CN117988683A - Inner casement window screen and control method thereof - Google Patents

Abstract

The application provides an inner casement screen window and a control method of the inner casement screen window, and relates to the technical field of doors and windows; the second installation area is provided with a first placement area and a second placement area which encircle the second installation area along the direction from indoor to outdoor; the first placing area is hinged with a glass window sash; the second placement area is provided with a muntin which divides the second placement area into a first subarea positioned above and a second subarea positioned below; a gauze window sash which is horizontally opened indoors is hinged in the first subarea; the second subregion is fixedly provided with second glass. The inner casement screen window is used as a floor window, and the glass guardrail and the screen are additionally arranged on the inner casement screen window simultaneously, so that the safety of the inner casement screen window is ensured, and the inner casement screen window has a good mosquito-proof effect.

Description

Inner casement window screen and control method thereof

Technical Field

The application relates to the technical field of doors and windows, and particularly provides an inner casement screen window and a control method of the inner casement screen window.

Background

Because the floor window has a large area, the visible surface is the largest of all types of windows, and no matter a person stands in a living room or a bedroom, the outside landscape can be seen through the floor window. The lighting area with large floor window width is beneficial to the maximum light entering, and has the advantages of making indoor light bright, highlighting indoor spaciousness and giving people a sense of openness. However, the landing window also has a great safety hazard, for example: the floor window has no windowsill or very low windowsill, so that people in the room have a dizziness feeling before approaching the window, and the floor window is usually made of common glass and has low strength, so that a certain danger exists. The common glass floor window has larger area, such as due to ageing, rust, fatigue, flaws or construction defects of materials, is easy to break under the action of external force (such as wind force, explosion, earthquake, collision and the like), and threatens the personal safety and property safety of indoor or outdoor personnel.

In order to solve the potential safety hazard problem existing in the landing window, at present, the market demand of the internal casement window as the landing window is gradually expanded, and a glass guardrail is additionally arranged on an outer frame of the internal casement window to ensure the safety of the landing window, but the internal casement window is communicated with the indoor and the outdoor when being opened, so that a good mosquito prevention effect cannot be achieved.

Therefore, the prior art lacks an inner casement window which can not only improve the safety function of the landing window, but also play a role in preventing mosquitoes when the landing window is used.

Disclosure of Invention

The application aims to provide an inner casement screen window and a control method thereof, wherein the inner casement screen window is used as a floor window, and a glass guardrail and a screen are additionally arranged on the inner casement screen window, so that the safety of the inner casement screen window is ensured, and a good mosquito-proof effect is achieved.

In a first aspect, the application provides an inner casement window screen, which has the following technical scheme:

The inner casement window screen comprises a floor mounting frame, wherein the mounting frame is divided into a first mounting area and a second mounting area in the horizontal direction;

the first mounting area is provided with a first glass which is completely covered;

the second installation area is provided with a first placement area and a second placement area which encircle the second installation area along the direction from indoor to outdoor;

The first placing area is hinged with a glass window sash which is horizontally opened indoors;

The second placement area is provided with a muntin extending along the horizontal direction and crossing the second placement area, and the muntin divides the second placement area into a first subarea positioned above and a second subarea positioned below;

A gauze window sash which is horizontally opened indoors is hinged in the first subarea;

the second subarea is fixedly provided with second glass.

The application provides an inner casement window screen, which is provided with a floor mounting frame to be used as a floor window. The installation frame is divided into a first installation area and a second installation area in the horizontal direction, the first installation area is provided with first glass which is used for completing coverage so as to provide a large visual field for users, the second installation area is provided with a first placement area and a second placement area which encircle the second installation area along the direction from indoor to outdoor, the first placement area is hinged with a glass window sash which is horizontally opened to indoor, ventilation is facilitated by opening the glass window sash, the second placement area is provided with a middle stile which extends along the horizontal direction and spans the second placement area, the middle stile divides the second placement area into a first subarea positioned above and a second subarea positioned below, the first subarea is hinged with a gauze window sash which is horizontally opened to indoor, a gauze can be used for installing in the gauze window sash for preventing mosquitoes, the second subarea is fixedly provided with second glass, the second glass is used as a glass guardrail, when the user opens the first glass close to indoor side, the second glass which is fixedly arranged below plays a protective role for users, and the gauze window sash hinged above can play a role in preventing mosquitoes. Therefore, the inner casement screen window is used as a floor window, and the glass guardrail and the screen are additionally arranged on the inner casement screen window simultaneously, so that the safety of the inner casement screen window is ensured, and the inner casement screen window has the beneficial effect of good mosquito prevention.

Further, the second placement area is provided with an integral window frame along the edge in a surrounding manner, two ends of the muntin are respectively fixed with two opposite sides of the integral window frame, the muntin and the top of the integral window frame form the first subarea, and the muntin and the bottom of the integral window frame form the second subarea.

According to the inner casement window screen provided by the application, the second placing area is provided with the integrated window frame along the edge in a surrounding manner, the integrated window frame is used for installing the gauze window sashes and the second glass, the middle stiles horizontally cross the integrated window frame, the two ends of the middle stiles are respectively and fixedly connected with the two sides of the first window frame, the second placing area is divided into the first subarea positioned above and the second subarea positioned below, the gauze window sashes and the second glass are separately installed, namely, the anti-mosquito ventilation pieces and the glass guardrails are distributed side by side up and down in the vertical direction instead of being distributed side by side in the indoor direction to the outdoor direction, the thickness dimension of the installation frame of the inner casement window screen along the width direction of the wall is reduced, and the safety protection function and the anti-mosquito beneficial effects are realized.

