CN223374316U - Guardrail gauze mounting structure and panoramic door - Google Patents

Abstract

The utility model discloses a guardrail mesh installation structure and a panoramic door, belonging to the technical field of doors and windows. The fixed window sash is fixedly arranged on the installation frame; the movable window sash is movably arranged on the installation frame; the first side frame is arranged on the side of the installation frame away from the fixed window sash, the second side frame is arranged on the side of the fixed window sash away from the movable window sash, and the guardrail glass is provided on the side of the guardrail bottom frame facing the rewinding mesh top frame; the rewinding mesh top frame is provided with a receiving cavity for placing the rewinding mesh, and the rewinding mesh can be moved toward the guardrail bottom frame to abut against the top of the guardrail glass to cooperate with the fixed window sash to close the installation frame; the rewinding mesh can also be rolled up in the receiving cavity to open the top of the guardrail glass. The guardrail mesh installation structure disclosed by the utility model has the advantages of preventing mosquitoes from entering the room while realizing ventilation of the panoramic door, and can avoid the mesh affecting the field of view of the panoramic door.

Description

Guardrail gauze mounting structure and panoramic door

Technical Field

The utility model relates to the technical field of doors and windows, in particular to a guardrail gauze mounting structure and a panoramic door.

Background

The design scheme of the lower sealed balcony is a popular home decoration design scheme, and in a panoramic push-pull product, a piece of laminated glass is usually arranged on one side of an opening side to serve as a protective fence, so that the protective effect of safety pressing is achieved. The panoramic sliding door glass guardrail has a single structure, most of the panoramic sliding door glass guardrail adopts a glass panel and a base support as main structures, and along with the increase of the service life of products, the problem of part aging can be avoided, and certain potential safety hazards exist.

Through retrieving, chinese patent No. CN117988683B discloses a guardrail screen window integrated configuration of public flat-open window, and above-mentioned patent has realized that glass guardrail, fan window and window frame set up glass guardrail and screen window through setting up in the position of movable window fan.

The above patent has the disadvantage that although the screen can realize ventilation of the panorama door while preventing mosquitoes from entering the room, in use, the ventilation effect of the screen is limited as dust is accumulated on the screen, and in addition, the presence of the screen affects the field of view of the panorama door when the movable window sash moves to close the window frame.

Disclosure of utility model

The utility model aims to provide a guardrail gauze mounting structure and a panoramic door, which have the advantages of being capable of preventing mosquitoes from entering a room while realizing ventilation of the panoramic door, and being capable of avoiding gauze from affecting the visual field of the panoramic door.

In a first aspect, the present utility model provides a guardrail screen mounting structure comprising:

a mounting frame;

the fixed window sash is fixedly arranged on the mounting frame;

The movable window sashes can be movably arranged on the mounting frame;

The guardrail assembly comprises a first side frame, a second side frame, a guardrail bottom frame and a rollback yarn top frame, wherein the first side frame is arranged on one side, far away from a fixed window sash, of the mounting frame, the second side frame is arranged on one side, far away from a movable window sash, of the fixed window sash, opposite ends of the guardrail bottom frame are respectively connected with the bottoms of the first side frame and the second side frame, guardrail glass is arranged on one side, facing the rollback yarn top frame, of the guardrail bottom frame, opposite ends of the rollback yarn top frame are respectively connected with the tops of the first side frame and the second side frame, a containing cavity for placing rollback yarn net is arranged in the rollback yarn top frame, the rollback yarn net can move towards the guardrail bottom frame to be in butt joint with the tops of the guardrail glass so as to be matched with the fixed window sash to seal the mounting frame, and the rollback yarn net can also be rolled up in the containing cavity so as to open the upper side of the guardrail glass.

The utility model provides a guardrail screen mounting structure, which comprises a mounting frame, a fixed window sash, a movable window sash and a guardrail assembly, wherein the guardrail assembly comprises a first side frame, a second side frame, a guardrail bottom frame and a back-winding screen top frame, a containing cavity for placing the back-winding screen is formed in the back-winding screen top frame, the back-winding screen can move towards the guardrail bottom frame to be abutted against the top of guardrail glass so as to be matched with the fixed window sash to seal the mounting frame, and the back-winding screen can also be wound in the containing cavity so as to be opened above the guardrail glass. Through setting up the rollback gauze that can wind, can unwind the rollback gauze in order to prevent that the mosquito from getting into in the room when needs ventilation, can be with rollback gauze rolling when not needing ventilation, avoid the gauze to influence the field of vision of panorama door, prevent when having can realizing that panorama door ventilates that the mosquito gets into in the room to can avoid the gauze to influence the advantage in panorama door field of vision.

