CN213478062U - Glass fiber plant built-in shutter - Google Patents

Abstract

The utility model provides a glass fiber plant built-in shutter, which comprises a window frame formed by enclosing aluminum profiles, wherein a vertical rod body which partitions the interior of the window frame into a cord fabric accommodating chamber and a lifter accommodating chamber is arranged at the side part of the window frame; the curtain cloth components are respectively arranged in the upper curtain cloth containing chamber and the lower curtain cloth containing chamber; a lifter assembly disposed in the upper lifter accommodating chamber and the lower lifter accommodating chamber, respectively; two-sided glass fixed on the front and rear inner walls of the window frame and enabling the curtain cloth accommodating chamber and the lifter accommodating chamber to form a closed space; the curtain cloth in the upper curtain cloth containing chamber and the lower curtain cloth containing chamber is lifted through the two lifter assemblies respectively, so that the lower part of the blind window, namely the lower curtain cloth containing chamber, can be shaded, namely the upper curtain cloth containing chamber is not shaded, namely the local shading, and the blind window is reasonable in structural design and high in operability.

Description

Glass fiber plant built-in shutter

Technical Field

The utility model relates to a glass window, especially a fine plant of glass embeds shutter.

Background

The hollow glass louver is a traditional sun-shading product, generally adopts a manual pull rope or a mechanical method to open or close, relies on advanced technology to integrally install the louver curtain in the hollow glass, adopts magnetic force to control the louver curtain in the hollow glass, and can easily lift or turn over for 180 degrees;

however, the existing blind window can only completely or partially shield sunlight, and the upper portion of the existing blind window is shielded based on partial shielding, while the lower portion of the existing blind window is not shielded under the curtain cloth, so that the sunlight enters the blind window, but if the lower portion of the curtain cloth needs to be shielded from light, and the upper portion of the light-shielding portion is not shielded from light, the existing blind window cannot be used.

Disclosure of Invention

The technical problem to be solved by the utility model,

however, as in the related art, the existing built-in blind can only shield light sequentially from top to bottom, and cannot realize an operation mode of shielding light from bottom to top, that is, the lower portion of the blind shields light while the upper portion does not shield light;

the present invention has been made in view of the above problems, and it is an object of the present invention to provide a blind which can perform sunshade from the bottom to the top, that is, can shield the lower part of the blind while the upper part does not perform sunshade operation.

The technical solution for solving the technical problem is that,

a glass fiber plant built-in shutter comprises,

the side part of the window frame is provided with a vertical rod body which divides the interior of the window frame into a cord fabric accommodating chamber and a lifter accommodating chamber;

the aluminum profile is fixedly arranged in the cord fabric accommodating chamber and transversely arranged, and the cord fabric accommodating chamber and the lifter accommodating chamber are divided into an upper cord fabric accommodating chamber, a lower cord fabric accommodating chamber, an upper lifter accommodating chamber and a lower lifter accommodating chamber by the aluminum profile;

the curtain cloth components are respectively arranged in the upper curtain cloth containing chamber and the lower curtain cloth containing chamber;

a lifter assembly disposed in the upper lifter accommodating chamber and the lower lifter accommodating chamber, respectively;

and two-sided glass fixed on the front and rear inner walls of the window frame and making the curtain cloth accommodating chamber and the lifter accommodating chamber form a closed space.

In the technical scheme, the curtain cloth in the upper curtain cloth accommodating chamber and the lower curtain cloth accommodating chamber is respectively lifted through the two lifter assemblies, so that the lower part of the blind window, namely the lower curtain cloth accommodating chamber, can be shielded and the upper curtain cloth accommodating chamber is not shielded, namely, the upper curtain cloth accommodating chamber is partially shielded.

Preferably, the curtain assembly comprises, in combination,

the shaft body penetrates through the cord fabric accommodating chamber and the lifter accommodating chamber, and two ends of the shaft body are rotatably arranged on the inner walls of window frames on the side walls of the cord fabric accommodating chamber and the lifter accommodating chamber;

one end of the cord fabric is fixedly arranged on the rotating shaft;

and the rod body is fixedly arranged at the other end of the curtain cloth.

Preferably, the curtain cloth further comprises light shading plates fixedly arranged on two side walls of the upper curtain cloth accommodating chamber and the lower curtain cloth accommodating chamber and used for shading gaps between the side edges of the curtain cloth and the window frame.