Further, a wire pressing pad seat is arranged on one side, close to the indoor side, of the bottom of the integrated window frame, a mounting notch is formed between the wire pressing pad seat and one side, close to the outdoor side, of the integrated window frame, and the second glass is mounted in the mounting notch.

According to the inner casement window screen, the wire pressing pad seat is arranged on one side, close to an indoor side, of the top of the integrated window frame and used for limiting displacement of second glass and preventing the second glass from collapsing. And an installation notch is formed between the line pressing pad seat and one side, close to the outside, of the integrated window frame, the second glass is installed in the installation notch, and the installation notch plays a good limiting role on the second glass.

Further, a glass cushion block is arranged in the mounting notch, and the second glass is placed on the glass cushion block.

According to the inner casement window screen, the glass cushion block is arranged in the mounting notch, and the second glass is placed on the glass cushion block to support and position the second glass, so that the second glass is prevented from moving in the mounting notch.

Further, the wire pressing pad seat comprises a clamping part in a shape of "[ _ ], a glass guardrail wire pressing is clamped on the clamping part, and the glass guardrail wire pressing is contacted with the second glass and used for supporting the second glass.

Further, the glass guardrail pressing line comprises a hinge point hinged with one end of the "[ ]" shaped clamping part, and a first clamping strip extending from the hinge point to the other end of the "[ ]" shaped clamping part respectively, and a second clamping strip extending obliquely upwards to the indoor direction;

The extension end of the first clamping strip is provided with a C-shaped clamping groove, the other end of the "[ ]" shaped clamping part is clamped in the C-shaped clamping groove, the end of the second clamping strip is fixedly connected with an inner glass adhesive tape, the inner glass adhesive tape extends towards the second glass and is fixedly connected with the second glass, and the inner glass adhesive tape is used for sealing the second glass.

Further, a gauze is vertically fixed in the gauze window sash, and the gauze completely covers the first subarea and is used for preventing mosquitoes from entering the room.

Further, two sides of the gauze window sash are respectively provided with a gauze window sash outer sealing rubber strip and a gauze window sash inner sealing rubber strip, the gauze window sash outer sealing rubber strip is connected with the integrated window frame, and the gauze window sash inner sealing rubber strip is connected with the glass window sash in the first placing area; the screen window sash outer sealing rubber strip and the screen window sash inner sealing rubber strip are used for sealing the screen window sash; the screen window sash bottom with be connected with the magnetism between the muntin and inhale the adhesive tape, magnetism is inhaled the adhesive tape and is played the cushioning effect to the rotation of screen window sash.

In a second aspect, a control method of an inner casement screen window, where a driving device is mounted on a glass sash of the inner casement screen window that is casement indoors, the method includes the steps of:

s1: acquiring triggering information of opening the glass window sashes;

s2: and controlling the driving device to drive the glass window sash to rotate according to the set angle according to the trigger information, so that the glass window sash rotates to the position of the set angle.

Further, a first cavity is formed between the glass window sash and second glass positioned at the outer side of the glass window sash, a second cavity with an open top is arranged at the bottom of the mounting frame, the opening of the second cavity is matched with the glass window sash, when the glass window sash is closed, the opening of the second cavity is blocked, when the glass window sash is opened, the opening of the second cavity is opened, a drain hole is arranged at the bottom of the second cavity, and the drain hole is communicated with the outside;

The step S2 includes:

s21: detecting whether accumulated water exists in the first cavity;

S22: when accumulated water exists in the first cavity, the driving device is controlled to drive the glass window sash to rotate according to a first set angle according to the trigger information, so that the glass window sash rotates to the edge position of the second cavity, the accumulated water falls into the second cavity from the first cavity, and the accumulated water is discharged from the drain hole;

S23: after the accumulated water in the first cavity is discharged, the driving device is controlled to drive the glass window sash to rotate according to a second set angle, so that the glass window sash rotates to a position with the set angle, wherein the first set angle plus the second set angle = the set angle.

The beneficial effects are that: according to the inner casement window screen and the control method of the inner casement window screen, the floor mounting frame is arranged to serve as a floor window. The installation frame is divided into a first installation area and a second installation area in the horizontal direction, the first installation area is provided with first glass which is used for completing coverage so as to provide a large visual field for users, the second installation area is provided with a first placement area and a second placement area which encircle the second installation area along the direction from indoor to outdoor, the first placement area is hinged with a glass window sash which is horizontally opened to indoor, ventilation is facilitated by opening the glass window sash, the second placement area is provided with a middle stile which extends along the horizontal direction and spans the second placement area, the middle stile divides the second placement area into a first subarea positioned above and a second subarea positioned below, the first subarea is hinged with a gauze window sash which is horizontally opened to indoor, a gauze can be used for installing in the gauze window sash for preventing mosquitoes, the second subarea is fixedly provided with second glass, the second glass is used as a glass guardrail, when the user opens the first glass close to indoor side, the second glass which is fixedly arranged below plays a protective role for users, and the gauze window sash hinged above can play a role in preventing mosquitoes. Therefore, the inner casement screen window is used as a floor window, and the glass guardrail and the screen are additionally arranged on the inner casement screen window simultaneously, so that the safety of the inner casement screen window is ensured, and the inner casement screen window has the beneficial effect of good mosquito prevention.

Drawings

Fig. 1 is a schematic perspective view of an inner casement window screen according to the present application.

Fig. 2 is a front view of an inner casement window screen according to the present application.

Fig. 3 is a cross-sectional view showing a second placement area of an inner casement window screen according to the present application.

Fig. 4 is a cross-sectional view of a combination structure of a first cavity and a second cavity of an inner casement window screen according to the present application.

Fig. 5 is a cross-sectional view of a first sub-area of an inner casement window screen according to the present application.