Further, one end of the rewinding gauze, which faces the guardrail glass, is provided with a rewinding handle, and the rewinding handle can drive the rewinding gauze to be close to or far away from the guardrail glass.

By adopting the technical scheme, the user can conveniently control the pulling out and the withdrawing of the rewinding gauze by arranging the rewinding handle at one end of the rewinding gauze. This design has improved the simple operation nature and the use experience of guardrail gauze, has realized better flexibility and reliability compared with traditional screen window design.

Further, a sealing wool top is arranged on one side, facing the guardrail glass, of the rollback handle, and the sealing wool top is used for closing a gap between the rollback handle and the guardrail glass.

By adopting the technical scheme, the sealing wool tops are arranged on one side, facing the guardrail glass, of the rollback handle, so that the problem of gaps between the rollback handle and the guardrail glass is effectively solved. The design improves the sealing performance of the whole guardrail screen mounting structure, prevents external substances such as dust, insects and the like from entering the room through the gap, and still keeps flexible and convenient in operation.

Further, still include first reel and second reel, first reel is located in the first side frame, first reel orientation second side frame one side is equipped with first guide rail groove, second reel is located in the second side frame, second reel orientation one side of first side frame is equipped with the second guide rail groove, the opposite ends of reel are movably located respectively first guide rail groove with in the second guide rail groove.

By adopting the technical scheme, the first winding yarn vertical frame, the second winding yarn vertical frame and the guide rail groove are additionally arranged, so that the winding yarn net is more stable in the moving process. Meanwhile, through the guide rail structure, the rewinding gauze can be kept in close contact with guardrail glass all the time in the unwinding and winding processes, so that the tightness is greatly improved, common offset and clamping conditions in the traditional gauze moving process are effectively prevented, and the whole system is more reliable and durable.

Further, first sealing rubber strips are respectively arranged on two opposite sides in the first side frame, the lower half parts of the two first sealing rubber strips are used for being abutted against the guardrail glass, the upper half parts of the two first sealing rubber strips are used for being abutted against the first winding reel mullion, second sealing rubber strips are respectively arranged on two opposite sides of the second side frame, the bottoms of the two second sealing rubber strips are used for being abutted against the guardrail glass, and the tops of the two second sealing rubber strips are used for being abutted against the second winding reel mullion.

By adopting the technical scheme, the first sealing rubber strip and the second sealing rubber strip are contacted with the guardrail glass and the rewinding yarn mullion to prevent air, dust and other external substances from entering through gaps between the side frames and the glass and the mullion, so that the sealing performance and the service life of the guardrail gauze installation structure are improved. The sealing structure not only improves the overall sealing effect, but also ensures the stability and safety of the installation structure.

Further, a handrail cover plate is arranged on one side, facing the rewinding yarn top frame, of the guardrail glass.

By adopting the technical scheme, the problem of scratch of a user caused by glass abrasion can be avoided by arranging the handrail cover plate on the guardrail glass, so that the use experience of the user is improved.

Further, the guardrail glass comprises a glass cushion block, and the glass cushion block is used for being abutted with the guardrail glass.

By adopting the technical scheme, the deformation and inclination problems of the guardrail glass caused by the action of external force or gravity are effectively solved by adding the glass cushion block. The glass cushion block provides an extra supporting point, so that the stability of the guardrail glass is enhanced, and the safety and reliability of the guardrail screen installation structure are obviously improved.

Further, the glass cushion block comprises a first glass cushion block, a second glass cushion block and a third glass cushion block, wherein the first glass cushion block is arranged in the first side frame, the second glass cushion block is arranged in the second side frame, and the third glass cushion block is arranged in the guardrail bottom frame.

