CN216767227U - Glass light modulation device - Google Patents

Abstract

The utility model relates to the technical field of glass dimming, in particular to a glass dimming device which comprises a fixed sheet, a movable sheet matched with the fixed sheet to slide, and a shading sheet, wherein the shading sheet is arranged on the movable sheet or both the fixed sheet and the movable sheet. When the shading sheet is arranged on the movable sheet, the fixed sheet is fixed at the position corresponding to the glass, the fixed position can be on the glass, a window frame or even a wall, and the fixing mode can be bonding by using glue, double-sided adhesive and the like. When the light is adjusted, the movable sheet is operated to drive the shading sheet to move together, and the effect of adjusting light is achieved by adjusting the size of the area covered by the shading sheet. The shading sheets can also be arranged on the fixed sheets at the same time, when the two shading sheets are overlapped, the covering area is small, the light-transmitting effect is achieved, and when the two shading sheets are separated, the covering area is large, the common shading effect is achieved.

Description

Glass light modulation device

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of glass dimming, in particular to a glass dimming device.

[ background of the utility model ]

Glass is increasingly used in daily application, not only for doors and windows, but also for glass curtain walls, indoor partitions and the like in large quantity. However, glass has permeability to light, may make indoor light too strong, and has the problem of sight line obstruction, and the traditional solution is: the curtain is arranged on the door window or the partition to adjust light, but the curtain has defects, for example, various accessories are required to be added during manufacturing and installation, the production cost is correspondingly increased, a certain installation space is occupied, and the cleaning is troublesome. Later, a scheme of electrifying the polymer light adhesive film attached to the surface of the glass is provided, so that the transparency of the adhesive film is changed to achieve the effect of blocking light, but the scheme is high in manufacturing cost, and high in installation and construction cost and difficulty. With the development of science and technology, the problem of light is solved by adopting a glass film pasting method, but the film pasting method only solves the problem of light obstruction, the light can not be adjusted, and the light effect is in a fixed state.

[ Utility model ] A method for manufacturing a semiconductor device

The utility model provides a glass dimming device, aiming at solving the technical problems of large occupied space, high manufacturing cost and poor adjusting effect in the existing glass dimming scheme.

The utility model is realized by the following technical scheme:

the glass dimming device comprises a fixed sheet, a movable sheet and a light shielding sheet, wherein the movable sheet is matched with the fixed sheet to slide, and the light shielding sheet is arranged on the movable sheet or both the fixed sheet and the movable sheet.

According to the above glass dimming device, the fixed sheet is a magnet and/or the movable sheet is a magnet, and the fixed sheet and the movable sheet are matched through magnetic attraction, so that the movable sheet is limited on the fixed sheet and can slide relatively.

According to the above glass light modulation device, a sliding rail mechanism for relative sliding between the fixed sheet and the movable sheet is arranged between the fixed sheet and the movable sheet, and the movable sheet drives the light shielding sheet to move between the light shielding position and the light transmitting position when sliding relative to the fixed sheet.

According to the glass dimming device, the slide rail mechanism comprises a first slide rail arranged on the fixed sheet and a second slide rail arranged on the movable sheet, and the first slide rail and the second slide rail are matched with each other to limit the movable sheet to slide along the length direction of the fixed sheet.

In the above glass light control device, a positioning mechanism for limiting relative sliding between the fixed sheet and the moving sheet is provided between the fixed sheet and the moving sheet.

The glass dimming device comprises a fixed sheet, a positioning mechanism and a movable sheet, wherein the positioning mechanism comprises a first positioning piece arranged on the fixed sheet and a second positioning piece arranged on the movable sheet, and the first positioning piece and the second positioning piece are matched through magnetic attraction to limit the movable sheet to slide relative to the fixed sheet.

According to the above glass dimming device, the positioning mechanism includes a first fastener arranged on the fixed sheet and a second fastener arranged on the movable sheet, and the first fastener and the second fastener are engaged with each other to limit the sliding of the movable sheet relative to the fixed sheet.

In the above glass light control device, the positioning mechanism includes a gradually changing portion provided on the fixed sheet and/or the moving sheet, and the thickness of the gradually changing portion gradually increases, so that when the moving sheet slides to the gradually changing portion relative to the fixed sheet, the gradually changing portion gradually clamps the fixed sheet and the moving sheet to each other, so as to limit the moving sheet from sliding relative to the fixed sheet.