Fig. 6 is a sectional view of a second sub-area of an inner casement window screen according to the present application.

Fig. 7 is a flowchart of a method for controlling an inner casement window screen according to the present application.

In the figure: 1. a mounting frame; 2. a first mounting area; 21. a first glass; 3. a second mounting area; 31. a first placement area; 33. middle stile; 331. glass window sashes; 34. a first sub-region; 35. a second sub-region; 341. gauze window sash; 351. a second glass; 36. an integral window frame; 37. a wire pressing pad seat; 371. a mounting notch; 372. a glass cushion block; 373. a clamping part; 375. a first clamping strip; 374. a second clamping strip; 376. a hinge point; 377. a C-shaped clamping groove; 38. pressing the line of the glass guardrail; 4. an inner glass adhesive tape; 342. a gauze; 343. a sealing rubber strip outside the screen window; 344. sealing rubber strips in the screen window fan; 345. a magnetic adhesive tape; 332. a first cavity; 333. a second cavity; 11. an elastic adhesive tape; 12. and a drain hole.

Detailed Description

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

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

At present, the market demand of the inwardly-opened window as the floor window is gradually expanded, and a glass guardrail is additionally arranged on an outer frame of the inwardly-opened window to ensure the safety of the floor window in the market, but the inwardly-opened window is communicated with the indoor and the outdoor when being opened, so that a good mosquito-proof effect cannot be achieved. In order to solve the problems, the application provides an inner casement screen window and a control method of the inner casement screen window, and the specific scheme is as follows:

referring to fig. 1 to 5, the present application provides an inner casement window screen, which includes:

A landing mounting frame 1, the mounting frame 1 being divided in a horizontal direction into a first mounting area 2 and a second mounting area 3;

the first mounting area 2 is provided with a completely covered first glass 21;

the second installation area 3 is provided with a first placement area 31 and a second placement area surrounding the second installation area 3 in the indoor-to-outdoor direction;

the first placing area 31 is hinged with a glass window sash 331 which is horizontally opened indoors;

The second placement area is provided with a muntin 33 extending in the horizontal direction and crossing the second placement area, the muntin 33 dividing the second placement area into a first sub-area 34 located above and a second sub-area 35 located below;

a gauze window sash 341 which is horizontally opened indoors is hinged in the first subarea 34;

the second subregion 35 is fixedly provided with a second glass 351.

Wherein, the floor mounting frame 1 is arranged on the wall body and communicated with the outside, thereby opening the gap between the indoor wall body and the outdoor wall body, and the main material can be aluminum alloy. The mounting frame 1 is rectangular or square, and the mounting frame 1 is divided in the horizontal direction into a first mounting region 2 and a second mounting region 3 by a vertically arranged center mullion in the horizontal direction, and in some preferred embodiments, the area of the first mounting region 2 is equal to the area of the second mounting region 3. The first mounting area 2 is provided with a completely covered first glass 21, the first glass 21 being fixed in the first mounting area 2 and not openable for providing a larger field of view for the user. The second installation area 3 is provided with a first placing area 31 and a second placing area which encircle the second installation area 3 along the direction from indoor to outdoor, the first placing area 31 is hinged with a glass window sash 331 which is horizontally opened to indoor, the glass window sash 331 is hinged with the side edge of the first placing area 31 in a hinge mode, the glass window sash 331 is covered with a glass window, and the glass window sash 331 can be opened to ventilate the indoor.

In the existing inner casement window, after the glass window sash 331 is opened, the glass window sash 331 is directly communicated with the outside, in this case, a user has a danger of falling from the opened glass window sash 331, therefore, the existing inner casement window sash can be provided with a glass guardrail on the outer frame, the glass window sash 331 is arranged above the glass guardrail, and the safety of the inner casement window is ensured by the arrangement structure. In prior art, in the use, the mullion is divided into first installation region 2 and second installation region 3 with installation frame 1 in the horizontal direction to set up the well horizontal frame that the level spanned second installation region 3 in second installation region 3, well horizontal frame is divided into upper and lower two parts with second installation region 3, first installation region 2 fixed mounting first glass 21, the glass guardrail is installed to the lower half of second installation region 3, glass casement 331 articulates the upper half at second installation region 3, when the user opened the glass casement 331 of upper half and is ventilated, outdoor mosquito very easily gets into indoor through glass casement 331, can't play a fine mosquito-proof worm effect.

Therefore, in the present application, the first placement area 31 and the second placement area are arranged side by side in the second installation area 3, the first placement area 31 is hinged to the glass window sash 331 for ventilation, the side of the second placement area close to the outdoor is provided with the muntin 33 crossing the second placement area, and the muntin 33 is arranged on the side of the second placement area close to the outdoor, so that interference to the first placement area 31 can be avoided, and the glass window sash 331 hinged in the first placement area 31 can be conveniently and flexibly rotated. The muntin 33 divides the second placement into upper and lower portions: namely, a first sub-area 34 located above and a second sub-area 35 located below, specifically, referring to fig. 1 and 2, the area of the first sub-area 34 is equal to the area of the second sub-area 35, that is, the muntin 33 is disposed in the middle of the second placement area, in some preferred embodiments, the area of the first sub-area 34 may be larger than the area of the second sub-area 35, so as to improve the viewing field of the inner flat-open screen window as the landing window. The top of the second sub-area 35 is at a certain height from the ground, which can better improve the safety performance of the inner casement window screen. The second glass 351 is fixedly arranged in the second subarea 35, the second glass 351 is immovable and completely covers the second subarea 35, the second glass 351 is used as a glass guardrail of the inner flat-open screen window, and after the glass window sash 331 is opened indoors, the second glass 351 can play a role in protecting safety for a user and prevent the user from falling from the glass window sash 331. The first sub-area 34 is provided with a screen window sash 341 which is opened towards the indoor direction, the screen window sash 341 is hinged to one side of the first sub-area 34 in the form of a hinge, the hinged side of the screen window sash 341 and the glass window sash 331 are positioned on the same side of the second installation area 3, the opening directions of the screen window sash 341 are the same, and a ventilation member, preferably, a screen 342 is arranged in the screen window sash 341. When the gauze window fan 341 is closed, an effective mosquito-proof effect can be achieved, and when mosquito-proof is not needed, a user can also select to open the gauze window fan 341, so that the flowing amount of air is increased.