By adopting the technical scheme, the problem of stability and firmness in the process of fixing guardrail glass is solved by arranging the glass cushion blocks at a plurality of key positions of the guardrail. The first glass cushion block and the second glass cushion block are respectively arranged in the left side frame and the right side frame, and the third glass cushion block is arranged in the guardrail bottom frame, so that the first glass cushion block, the second glass cushion block and the third glass cushion block are mutually matched, looseness or displacement between guardrail glass and a guardrail assembly is effectively avoided, and the overall stability and safety of the guardrail glass are improved.

Further, the first side frame is fixedly connected with the mounting frame through a first screw, the second side frame is fixedly connected with the fixed window sash through a second screw, and the guardrail bottom frame is fixedly connected with the mounting frame through a third screw.

In a second aspect, the utility model provides a panoramic door, comprising any one of the guardrail gauze mounting structures.

It can be seen from the above that the guardrail screen mounting structure provided by the utility model comprises a mounting frame, a fixed window sash, a movable window sash and a guardrail assembly, wherein the guardrail assembly comprises a first side frame, a second side frame, a guardrail bottom frame and a back-winding yarn top frame, a containing cavity for placing the back-winding screen is arranged in the back-winding yarn top frame, the back-winding screen can move towards the guardrail bottom frame to be abutted against the top of guardrail glass so as to be matched with the fixed window sash to seal the mounting frame, and the back-winding screen can also be wound in the containing cavity so as to be opened above the guardrail glass. Through setting up the rollback gauze that can wind, can unwind the rollback gauze in order to prevent that the mosquito from getting into in the room when needs ventilation, can be with rollback gauze rolling when not needing ventilation, avoid the gauze to influence the field of vision of panorama door, prevent when having can realizing that panorama door ventilates that the mosquito gets into in the room to can avoid the gauze to influence the advantage in panorama door field of vision.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the embodiments of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

Fig. 1 is a schematic vertical sectional view of a guardrail screen mounting structure according to the present utility model.

Fig. 2 is a schematic horizontal sectional view of a guardrail screen mounting structure according to the present utility model.

Fig. 3 is a schematic view of a horizontal cross-section of another height of a guardrail screen mounting structure according to the present utility model.

In the drawing, 100 parts of the installation frame, 200 parts of the fixed window sashes, 300 parts of the movable window sashes, 400 parts of the guardrail assembly, 410 parts of the first side frame, 411 parts of the first sealing rubber strip, 420 parts of the second side frame, 421 parts of the second sealing rubber strip, 430 parts of the guardrail bottom frame, 431 parts of the guardrail glass, 432 parts of the handrail cover plate, 433 parts of the third sealing rubber strip, 440 parts of the back-rolling yarn top frame, 441 parts of the back-rolling yarn net, 442 parts of the accommodating cavity, 443 parts of the back-rolling handle, 444 parts of the sealing wool tops, 510 parts of the first back-rolling yarn vertical frame, 511 parts of the first guide rail groove, 520 parts of the second back-rolling yarn vertical frame, 521 parts of the second guide rail groove, 600 parts of the glass cushion block, 610 parts of the first glass cushion block, 620 parts of the second glass cushion block, 630 parts of the third glass cushion block, 710 parts of the first screw, 720 parts of the second screw, 730 parts of the third screw.

Detailed Description

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

The following disclosure provides many different embodiments, or examples, for implementing different features of the utility model. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the utility model. Furthermore, the present utility model may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed.

With the development of modern architectural designs, panoramic sliding doors are increasingly popular in home wear. The design not only can provide an open visual field, but also can realize flexible connection of indoor and outdoor spaces. However, the conventional panoramic sliding door design still has some drawbacks in terms of safety and functionality. Particularly, in the closed balcony design, how to realize good ventilation and mosquito prevention functions while ensuring safety protection, and meanwhile, the visual field effect is not influenced, thus becoming a problem to be solved urgently.

The application provides a guardrail gauze mounting structure, which aims to solve the problems.