According to the above glass light modulation device, when the movable sheet slides relative to the fixed sheet, the light shielding sheet is driven to move between the light shielding position and the light transmitting position, and the positioning mechanism is used for keeping the movable sheet at the light shielding position or the light transmitting position.

According to the above glass light modulation device, the light shielding sheet is provided with the light shielding region and the light transmitting region which are alternately arranged in sequence, the light shielding sheet on the fixed sheet is a first light shielding sheet, and the light shielding sheet on the movable sheet is a second light shielding sheet;

when the light shielding area on the first light shielding sheet covers the light transmitting area on the second light shielding sheet, the movable sheet and the second light shielding sheet are in a light shielding position;

when the light shielding area on the first light shielding sheet covers the light shielding area on the second light shielding sheet, the moving sheet and the second light shielding sheet are in a light transmitting position.

Compared with the prior art, the utility model has the following advantages:

according to the glass dimming device, the fixed sheet and the movable sheet are small in size, the good dimming effect is achieved by adopting low-cost installation modes such as adhesion and the like, and the shading sheet is driven to move through sliding fit of the fixed sheet and the movable sheet, so that the effect of adjusting light is achieved. When the shading sheet is arranged on the movable sheet, the fixed sheet is fixed at the position corresponding to the glass, the fixed position can be on the glass, a window frame or even a wall, and the fixing mode can be bonding by using glue, double-sided adhesive and the like. When the light is adjusted, the movable sheet is operated to drive the shading sheet to move together, and the effect of adjusting light is achieved by adjusting the size of the area covered by the shading sheet. The shading sheets can also be arranged on the fixed sheets at the same time, when the two shading sheets are overlapped, the covering area is small, the light-transmitting effect is achieved, and when the two shading sheets are separated, the covering area is large, the common shading effect is achieved. Further, the light shielding sheet may also be provided directly on the glass, similar to the effect provided on the fixing sheet.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is an exploded view of the first embodiment;

FIG. 2 is a schematic view of a light-shielding state according to the first embodiment;

FIG. 3 is a schematic view illustrating a transparent state according to the first embodiment;

FIG. 4 is a top view of FIG. 2;

FIG. 5 is a first schematic structural view of the positioning mechanism;

FIG. 6 is a second schematic view of the positioning mechanism;

FIG. 7 is a plan view of the second embodiment;

fig. 8 is a schematic view showing a state in which the decorative sheet is provided in fig. 2.

[ detailed description ] embodiments

In order to make the technical solutions and the advantages of the technical problems solved by the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 to 6, a glass light modulator includes a fixed sheet 1, a movable sheet 2 sliding in cooperation with the fixed sheet 1, and a light shielding sheet 3, where the light shielding sheet 3 is disposed on the movable sheet 2 or both the fixed sheet 1 and the movable sheet 2.

According to the glass dimming device provided by the embodiment of the utility model, the light shading sheet is driven to move through the sliding fit of the fixed sheet and the movable sheet, so that the effect of adjusting light is achieved. When the shading sheet is arranged on the movable sheet, the fixed sheet is fixed at the position corresponding to the glass, the fixed position can be on the glass, a window frame or even a wall, and the fixing mode can be bonding by using glue, double-sided adhesive and the like. When the light is adjusted, the movable sheet is operated to drive the shading sheet to move together, and the effect of adjusting light is achieved by adjusting the size of the area covered by the shading sheet. The shading sheets can also be arranged on the fixed sheets at the same time, when the two shading sheets are overlapped, the covering area is small, the light-transmitting effect is achieved, and when the two shading sheets are separated, the covering area is large, the common shading effect is achieved. Further, the light shielding sheet may also be provided directly on the glass, similar to the effect provided on the fixing sheet.