Further, the second placement area is circumferentially provided with an integral window frame 36 along the edge, both ends of the muntin 33 are respectively fixed to opposite sides of the integral window frame 36, and the muntin 33 forms a first sub-area 34 with the top of the integral window frame 36 and a second sub-area 35 with the bottom of the integral window frame 36.

In practical application, please refer to fig. 3, the second placement area needs to place the second glass 351 and the gauze window sash 341 at the same time, so, for installation stability, the second placement area is circumferentially provided with the integrated window frame 36 along the edge, specifically, the integrated window frame 36 is disposed along the inner edge of the second placement area, the shape is matched with that of the second placement area, screw holes are formed at the top and bottom of the integrated window frame 36, and the integrated window frame 36 can be stably fixed on the installation frame 1 by using screws to respectively pass through the screw holes on the integrated window frame 36 and the installation frame 1 corresponding to the position of the second placement area.

In practical application, two ends of the muntin 33 are fixedly connected to two opposite sides of the integral window frame 36 respectively to horizontally span the second placement area, so that the second placement area is divided into an upper part and a lower part. The first sub-area 34 is actually an area formed by the upper end surface of the muntin 33 and the top of the integral window frame 36, and the second sub-area 35 is actually an area formed by the lower end surface of the muntin 33 and the bottom of the integral window frame 36.

In the prior art, the muntin 33 is disposed generally in the middle of the integral window frame 36 and is equal in width to the thickness dimension of the integral window frame 36 to achieve positioning of the components mounted in the upper and lower portions, respectively.

However, in the present application, the mullion 33 is not disposed in the same manner as the mullion 33 in the conventional manner, and the mullion 33 in the present application is disposed at a side of the second placement area close to the outside, specifically, at a side of the integrated window frame 36 close to the outside, and the mullion 33 does not extend in the indoor direction to a position where the first placement area 31 is located, and the mullion 33 in the present application is disposed in such a manner that an influence on the rotation of the glass sash 331 installed in the first placement area 31 in the width direction can be avoided.

Further, a wire pressing pad 37 is provided on a side of the bottom of the integrated window frame 36 near the indoor side, a mounting notch 371 is formed between the wire pressing pad 37 and a side of the integrated window frame 36 near the outdoor side, and the second glass 351 is mounted in the mounting notch 371.

In practical application, since the first placement area 31 and the second placement area are arranged side by side along the indoor-to-outdoor direction, in order to avoid interference of the integrated window frame 36 on the glass window sash 331 in the first placement area 31, the integrated window frame 36 is provided with a blocking portion only on one side close to the outdoor, and no blocking portion is provided on one side close to the indoor, so that when the second glass 351 is fixed in the second sub-area 35, the integrated window frame 36 cannot effectively limit the second glass 351. In order to solve the problem, a wire pressing pad seat 37 is arranged at one side, close to the room, of the bottom of the integrated window frame 36, the wire pressing pad seat 37 specifically comprises a limiting portion with a rectangular cross section, and a clamping portion 373 protruding from the rectangular limiting portion, in order to ensure the stability of installation of the wire pressing pad seat 37, a screw hole is also formed in the limiting portion of the wire pressing pad seat 37, and the wire pressing pad seat 37 is stably fixed on the integrated window frame 36 through screws penetrating through the limiting portion of the wire pressing pad seat 37 and the integrated window frame 36. The side of the gasket seat 37 near the room is flush with the extending end of the integrated window frame 36, so that the influence on the glass window sash 331 in the first placement area 31 can be avoided. A mounting notch 371 is formed between one side of the pressing pad seat 37 close to the outside and one side of the integrated window frame 36 close to the outside, and the mounting notch 371 is used for mounting the second glass 351 so as to limit the second glass 351, so that the second glass 351 is stably mounted on the integrated window frame 36.

Further, a glass block 372 is provided in the mounting groove 371, and the second glass 351 is placed on the glass block 372.

In practical application, please refer to fig. 5, in order to insert the second glass 351 into the installation notch 371 for fixing, the width dimension of the installation notch 371 is slightly larger than that of the second glass 351, when the second glass 351 is installed into the installation notch 371, the installation effect is still not stable enough, and if a gap exists between the installation notch 371 and the second glass 351, external rainwater is easily caused to flow into the installation notch 371 along the outer surface of the second glass 351, erosion is caused to the integral window frame 36, and long-term rainwater is accumulated, so that mosquitoes can breed in the installation notch 371. In order to solve the above problem, the glass cushion block 372 may be disposed in the mounting notch 371, the glass cushion block 372 is generally cubic and is formed by stacking glass with smooth surface, so that a gap between the mounting notch 371 and the second glass 351 can be effectively blocked, a good sealing effect is achieved, the second glass 351 is disposed on the glass cushion block 372, and the glass cushion block 372 can also assist in positioning the second glass 351. In some preferred embodiments, an outer glass strip may be provided on the side of the mullion 33 near the outside of the room, and the outer glass strip is fixed to the second glass 351 to prevent external moisture from entering the installation notch 371.