Preferably, the elevator assembly comprises, in combination,

a rope accommodating sleeve fixedly installed on an outer wall of the shaft body portion located in the lifter accommodating chamber;

one end of the fiber rope is fixedly arranged on the outer wall of the fiber rope accommodating sleeve;

the top of the lifter body is fixedly provided with the lifter body at the other end of the fiber rope, and the top surface of the lifter body is fixedly provided with a bar-shaped magnet;

the lifting structure of the curtain cloth is formed by the lifter body and the fiber rope connected between the shaft body and the lifter body.

Preferably, the curtain cloth mounting part is provided with two shielding plates fixedly mounted on the edge of the aluminum profile on the side surface of the curtain cloth mounting part, the fiber rope accommodating sleeve is formed into a roughly hollow cylindrical arrangement, annular convex edges extend outwards from the two end edges of the hollow cylinder along the radial direction, and a fiber rope accommodating sleeve part between the two convex edges forms an accommodating space of the fiber rope.

Preferably, the cross sections of the two shielding plates are rectangular, and the two shielding plates further comprise cuboid iron sheets fixedly installed between the inner walls of the vertical rod bodies and the inner walls of the window frames at two sides of the upper lifter accommodating chamber and the lower lifter accommodating chamber;

first adsorption magnets for adsorbing the cuboid iron sheets are fixedly arranged on two side walls of the lifter body.

The cuboid iron sheet be provided with five groups, interval between two sets of adjacent cuboid iron sheets is the same, every group cuboid iron sheet all has two cuboid iron sheets that two levels set up to constitute, two cuboid iron sheets fixed mounting are on vertical body of rod inner wall and window frame inner wall.

Preferably, the window frame further comprises support blocks fixedly installed on the inner walls of the window frames on the bottom surfaces of the upper and lower elevator accommodating chambers, and the second attracting magnet is fixedly installed on the top surfaces of the support blocks.

The blind window is provided with the upper curtain cloth accommodating chamber and the lower curtain cloth accommodating chamber, namely, the upper part and the lower part of the blind window can be shielded through the curtain cloth in the upper curtain cloth accommodating chamber and the lower curtain cloth accommodating chamber, so that local shielding is realized; gaps, namely shading dead corners, between the curtain cloth and the window frame can be covered through the shading plates, so that the shading effect of the shutter is better to a certain extent; the first adsorption magnets on the two side walls of the lifter body can adsorb the cuboid iron sheets between the inner wall of the vertical rod body and the inner wall of the window frame, so that the lifter body can be hovered at a position where the handle leaves when the handle with the magnets, which is used for moving the lifter body, is taken down, and the curtain cloth can not be shaken due to the fact that the lifter generates displacement in the vertical direction.

Drawings

Fig. 1 is a schematic structural view before use of the present invention;

FIG. 2 is a schematic structural view of the present invention when the complete shading is performed;

FIG. 3 is a schematic structural view of the present invention during local shading;

fig. 4 is a schematic structural view of the lifter body of the present invention.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings so as to facilitate the further understanding of the present invention by those skilled in the art, and do not limit the right thereto.

Example 1, referring to fig. 1 to 4, a glass fiber plant built-in blind, comprising,

the window frame comprises a window frame 1 formed by enclosing aluminum sections, wherein a vertical rod body 2 for partitioning the interior of the window frame 1 into a cord fabric accommodating chamber and a lifter accommodating chamber is arranged on the side part of the window frame 1;

the curtain fabric accommodating chamber and the lifter accommodating chamber are divided into an upper curtain fabric accommodating chamber 3, a lower curtain fabric accommodating chamber 4, an upper lifter accommodating chamber 5 and a lower lifter accommodating chamber 6 by the aluminum profiles which are fixedly arranged in the curtain fabric accommodating chamber and arranged transversely;

curtain cloth components respectively arranged in the upper curtain cloth containing chamber 3 and the lower curtain cloth containing chamber 4;

lifter assemblies respectively disposed in the upper lifter receiving chamber 5 and the lower lifter receiving chamber 6;

and two-sided glass fixed on the front and rear inner walls of the window frame 1 such that the curtain accommodation chamber and the lifter accommodation chamber form a closed space.

In embodiment 1, the window frame 1 is formed as a substantially rectangular parallelepiped frame; the cross section of the vertical rod body 2 is rectangular.

Wherein, in the glass fiber plant built-in shutter described in the application, what aforementioned curtain cloth 7 adopted is glass fiber plant material.