Further, as a preferred embodiment of the present invention but not limited thereto, the light-shielding sheet 3 is provided with a light-shielding region 31 and a light-transmitting region 32 alternately arranged in this order, the light-shielding sheet 3 on the fixed sheet 1 is a first light-shielding sheet 33, and the light-shielding sheet 3 on the moving sheet 2 is a second light-shielding sheet 34;

as shown in fig. 2, when the light-shielding region 31 on the first light-shielding sheet 33 covers the light-transmitting region 32 on the second light-shielding sheet, the moving sheet 2 and the second light-shielding sheet 34 are in the light-shielding position;

as shown in fig. 3, when the light-shielding region 31 on the first light-shielding sheet 33 covers the light-shielding region 31 on the second light-shielding sheet, the moving sheet 2 and the second light-shielding sheet 34 are in the light-transmitting position. The light-shielding sheet can be plastic film, fabric, plastic sheet, metal sheet, etc. The light shielding region corresponds to the light transmitting region, and may be in the shape of a square, a rhombus, or the like, in addition to the rectangle in the present embodiment.

Further, as a preferred embodiment of the present invention, but not limited thereto, a slide mechanism 4 is provided between the fixed sheet 1 and the movable sheet 2 for sliding relative thereto, and the movable sheet 2 drives the light shielding sheet 3 to move between the light shielding position and the light transmitting position when sliding relative to the fixed sheet 1. If the light-shielding sheet is provided with the light-shielding regions and the light-transmitting regions alternately arranged in this order as described above, the light-shielding position and the light-transmitting position are also as described above. If the whole piece of the shading sheet has the shading effect, the position of the shading sheet covering the glass window is the shading position, and the position of the shading sheet separating from the glass window is the light transmitting position.

Further, as a preferred embodiment of the present disclosure, but not limited thereto, the slide rail mechanism 4 includes a first slide rail 41 disposed on the fixed sheet 1, and a second slide rail 42 disposed on the moving sheet 2, and the first slide rail 41 and the second slide rail 42 cooperate with each other to limit the sliding of the moving sheet 2 along the length direction of the fixed sheet 1. Besides the structure in the figure, the sliding rail mechanism can also adopt a sliding rail form such as a T-shaped groove.

Further, as a preferred embodiment of the present solution, but not limited thereto, a positioning mechanism 5 for limiting the relative sliding between the fixed sheet 1 and the moving sheet 2 is provided therebetween. The positioning mechanism can fix the relative position of the moving sheet and the fixed sheet, and the current dimming effect is kept. The positioning mechanism may take various forms, and three positioning mechanisms employed in the present embodiment are listed below, as shown in fig. 4-6, which are partial positions of a cross-sectional view of the position a-a of fig. 3, and expressed in the form of three positioning mechanisms:

further, as a preferred embodiment of the present disclosure, but not limited thereto, as shown in fig. 4, the positioning mechanism 5 includes a first positioning member 51 disposed on the fixed sheet 1, and a second positioning member 52 disposed on the movable sheet 2, and the first positioning member 51 and the second positioning member 52 cooperate through magnetic attraction to limit the sliding of the movable sheet 2 relative to the fixed sheet 1. The first positioning piece and/or the second positioning piece are/is a magnet, in particular a magnetic strip, so that the stepless adjustment effect is realized. First setting element can set up on the tip of fixed sheet, and the second setting element can set up on the tip of removing the sheet, when removing the sheet and slide to making first setting element and second setting element mutual magnetism inhale, removes the relative position of sheet and fixed sheet and fixes, keeps current dimming effect.

Further, as a preferred embodiment of the present invention, but not limited thereto, as shown in fig. 5, the positioning mechanism 5 includes a first latch 53 provided on the fixed sheet 1, and a second latch 54 provided on the moving sheet 2, and the first latch 53 and the second latch 54 are engaged with each other to restrict the moving sheet 2 from sliding with respect to the fixed sheet 1. The first buckling part is a concave tooth, the second buckling part is a convex tooth, and the first buckling part and the second buckling part are matched with each other to realize the effect of multi-stage adjustment. When the movable sheet slides to enable the first buckling piece and the second buckling piece to be mutually buckled, the relative position of the movable sheet and the fixed sheet is fixed, and the current dimming effect is kept.

