards is arranged on the lower side of the upper slide, and a second frame groove extending leftwards and rightwards is arranged on the upper side of the lower slide;

The number of the window sashes is multiple, the window sashes are arranged in the sliding opening and closing area, and the upper end and the lower end of the window sashes are respectively arranged in the first frame groove and the second frame groove;

The front sides of the first frame groove and the second frame groove are respectively provided with a front seal, one end of the front seal, which faces the window sash, is provided with a plurality of first sealing parts which are arranged up and down, and the plurality of first sealing parts extend along the left-right direction and are in butt joint with the front side of the window sash;

The rear sides of the first frame groove and the second frame groove are respectively provided with a rear seal, and the front end of the rear seal is provided with a second sealing part which is abutted with the rear side of the window sash;

The window sash comprises a fan frame and a fan body, the fan frame is arranged on the outer side of the fan body in a surrounding mode, two first sealing grooves are formed in the left end and the right end of the fan frame, the two first sealing grooves at the same end are arranged at intervals in a front-back mode and are respectively arranged at the front edge and the rear edge of the fan frame, and first sealing strips are arranged in the first sealing grooves.

2. The panoramic sliding window sealing structure of claim 1, wherein sealing clamping grooves are formed in the left side and the right side of the window sash, the sealing clamping grooves are formed between the two first sealing grooves, one of the two opposite sealing clamping grooves is provided with a clamping strip, one side of the clamping strip is embedded in the sealing clamping groove, and the other side of the clamping strip is provided with a second sealing strip.

3. The panoramic sliding window sealing structure of claim 2, wherein a shock pad is arranged on one side of the clamping strip embedded in the sealing clamping groove, and the shock pad is arranged between the clamping strip and the sealing clamping groove in an interference manner.

4. The panoramic window is characterized by comprising an upper slide, a lower slide and a window sash in the panoramic sliding window sealing structure according to any one of claims 1 or 2, and further comprising two side frames extending up and down, wherein the two side frames are respectively arranged at the left end and the right end of the panoramic window and form the sliding opening and closing area together with the upper slide and the lower slide;

the side frame is provided with a side groove towards one side of the push-pull opening and closing area, and both sides of the side groove are provided with side seals.

5. The panorama window according to claim 4, wherein the panorama window further comprises a middle frame extending up and down, wherein the middle frame is provided at the left and/or right ends of the front side of the push-pull opening/closing area, the rear side of the middle frame is provided with a first side seal, and the window sash provided at the left and/or right ends is provided with a second side seal aligned with the first side seal.

6. The panorama window according to claim 5, wherein a micro ventilation area is provided between the middle frame and one of the side frames, a micro ventilation opening is provided at a lower portion of the micro ventilation area, and the micro ventilation area is provided with a micro ventilation window in an up-down direction.

7. The panoramic window of claim 4, wherein the rear side of the lower slide is fixedly provided with a storage platform, the upper end of the storage platform is provided with a storage plane extending leftwards and rightwards, and the lower side of the storage platform is provided with a guide rail extending leftwards and rightwards.

8. The panoramic window of claim 4, wherein a bottom frame is arranged below the lower slide, a glass curtain wall is arranged between the bottom frame and the lower slide, and the upper end and the lower end of the glass curtain wall are respectively connected with the lower slide and the bottom frame in a sealing manner.