Further, the wire pressing pad seat 37 includes a "[ -shaped" clamping portion 373, and the "[ -shaped" clamping portion 373 is clamped with a glass guardrail wire pressing 38, where the glass guardrail wire pressing 38 contacts the second glass 351 for supporting the second glass 351.

In practical application, the wire pressing pad seat 37 includes a limiting portion with a rectangular cross section, and a clamping portion 373 protruding from the rectangular limiting portion, where the upper end of the clamping portion 373 is [ _ ] ", and is used for clamping with the glass guardrail wire pressing 38. Specifically, the lower end of the glass guardrail pressing line 38 is clamped in the notch of the "[ -shaped clamping part 373, and the upper end of the glass guardrail pressing line contacts with the side surface, close to the room, of the second glass 351, so that the second glass 351 is supported, and the second glass 351 is prevented from falling down in the indoor direction.

Further, the glass guardrail pressing line 38 comprises a hinge point 376 hinged with one end of the "[ -shaped clamping part 373, and a first clamping strip 375 extending from the hinge point 376 to the other end of the" [ -shaped clamping part 373 respectively, and a second clamping strip 374 extending obliquely upwards in the indoor direction;

The extending end of the first clamping strip 375 is provided with a C-shaped clamping groove 377, the other end of the C-shaped clamping portion 373 is clamped in the C-shaped clamping groove 377, the end of the second clamping strip 374 is fixedly connected with an inner glass adhesive tape 4, the inner glass adhesive tape 4 extends to the second glass 351 and is fixedly connected with the second glass 351, and the inner glass adhesive tape 4 is used for sealing the second glass 351.

In some preferred embodiments, the glass guardrail pressing line 38 includes a hinge point 376 hinged to one end of the "[ ]" shaped clamping portion 373, and a first clamping strip 375 extending from the hinge point 376 to the other end of the "[ ]" shaped clamping portion 373, and a second clamping strip 374 extending obliquely upward in the indoor direction, wherein the extending end of the second clamping strip 374 plays a limiting role on the second glass 351, and when the second glass 351 falls in the indoor direction, the second glass 351 can be supported to prevent the second glass 351 from threatening the personal safety and property safety of indoor personnel under the action of external forces (such as hurricanes, earthquakes, collisions and the like). The extending end of the first clamping strip 375 is provided with a 'C' -shaped clamping groove 377, the other end of the 'C' -shaped clamping portion 373 is clamped in the 'C' -shaped clamping groove 377, the 'C' -shaped clamping groove 377 limits the other end of the 'C' -shaped clamping portion 373 up and down, in actual use, when the second glass 351 is in a tendency of falling down indoors, the end of the second clamping strip 374 is subjected to pressure of the second glass 351 to rotate downwards, so that the hinge point 376 has a tendency of rotating downwards, the first clamping strip 375 extending from the hinge point 376 is also influenced by the hinge point to rotate downwards, but the 'C' -shaped clamping groove 377 at the end of the first clamping strip 375 is clamped with the 'C' -shaped clamping portion 373, and when the first clamping strip 375 is subjected to downward rotation force, the end of the first clamping strip 375 is limited to be unable to rotate, so that the hinge point 376 is also unable to rotate, and further the second clamping strip 374 is unable to rotate, so that the second clamping strip 374 is unable to support the second glass 351 effectively.

Because the second clamping strip 374 of the glass guardrail pressing line 38 is of an inclined plate structure inclined to the indoor direction, a large gap exists between the second clamping strip 374 and the second glass 351, when the second glass 351 is supported, the second glass 351 can fall down to a certain rotation angle indoors, and when the glass window sash 331 of the first placing area 31 is in a closed state, the falling down to the degree can impact the glass window in the glass window sash 331, so that the glass window is easy to damage. Therefore, in order to solve the problem, the inner glass adhesive tape 4 may be fixedly connected to the extending end of the second clamping strip 374, and the inner glass adhesive tape 4 is fixedly connected to the second glass 351, so that the second glass 351 can be completely limited, and the sealing effect on the second glass 351 can be achieved, so that mosquitoes or dust can be prevented from entering the bottom of the integrated window frame 36 through the gap between the second clamping strip 374 and the second glass 351, and the cleaning is difficult.

Further, a screen 342 is vertically fixed in the screen window 341, and the screen 342 completely covers the first sub-area 34, so as to prevent mosquitoes from entering the room.

In practical application, referring to fig. 3, a screen 342 is vertically fixed in the screen window 341, the screen 342 completely covers the first sub-area 34, and when the screen window 341 is closed, the screen 342 can play a role in preventing mosquitoes. It is understood that the gauze window 341 may be provided with an anti-mosquito structure such as a blind, in addition to the gauze 342.

Further, two sides of the gauze window 341 are respectively provided with a gauze window outer sealing adhesive tape 343 and a gauze window inner sealing adhesive tape 344, the gauze window outer sealing adhesive tape 343 is connected with the integrated window frame 36, and the gauze window inner sealing adhesive tape 344 is connected with the glass window sash 331 of the first placing area 31; the screen window sash outer sealing adhesive tape 343 and the screen window sash inner sealing adhesive tape 344 are used for sealing the screen window sash 341; a magnetic adhesive tape 345 is connected between the bottom of the gauze window 341 and the middle stile 33, and the magnetic adhesive tape 345 plays a role in buffering the rotation of the gauze window 341.