Example 2, the glass fiber plant built-in blind of example 1, the curtain cloth assembly comprises,

a shaft body penetrating through the cord fabric accommodating chamber and the lifter accommodating chamber, wherein two ends of the shaft body are rotatably arranged on the inner walls of the window frames 1 on the side walls of the cord fabric accommodating chamber and the lifter accommodating chamber;

a curtain cloth 7 with one end fixedly arranged on the rotating shaft;

a rod body 8 fixedly arranged on the other end of the curtain cloth 7. The cross section of the rod body 8 is arranged in a circular shape, and the rod body 8 can enable the curtain cloth 7 to move up and down more stably in the lifting process based on the gravity of the rod body, namely the surface of the curtain cloth 7 is in a stretching state.

Embodiment 3, the glass fiber plant built-in blind window of embodiment 2 further includes a light shielding plate 9 fixedly installed on two side walls of the upper curtain fabric accommodating chamber 3 and the lower curtain fabric accommodating chamber 4 and used for shielding a gap between the side edge of the curtain fabric 7 and the window frame 1. The cross section of the shading plate 9 is rectangular.

Embodiment 4, the glass fiber plant built-in blind window of embodiment 3, the lifter assembly comprises,

a rope accommodating sleeve 10 fixedly installed on an outer wall of the shaft body portion located in the lifter accommodating chamber;

a fiber rope 11 having one end fixedly mounted on the outer wall of the fiber rope accommodating sleeve 10;

a lifter body 12 at the other end of the fiber rope 11 is fixedly arranged at the top, and a bar-shaped magnet 13 is fixedly arranged on the top surface of the lifter body 12;

the lifting structure of the curtain cloth 7 is formed by the lifter body 12 and the cord 11 connected between the shaft body and the lifter body 12. The cross section of the lifter body 12 is rectangular.

Embodiment 5, a glass fiber plant built-in blind described in embodiment 4, the fiber rope accommodating sleeve 10 is formed into a substantially hollow cylindrical shape, two end edges of the hollow cylinder are extended outward along a radial direction to form annular protruding edges, and a part of the fiber rope accommodating sleeve 10 between the two protruding edges forms an accommodating space of the fiber rope 11.

Embodiment 6, the glass fiber plant built-in shutter of embodiment 5, further comprising a rectangular iron sheet 14 fixedly installed between the inner walls of the vertical rod bodies 2 and the inner wall of the window frame 1 at both sides of the upper lifter accommodating chamber 5 and the lower lifter accommodating chamber 6;

first adsorption magnets 15 for adsorbing the rectangular iron pieces 14 are fixedly mounted on both side walls of the lifter body 12. The first attracting magnet 15 is rectangular in cross section.

Embodiment 7, embodiment 6 a glass built-in shutter of glass fiber plant, cuboid iron sheet 14 be provided with five groups, interval between two sets of adjacent cuboid iron sheets 14 is the same, every cuboid iron sheet 14 of group all has two cuboid iron sheets 14 of two levels settings to constitute, two cuboid iron sheets 14 fixed mounting are on 2 inner walls of vertical body of rod and 1 inner wall of window frame.

Embodiment 8, the glass fiber plant built-in blind window of embodiment 7, further comprising a supporting block 16 fixedly installed on the inner wall of the window frame 1 at the bottom of the upper and lower lifter accommodating chambers 5 and 6, and a second attracting magnet 17 fixedly installed on the top surface of the supporting block 16. The cross section of the supporting block 16 is rectangular; the second attracting magnet 17 is rectangular in cross section.

The glass fiber plant built-in shutter has two sun-shading forms when in use,

based on total shading, firstly, a handle with a magnet outside is arranged on the outer wall of the window frame 1, and the two lifter bodies 12 are moved to the top of the upper curtain cloth accommodating chamber 3 or the lower curtain cloth accommodating chamber 4 through the handle, so that the other end of the curtain cloth 7 and the rod body 8 are moved to the lower parts of the upper curtain cloth accommodating chamber 3 and the lower curtain cloth accommodating chamber 4 together based on the gravity of the rod body 8;

based on local shading, for example, the upper curtain cloth accommodating chamber 3 does not shade light and the lower curtain cloth accommodating chamber 4 shades light, and at the moment, the purpose that the upper curtain cloth accommodating chamber 3 does not shade light and the lower curtain cloth accommodating chamber 4 shades light can be realized only by driving and moving the lifter body in the lower curtain cloth accommodating chamber 4 through the handle;

during the period, if the handle needs to be taken down, the first adsorption magnets 15 positioned on the two side walls of the lifter body 12 can adsorb the rectangular iron sheet 14 between the inner wall of the vertical rod body 2 and the inner wall of the window frame 1, so that when the handle with the magnet for moving the lifter body 12 is taken down, the lifter body 12 can be suspended at the position where the handle leaves, and the lifter cannot generate vertical displacement to cause the curtain cloth 7 to shake;