Referring to fig. 1 and 2, in particular, the barrier screen mounting structure includes a mounting frame 100, a fixed window sash 200, a movable window sash 300, and a barrier assembly 400. The guardrail assembly 400 comprises a first side frame 410, a second side frame 420, a guardrail bottom frame 430 and a rewinding yarn top frame 440, wherein the first side frame 410 is arranged on one side, far away from the fixed window sash 200, of the mounting frame 100, the second side frame 420 is arranged on one side, far away from the movable window sash 300, of the fixed window sash 200, opposite ends of the guardrail bottom frame 430 are respectively connected with bottoms of the first side frame 410 and the second side frame 420, guardrail glass 431 is arranged on one side, facing the rewinding yarn top frame 440, of the guardrail bottom frame 430, opposite ends of the rewinding yarn top frame 440 are respectively connected with tops of the first side frame 410 and the second side frame 420, a containing cavity 442 for placing the rewinding yarn 441 is arranged in the rewinding yarn top frame 440, the rewinding yarn 441 can move towards the guardrail bottom frame 430 to be abutted against the top of the guardrail glass 431 so as to be matched with the fixed window sash 200 to seal the mounting frame 100, and the rewinding yarn 441 can also be wound in the containing cavity 442 so as to be wound above the open guardrail glass 431.

As can be seen from the above, the guardrail screen mounting structure provided by the present utility model comprises a mounting frame 100, a fixed window sash 200, a movable window sash 300 and a guardrail assembly 400, wherein the guardrail assembly 400 comprises a first side frame 410, a second side frame 420, a guardrail bottom frame 430 and a back-winding yarn top frame 440, a containing cavity 442 for placing the back-winding yarn 441 is arranged in the back-winding yarn top frame 440, the back-winding yarn 441 can move towards the guardrail bottom frame 430 to be abutted against the top of the guardrail glass 431 so as to seal the mounting frame 100 in cooperation with the fixed window sash 200, and the back-winding yarn 441 can also be wound in the containing cavity 442 to open the upper side of the guardrail glass 431. Through setting up the rollback gauze 441 that can wrap up, can unwind rollback gauze 441 in order to prevent that the mosquito from getting into in the room when needs ventilation, can wrap up gauze rolling 441 when not needing ventilation, avoid the gauze to influence the field of vision of panorama door, prevent that the mosquito from getting into in the room when having can realizing panorama door ventilation to can avoid the gauze to influence the advantage in panorama door field of vision.

Referring to fig. 1, in one embodiment, the end of the backrush screen 441 facing the guardrail glass 431 is provided with a backrush handle 443, and the backrush handle 443 can drive the backrush screen 441 toward or away from the guardrail glass 431.

In particular, the rewind handle 443 may take a variety of forms, such as a bar handle, a ring handle, or other easily operable configurations. The rewind handle 443 may be made of different materials, such as metal, plastic, wood, etc., with the appropriate materials being selected according to the particular application requirements. In addition, the rollback handle 443 may also be provided with an anti-slip texture or a wrap rubber layer to increase grip comfort and operational stability.

By adopting the above technical scheme, the user can conveniently control the pulling out and the retracting of the rewinding screen 441 by arranging the rewinding handle 443 at one end of the rewinding screen 441. This design has improved the simple operation nature and the use experience of guardrail gauze, has realized better flexibility and reliability compared with traditional screen window design.

In one embodiment, the side of the rollback handle 443 facing the guardrail glass 431 is provided with a sealing wool 444, the sealing wool 444 being used to close the gap between the rollback handle 443 and the guardrail glass 431.

By adopting the technical scheme, the sealing wool top 444 is arranged on one side of the rollback handle 443, which faces the guardrail glass 431, so that the problem of a gap between the rollback handle 443 and the guardrail glass 431 is effectively solved. The design improves the sealing performance of the whole guardrail screen mounting structure, prevents external substances such as dust, insects and the like from entering the room through the gap, and still keeps flexible and convenient in operation.

In one embodiment, the side of the guardrail glass 431 facing the rollback top 440 is provided with a handrail cover 432.

Specifically, the armrest cover plate 432 may be fixed to the guardrail glass 431 by 3M glue.

By adopting the technical scheme, the problem of scratch of a user caused by glass abrasion can be avoided by arranging the handrail cover plate 432 on the guardrail glass 431, so that the use experience of the user is improved.