In practical application, two sides of the gauze window sash 341 are respectively provided with a gauze window sash outer sealing adhesive tape 343 and a gauze window sash inner sealing adhesive tape 344, specifically, the gauze window sash outer sealing adhesive tape 343 and the gauze window sash inner sealing adhesive tape 344 are respectively provided with two gauze window sash inner sealing adhesive tapes, the gauze window sash outer sealing adhesive tape 343 at the upper end of the gauze window sash 341 is connected with the integrated window frame 36, the gauze window sash outer sealing adhesive tape 343 at the lower end of the gauze window sash 341 is connected with the muntin 33, and external small-sized mosquitoes, dust or rainwater can be prevented from entering the integrated window frame 36 or the muntin 33 through a gap between the gauze window sash 341 and the integrated window frame 36 or the muntin 33, so that the functions of sealing, water proofing, dust proofing and mosquito breeding are achieved. The inner sealing rubber strip 344 of the screen window sash positioned at the upper end of the screen window sash 341 is connected with the glass window sash 331 of the first placing area 31, so that mosquitoes and dust are prevented from entering the integrated window frame 36 or the muntin 33 through a gap between the glass window sash 331 of the first placing area 31 and the screen window sash 341, and the inner sealing rubber strip 344 of the screen window sash positioned at the lower end of the screen window sash 341 and the inner sealing rubber strip 344 of the screen window sash positioned at the upper end of the screen window sash are symmetrically arranged, so that contact with the glass window in the first placing area 31 can be avoided, and interference caused to the glass window can be avoided.

In practical application, a magnetic adhesive tape 345 is connected between the bottom of the gauze window sash 341 and the middle stile 33, specifically, the magnetic adhesive tape 345 is provided with two symmetrical halves, one half is fixed on the middle stile 33, and the other half is fixed at the bottom of the movable side of the gauze window sash 341, and the two halves are fixed through magnetic attraction. By the magnetic adhesive tape 345, a buffer function can be achieved when a user opens or closes the screen window 341.

Referring to fig. 7, a control method of an inner casement window screen is applied to any of the inner casement window screens, in which a driving device is mounted on a glass window sash 331 that is casement indoors, the method includes the steps of:

s1: acquiring triggering information for opening the glass window sash 331;

S2: the driving device is controlled to drive the glass window sash 331 to rotate according to the set angle according to the trigger information, so that the glass window sash 331 rotates to the position of the set angle.

In practical application, in order to improve the automation function of the inner casement window screen, a driving device may be installed on the glass window sash 331, the driving device may be connected with a remote controller or an APP or an applet installed on an electronic device such as a mobile phone, a tablet, a computer, etc., when a user triggers the driving device to open the glass window sash 331 through the remote controller, the APP or the applet, the glass window sash 331 may drive the glass window sash 331 to rotate according to an angle set in advance by the user.

In step S1, the trigger information includes information of "opening the glass window sash 331" sent by the user to the driving device through the remote controller, the APP, or the applet, and an angle set by the user autonomously, where the set angle may be any angle ranging from 0 ° to 90 ° (excluding 0 °), and 90 ° indicates that the glass window sash 331 is completely opened. In step S2, the driving device drives the glass sash 331 to rotate at a set angle according to the acquired trigger information, and rotates the glass sash 331 to a position at the set angle. Thereby improving the automation function of the inner casement window screen.

In the structure that the existing inner casement screen window is used as the floor window, in order to realize the function of mosquito prevention, the screen 342 is installed on one side, close to the outside, of the glass window sash 331, and due to the fact that the glass guardrail is lacked in the arrangement structure, a large potential safety hazard exists, but good drainage effect can be achieved, the screen 342 is integrally of a through hole structure and is communicated with the outside, rainwater enters a gap between the glass window sash 331 and the screen 342 through the screen 342, and can still be discharged through the screen 342, and the rainwater cannot flow between the glass window sash 331 and the screen 342. However, in the structure of the inner casement window screen proposed by the present application, the glass window sash 331 is installed with the integral window frame 36 at one side close to the outside, the integral window frame 36 is divided into the upper and lower sub-areas, which are the first sub-area 34 located above for installing the screen 342 and the second sub-area 35 located below for fixedly installing the second glass 351 (the second glass 351 serves as a glass guardrail, playing a role of protection), in the structure of the present application, after rainwater enters the first cavity 332 formed between the glass window sash 331 and the second glass 351 through the screen 342 in the first sub-area 34, the rainwater cannot be discharged from the first cavity 332 due to the barrier of the second glass 351, and when the user opens the glass window sash 331 in the indoor direction, the rainwater accumulated in the first cavity 332 can be directly discharged into the room, which is not good.

To solve the problem, further, in some preferred embodiments, a first cavity 332 is formed between the glass window sash 331 and the second glass 351 located outside the glass window sash 331, a second cavity 333 with an open top is provided at the bottom of the mounting frame 1, the opening of the second cavity 333 is matched with the glass window sash 331, when the glass window sash 331 is closed, the opening of the second cavity 333 is blocked, when the glass window sash 331 is opened, the opening of the second cavity 333 is opened, a drain hole 12 is provided at the bottom of the second cavity 333, and the drain hole 12 is communicated with the outside;

The step S2 comprises the following steps:

s21: detecting whether water is present in the first cavity 332;

S22: when water is accumulated in the first cavity 332, the driving device is controlled to drive the glass window sash 331 to rotate according to a first set angle according to the trigger information, so that the glass window sash 331 rotates to the edge position of the second cavity 333, and the water is dropped into the second cavity 333 from the first cavity 332 and is discharged from the drain hole 12;

S23: after the accumulated water in the first cavity 332 is discharged, the driving device is controlled to drive the glass window sash 331 to rotate according to a second set angle, so that the glass window sash 331 rotates to a position with the set angle, wherein the first set angle + the second set angle = the set angle.