when the blind window needs to be carried, the lifter body 12 can be moved to the bottom of the upper curtain fabric accommodating chamber 3 or the lower curtain fabric accommodating chamber 4 through the handle, at this time, the bar magnet 13 on the lifter body 12 is attracted relative to the second attraction magnet 17 on the top surface of the supporting block 16, the lifter body 12 is abutted against the top surface of the supporting block 16 to a certain extent, and at this time, the curtain fabric 7 is in a rolling state, that is, the curtain fabric 7 cannot fall to cause creases on the surface of the curtain fabric 7 due to shaking in the carrying process.

Claims (8)

1. The glass fiber plant built-in shutter is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the side part of the window frame is provided with a vertical rod body which divides the interior of the window frame into a cord fabric accommodating chamber and a lifter accommodating chamber;

the aluminum profile is fixedly arranged in the cord fabric accommodating chamber and transversely arranged, and the cord fabric accommodating chamber and the lifter accommodating chamber are divided into an upper cord fabric accommodating chamber, a lower cord fabric accommodating chamber, an upper lifter accommodating chamber and a lower lifter accommodating chamber by the aluminum profile;

the curtain cloth components are respectively arranged in the upper curtain cloth containing chamber and the lower curtain cloth containing chamber;

a lifter assembly disposed in the upper lifter accommodating chamber and the lower lifter accommodating chamber, respectively;

and two-sided glass fixed on the front and rear inner walls of the window frame and making the curtain cloth accommodating chamber and the lifter accommodating chamber form a closed space.

2. The glass fiber plant built-in blind according to claim 1, characterized in that: the curtain cloth component comprises a curtain cloth component,

the shaft body penetrates through the cord fabric accommodating chamber and the lifter accommodating chamber, and two ends of the shaft body are rotatably arranged on the inner walls of window frames on the side walls of the cord fabric accommodating chamber and the lifter accommodating chamber;

one end of the cord fabric is fixedly arranged on the rotating shaft;

and the rod body is fixedly arranged at the other end of the curtain cloth.

3. The glass fiber plant built-in blind according to claim 2, characterized in that: the curtain cloth is characterized by further comprising light shading plates which are fixedly arranged on two side walls of the upper curtain cloth containing chamber and the lower curtain cloth containing chamber and used for shading gaps between the side edges of the curtain cloth and the window frame.

4. The glass fiber plant built-in blind according to claim 3, characterized in that: the elevator assembly comprises a plurality of elevator components,

a rope accommodating sleeve fixedly installed on an outer wall of the shaft body portion located in the lifter accommodating chamber;

one end of the fiber rope is fixedly arranged on the outer wall of the fiber rope accommodating sleeve;

the top of the lifter body is fixedly provided with the lifter body at the other end of the fiber rope, and the top surface of the lifter body is fixedly provided with a bar-shaped magnet;

the lifting structure of the curtain cloth is formed by the lifter body and the fiber rope connected between the shaft body and the lifter body.

5. The glass fiber plant built-in blind according to claim 4, characterized in that: the fiber rope accommodating sleeve is formed into a roughly hollow cylindrical shape, two end edges of the hollow cylinder extend outwards along the radial direction to form annular convex edges, and a fiber rope accommodating sleeve part between the two convex edges forms a fiber rope accommodating space.

6. The glass fiber plant built-in blind according to claim 5, characterized in that: the device also comprises a cuboid iron sheet fixedly arranged between the inner walls of the vertical rod bodies and the inner wall of the window frame at two sides of the upper lifter accommodating chamber and the lower lifter accommodating chamber;

first adsorption magnets for adsorbing the cuboid iron sheets are fixedly arranged on two side walls of the lifter body.

7. The glass fiber plant built-in shutter according to claim 6, characterized in that: the cuboid iron sheet be provided with five groups, interval between two sets of adjacent cuboid iron sheets is the same, every group cuboid iron sheet all has two cuboid iron sheets that two levels set up to constitute, two cuboid iron sheets fixed mounting are on vertical body of rod inner wall and window frame inner wall.

8. The glass fiber plant built-in shutter according to claim 7, characterized in that: the device also comprises supporting blocks fixedly arranged on the inner walls of window frames on the bottom surfaces of the upper lifter containing chamber and the lower lifter containing chamber, and second adsorption magnets are fixedly arranged on the top surfaces of the supporting blocks.

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