Referring to fig. 2, in one embodiment, the apparatus further includes a first winding reel 510 and a second winding reel 520, the first winding reel 510 is disposed in the first side frame 410, a first guide rail groove 511 is disposed on a side of the first winding reel 510 facing the second side frame 420, the second winding reel 520 is disposed in the second side frame 420, a second guide rail groove 521 is disposed on a side of the second winding reel 520 facing the first side frame 410, and opposite ends of the winding screen 441 are movably disposed in the first guide rail groove 511 and the second guide rail groove 521, respectively.

Specifically, the first rail groove 511 may be made of metal or plastic, so as to ensure wear resistance and long-term use stability. The first rewind reel 510 may be designed to be a removable structure that facilitates later maintenance and replacement. The second rail channel 521 and the second rewind reel 520 should also have the same attributes and functions to achieve a consistent result with the first rewind reel 510 for optimal use experience.

By adopting the technical scheme, the first winding yarn vertical frame 510, the second winding yarn vertical frame 520 and the guide rail groove design thereof are added, so that the winding yarn screen 441 is more stable in the moving process. Meanwhile, through the guide rail structure, the rewinding gauze 441 can be kept in close contact with the guardrail glass 431 all the time in the unwinding and winding processes, so that the tightness is greatly improved, common offset and clamping conditions in the traditional gauze moving process are effectively prevented, and the whole system is more reliable and durable.

In one embodiment, the opposite sides in the first side frame 410 are respectively provided with a first sealing adhesive tape 411, the lower half parts of the two first sealing adhesive tapes 411 are used for being abutted against the guardrail glass 431, the upper half parts of the two first sealing adhesive tapes 411 are used for being abutted against the first winding reel mullion 510, the opposite sides of the second side frame 420 are respectively provided with a second sealing adhesive tape 421, the bottoms of the two second sealing adhesive tapes 421 are used for being abutted against the guardrail glass 431, and the tops of the two second sealing adhesive tapes 421 are used for being abutted against the second winding reel mullion 520.

By adopting the technical scheme, the first sealing rubber strip 411 and the second sealing rubber strip 421 prevent air, dust and other external substances from entering through gaps between the side frames and the glass and the mullion by contacting the guardrail glass 431 and the rewinding yarn mullion, so that the sealing performance and the service life of the guardrail gauze mounting structure are improved. The sealing structure not only improves the overall sealing effect, but also ensures the stability and safety of the installation structure.

In one embodiment, third sealing strips 433 are further disposed on two opposite sides in the guardrail bottom frame 430, and the two third sealing strips 433 are respectively abutted against the guardrail glass 431 (as shown in fig. 1).

Referring to fig. 1 and 3, in one embodiment, the glass block 600 is further included, and the glass block 600 is used to abut the guardrail glass 431.

By adopting the above technical scheme, the deformation and inclination problems of the guardrail glass 431 caused by the action of external force or gravity are effectively solved by adding the glass cushion block 600. The glass cushion block provides an additional supporting point, so that the stability of the guardrail glass 431 is enhanced, and the safety and reliability of the guardrail screen mounting structure are remarkably improved.

In one embodiment, the glass mat 600 includes a first glass mat 610, a second glass mat 620, and a third glass mat 630, the first glass mat 610 being disposed within the first side frame 410, the second glass mat 620 being disposed within the second side frame 420, and the third glass mat 630 being disposed within the guardrail bottom frame 430.

By adopting the technical scheme, the problem of stability and firmness in fixing the guardrail glass 431 is solved by arranging the glass cushion blocks 600 at a plurality of key positions of the guardrail. The first glass cushion block 610 and the second glass cushion block 620 are respectively arranged in the left side frame and the right side frame, and the third glass cushion block 630 is arranged in the guardrail underframe 430, and the first glass cushion block, the second glass cushion block and the third glass cushion block are matched with each other, so that looseness or displacement between the guardrail glass 431 and the guardrail assembly 400 is effectively avoided, and the overall stability and safety of the guardrail glass 431 are improved.

In one embodiment, the first side frame 410 and the mounting frame 100 are fixedly connected by a first screw 710, the second side frame 420 and the fixed window sash 200 are fixedly connected by a second screw 720, and the guardrail bottom frame 430 and the mounting frame 100 are fixedly connected by a third screw 730.