Referring to fig. 4, in practical application, a second glass 351 is installed on a side of the glass window sash 331 near the outdoor, and the second glass 351 is used as a glass guardrail to play a role of safety protection. Since the glass sash 331 is a rotatable sash, in order to avoid the second glass 351 interfering with the rotation of the glass sash 331, a first cavity 332 is provided between the glass sash 331 and the second glass 351 as a gap for rotation. The glass casement 331 is installed on the mounting frame 1, the bottom of mounting frame 1 is provided with elasticity adhesive tape 11 with the bottom connection's of glass casement 331 position, elasticity adhesive tape 11 sets up under the glass casement 331, elasticity adhesive tape 11 forms open-topped second cavity 333 with the mounting frame 1 that is close to second glass 351 one side, this structure is very clear to show second cavity 333 and first cavity 332 are located the homonymy, all be located the glass casement 331 and be close to outdoor one side, when the glass casement 331 is closed, the opening on second cavity 333 top is plugged up, can't communicate with first cavity 332, the opening on second cavity 333 top is opened when the glass casement 331 is opened, communicate with first cavity 332. When the glass window sash 331 rotates to a first set angle, the glass window sash contacts with the elastic adhesive tape 11, and plays a role in sealing.

When the driving device obtains the triggering information for opening the glass window sash 331, it detects whether there is water in the first cavity 332, where the device for detecting water can be a water detection sensor, both the sensor and the driving device are connected with the controller, when the water detection sensor detects that water exists in the first cavity 332, the information is transmitted to the controller, and the controller controls the driving device according to the triggering information to drive the glass window sash 331 to rotate according to a first set angle, so that the glass window sash 331 rotates to the edge position of the second cavity 333, and the opening of the second cavity 333 is opened, so that water falls into the second cavity 333 from the first cavity 332 and is discharged from the drain hole 12. Wherein the first set angle is the angle between the edge position of the second cavity 333 and the position where the rotating edge of the glass window sash 331 is closed, and is a fixed angle. When the glass window sash 331 rotates by a first set angle, the glass window sash 331 is connected with the elastic adhesive tape 11 arranged at the bottom of the glass window sash 331, so that the sealing effect is achieved, the accumulated water is prevented from flowing indoors, the elastic adhesive tape 11 can be elastically deformed, and therefore the opening and closing of the glass window sash 331 are not affected.

After the accumulated water detection sensor detects that the accumulated water in the first cavity 332 is completely discharged, the controller controls the driving device to drive the glass window sash 331 to continue to rotate at a second set angle, wherein the second set angle is the set angle minus the first set angle, so that the glass window sash 331 rotates to a position with the set angle, and the problem that the accumulated water flows indoors when the glass window sash 331 is opened is solved.

In some preferred embodiments, when the inner casement window screen is used as a landing window, a great potential safety hazard exists before the glass window which is opened indoors, and even if a glass guardrail is arranged outside the glass window, the danger cannot be completely eradicated. Therefore, in order to further improve the safety performance of the inner casement window screen, a camera and a rotation angle sensor (not shown) may be installed on the glass window. The camera is used for detecting the body shape data of the user, including the height data and the shoulder width data of the user; the rotation angle sensor is used for detecting the opening angle information of the glass window sash 331, and the camera and the rotation angle sensor are connected with the controller.

When a user manually opens the window, the screen information of the glass window sash 331 can be detected through the camera, the controller immediately controls the water accumulation detection sensor to detect whether water accumulation exists in the first cavity 332 when receiving the screen information of the glass window sash 331 manually opened by the user uploaded by the camera, if water accumulation exists in the first cavity 332, the rotation angle sensor is controlled to acquire the opening angle information of the glass window sash 331 in real time, and when the opening angle information is equal to a first set angle, the buzzer installed on the inner flat-open screen window can be controlled to send out an alarm sound of 'water drainage', so that the user is reminded to wait for the water accumulation in the first cavity 332 to be discharged and then continue opening the window.

In practical application, in order to protect user's safety, the controller acquires the opening angle information that rotation angle sensor uploaded in real time, and when opening angle information exceeded preset angle information, the controller can control the buzzer of installing on the interior flat-open screen window to send "please keep away from the alarm sound of window limit" to remind the user to keep away from the window limit, improve interior flat-open screen window's security performance. The preset angle information is set in advance by the user, for example, may be 60 °, and the user may set the preset angle information with the assistance of an intelligent device such as a mobile phone applet or an app matched with the inner flat-open screen window, for example, when the user has minor minors with smaller body shapes in the home, the user may be recommended to set the preset angle information to 45 °.

In order to improve the intelligent effect of the inner casement window screen, after an alarm is sent to remind a user to keep away from the window edge, the camera can upload height data and shoulder width data of the user to the controller, the height data comprise height information of the waist of the user from the ground, the controller analyzes the height data of the user, and obtains the height information of the waist of the user from the ground and a preset first threshold value, wherein the preset first threshold value can be set to be the height of the top end of the second glass 351 from the ground, when the height data are smaller than or equal to the preset first threshold value, the actual indication is that when the height information of the waist of the user from the ground is smaller than or equal to the height information of the glass guardrail from the ground, the falling risk of the user is smaller under the protection of the glass guardrail, and the glass window sash 331 can be controlled to be completely opened; when the height data is greater than a preset first threshold value, the fact indicates that when the height information of the waist of the user from the ground is greater than the height information of the glass guardrail from the ground, even if the glass guardrail is arranged, the risk of falling of the user is still greater, shoulder width data of the user can be obtained, opening angle information of the glass window sashes 331 can be adjusted according to the shoulder width data, and width dimension data of a cross section corresponding to the opening angle information is smaller than the shoulder width data, so that safety performance of the inner flat-open screen window is improved, when the glass window sashes 331 are opened, an opening surface corresponding to the opening angle information is a sector from a overlooking surface, and a cross section corresponding to the opening angle information is a surface formed by a straight line connected with two end points of the arc-shaped side of the sector and the vertical side of the glass window sashes 331.

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

Claims (10)

1. An inner casement screen window, comprising:

A landing mounting frame (1), the mounting frame (1) being divided in a horizontal direction into a first mounting area (2) and a second mounting area (3);

the first mounting region (2) is provided with a completely covered first glass (21);

The second installation area (3) is provided with a first placement area (31) and a second placement area which encircle the second installation area (3) along the direction from indoor to outdoor;

the first placing area (31) is hinged with a glass window sash (331) which is horizontally opened indoors;

The second placement area is provided with a muntin (33) extending in the horizontal direction and crossing the second placement area, and the muntin (33) divides the second placement area into a first subarea (34) positioned above and a second subarea (35) positioned below;

A gauze window sash (341) which is horizontally opened indoors is hinged in the first subarea (34);

the second subregion (35) is fixedly provided with a second glass (351).

2. An inner casement window screen according to claim 1, wherein the second placement area is circumferentially provided with an integral window frame (36) along an edge, two ends of the muntin (33) are respectively fixed to two opposite sides of the integral window frame (36), and the muntin (33) and the top of the integral window frame (36) form the first sub-area (34) and the bottom of the integral window frame (36) form the second sub-area (35).

3. An inner casement window screen according to claim 2, characterized in that a pressing pad seat (37) is provided on a side of the bottom of the integrated window frame (36) close to the indoor, a mounting notch (371) is formed between the pressing pad seat (37) and a side of the integrated window frame (36) close to the outdoor, and the second glass (351) is mounted in the mounting notch (371).

4. A casement window screen according to claim 3, wherein a glass block (372) is provided in the mounting slot (371), the second glass (351) being placed on the glass block (372).

5. An inner casement window screen according to claim 4, wherein the pressing pad seat (37) comprises a clamping part (373) in a shape of "[ ], a glass guardrail pressing wire (38) is clamped on the clamping part (373), and the glass guardrail pressing wire (38) is contacted with the second glass (351) and is used for supporting the second glass (351).

6. The inner casement window screen according to claim 5, wherein the glass guardrail pressing line (38) comprises a hinge point (376) hinged with one end of the "[ -shaped clamping part (373), and a first clamping strip (375) extending from the hinge point (376) to the other end of the" [ -shaped clamping part (373) respectively, and a second clamping strip (374) extending obliquely upwards in the indoor direction;

The extension end of the first clamping strip (375) is provided with a C-shaped clamping groove (377), the other end of the C-shaped clamping portion (373) is clamped in the C-shaped clamping groove (377), the end of the second clamping strip (374) is fixedly connected with an inner glass adhesive tape (4), the inner glass adhesive tape (4) extends towards the second glass (351) and is fixedly connected with the second glass (351), and the inner glass adhesive tape (4) is used for sealing the second glass (351).

7. An inner casement screen according to claim 2, characterized in that a screen (342) is vertically fixed in the screen window sash (341), the screen (342) completely covering the first sub-area (34) for preventing mosquitoes from entering the room.

8. An inner casement window screen according to claim 7, characterized in that both sides of the screen sash (341) are provided with a screen sash outer sealing strip (343) and a screen sash inner sealing strip (344), respectively, the screen sash outer sealing strip (343) being connected with the integral window frame (36), the screen sash inner sealing strip (344) being connected with the glass sash (331) of the first placement area (31); the screen window sash outer sealing rubber strip (343) and the screen window sash inner sealing rubber strip (344) are used for sealing the screen window sash (341); the magnetic adhesive tape (345) is connected between the bottom of the gauze window sash (341) and the muntin (33), and the magnetic adhesive tape (345) plays a role in buffering the rotation of the gauze window sash (341).

9. A method of controlling an inner casement screen, the method being applied to an inner casement screen as claimed in any one of claims 1 to 8, the inner casement screen having a drive means mounted to an indoor casement glass sash (331), the method comprising the steps of:

s1: acquiring triggering information for opening the glass window sash (331);

S2: and controlling the driving device to drive the glass window sash (331) to rotate according to a set angle according to the trigger information, so that the glass window sash (331) rotates to a position with the set angle.

10. A control method of an inward casement window screen according to claim 9, characterized in that a first cavity (332) is formed between the glass window sash (331) and a second glass (351) located outside the glass window sash (331), a second cavity (333) with an open top is provided at the bottom of the mounting frame (1), the opening of the second cavity (333) is matched with the glass window sash (331), when the glass window sash (331) is closed, the opening of the second cavity (333) is blocked, when the glass window sash (331) is opened, the opening of the second cavity (333) is opened, a drain hole (12) is provided at the bottom of the second cavity (333), and the drain hole (12) is communicated with the outside;

The step S2 comprises the following steps:

S21: detecting whether there is water accumulation in the first cavity (332);

S22: when accumulated water exists in the first cavity (332), the driving device is controlled to drive the glass window sash (331) to rotate according to a first set angle according to the trigger information, so that the glass window sash (331) rotates to the edge position of the second cavity (333), and the accumulated water falls into the second cavity (333) from the first cavity (332) and is discharged from the drain hole (12);

s23: after the accumulated water in the first cavity (332) is discharged, the driving device is controlled to drive the glass window sash (331) to rotate according to a second set angle, so that the glass window sash (331) is rotated to a position with the set angle, wherein the first set angle+the second set angle=the set angle.