The utility model also provides a panoramic door, which comprises the guardrail gauze mounting structure of any embodiment.

In the description of the present specification, reference to the terms "one embodiment," "certain 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 utility model. 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.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. A guardrail screen mounting structure, characterized by comprising:

A mounting frame (100);

a fixed window sash (200) fixedly arranged on the mounting frame (100);

a movable window sash (300) movably arranged on the mounting frame (100);

The guardrail assembly (400) comprises a first side frame (410), a second side frame (420), a guardrail bottom frame (430) and a rewinding yarn top frame (440), wherein the first side frame (410) is arranged on one side, far away from the fixed window sash (200), of the mounting frame (100), the second side frame (420) is arranged on one side, far away from the movable window sash (300), of the fixed window sash (200), opposite ends of the guardrail bottom frame (430) are respectively connected with the bottoms of the first side frame (410) and the second side frame (420), the guardrail bottom frame (430) faces towards one side of the rewinding yarn top frame (440) and is provided with guardrail glass (431), opposite ends of the rewinding yarn top frame (440) are respectively connected with the tops of the first side frame (410) and the second side frame (420), a containing cavity (442) for containing a rewinding yarn screen (441) is arranged in the rewinding yarn top frame (440), the rewinding yarn screen (441) can move towards the guardrail bottom frame (430) to the bottom frame (440) to be matched with the glass (431) in a sealing mode, and the glass (442) can be mounted in the cavity (442).

2. The guardrail screen mounting structure of claim 1, characterized in that an end of the backrush screen (441) facing the guardrail glass (431) is provided with a backrush handle (443), the backrush handle (443) being capable of driving the backrush screen (441) to approach or separate from the guardrail glass (431).

3. A barrier screen mounting structure according to claim 2, characterized in that the side of the rollback handle (443) facing the barrier glass (431) is provided with sealing wool tops (444), the sealing wool tops (444) being used for closing the gap between the rollback handle (443) and the barrier glass (431).

4. The guardrail screen mounting structure of claim 1, further comprising a first winding reel (510) and a second winding reel (520), wherein the first winding reel (510) is disposed in the first side frame (410), a first guide rail groove (511) is disposed on one side of the first winding reel (510) toward the second side frame (420), the second winding reel (520) is disposed in the second side frame (420), a second guide rail groove (521) is disposed on one side of the second winding reel (520) toward the first side frame (410), and opposite ends of the winding reel (441) are respectively movably disposed in the first guide rail groove (511) and the second guide rail groove (521).

5. The guardrail screen mounting structure according to claim 4, wherein first sealing strips (411) are respectively arranged on two opposite sides in the first side frame (410), lower half parts of the two first sealing strips (411) are used for being abutted against guardrail glass (431), upper half parts of the two first sealing strips (411) are used for being abutted against the first rewinding yarn mullion (510), second sealing strips (421) are respectively arranged on two opposite sides of the second side frame (420), bottoms of the two second sealing strips (421) are used for being abutted against the guardrail glass (431), and tops of the two second sealing strips (421) are used for being abutted against the second rewinding yarn mullion (520).

6. The guardrail screen mounting structure of claim 1, characterized in that a side of the guardrail glass (431) facing the backwinding top frame (440) is provided with a handrail cover plate (432).

7. The guardrail screen mounting structure of claim 1, further comprising a glass spacer (600), the glass spacer (600) being adapted to abut the guardrail glass (431).

8. The guardrail screen mounting structure of claim 7, wherein the glass mat (600) comprises a first glass mat (610), a second glass mat (620) and a third glass mat (630), the first glass mat (610) being disposed within the first side frame (410), the second glass mat (620) being disposed within the second side frame (420), the third glass mat (630) being disposed within the guardrail bottom frame (430).

9. The guardrail screen mounting structure of claim 1, characterized in that the first side frame (410) and the mounting frame (100) are fixedly connected by a first screw (710), the second side frame (420) and the fixed window sash (200) are fixedly connected by a second screw (720), and the guardrail bottom frame (430) and the mounting frame (100) are fixedly connected by a third screw (730).

10. A panoramic door comprising the guardrail screen mounting structure of any of claims 1-9.