Further, as a preferred embodiment of the present solution, but not limiting, as shown in fig. 6, the positioning mechanism 5 includes a gradually-changing portion 55 provided on the fixed sheet 1 and/or the moving sheet 2, and the thickness of the gradually-changing portion 55 gradually increases, so that when the moving sheet 2 slides on the gradually-changing portion 55 relative to the fixed sheet 1, the gradually-changing portion 55 gradually clamps the fixed sheet 1 and the moving sheet 2 to each other to restrict the moving sheet 2 from sliding relative to the fixed sheet 1.

Further, as a preferred embodiment of the present solution, but not limited thereto, the light-shielding sheet 3 is moved between the light-shielding position and the light-transmitting position by the sliding of the moving sheet 2 relative to the fixed sheet 1, and the positioning mechanism 5 is configured to maintain the moving sheet 2 at the light-shielding position or the light-transmitting position.

Further, as a preferred embodiment of the present solution, but not limited thereto, as shown in fig. 8, the present solution further includes a decoration sheet 6, which can be used to shield the movable sheet and/or the fixed sheet, so as to achieve an aesthetic effect. The installation position of the decorative sheet corresponds to the movable sheet and/or the fixed sheet, and the decorative sheet can be arranged on the outer surface of the movable sheet or the fixed sheet in a sticking way, a magnetic attraction way and the like to shield the movable sheet or the fixed sheet integrally, so that the effect of ugly covering is achieved; the movable sheet material and the fixed sheet material can be arranged on the edge of the window or the wall body at the edge of the window to shield the movable sheet material or the fixed sheet material. The decorative sheet can be made of plastic, metal and the like according to requirements, and the shape can be sheet-shaped, L-shaped and the like according to requirements. When the decorative sheet is L-shaped, one bending part of the decorative sheet is used for shielding the movable sheet or the fixed sheet integrally, and the other bending part is used for being arranged on the edge of the window or the wall body at the edge of the window in a sticking mode and the like.

Example two: as shown in fig. 7, the difference between the present embodiment and the first embodiment is that the fixed sheet 1 is a magnet and/or the movable sheet 2 is a magnet, and the fixed sheet 1 and the movable sheet 2 cooperate through magnetic attraction to limit the movable sheet 2 on the fixed sheet 1 and allow the two to slide relatively. Specifically, the magnet is the magnetic stripe, and the removal sheet adsorbs on fixed sheet, and both can slide relatively, receives the influence of magnetic force, and the slip orbit of removing the sheet is restricted on fixed sheet, not only has the effect of slide rail, but also has the effect of location. At this time, the fixed sheet and the moving sheet serve as a slide rail mechanism and a positioning mechanism, and the bonding surfaces of the fixed sheet and the moving sheet are a first slide rail and a second slide rail respectively.

The working principle of the embodiment is as follows:

according to the glass dimming device provided by the embodiment of the utility model, the light shading sheet is driven to move through the sliding fit of the fixed sheet and the movable sheet, so that the effect of adjusting light is achieved. When the shading sheet is arranged on the movable sheet, the fixed sheet is fixed at the position corresponding to the glass, the fixed position can be on the glass, a window frame or even a wall, and the fixing mode can be bonding by using glue, double-sided adhesive and the like. When the light is adjusted, the movable sheet is operated to drive the shading sheet to move together, and the effect of adjusting light is achieved by adjusting the size of the area covered by the shading sheet. The shading sheets can also be arranged on the fixed sheets at the same time, when the two shading sheets are overlapped, the covering area is small, the light-transmitting effect is achieved, and when the two shading sheets are separated, the covering area is large, the common shading effect is achieved. Further, the light shielding sheet may also be provided directly on the glass, similar to the effect provided on the fixing sheet.

The foregoing is illustrative of embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms set forth herein. Similar to the structure of the method, or several technical deductions or substitutions made on the premise of the conception of the present application, should be regarded as the protection scope of the present application.

Claims (10)

1. A glass light modulation device which characterized in that: the shading device comprises a fixed sheet (1), a movable sheet (2) and a shading sheet (3), wherein the movable sheet (2) is matched with the fixed sheet (1) to slide, and the shading sheet (3) is arranged on the movable sheet (2) or both the fixed sheet (1) and the movable sheet (2).

2. A glass dimmer as defined in claim 1, wherein: the fixed sheet (1) is a magnet and/or the movable sheet (2) is a magnet, and the fixed sheet (1) and the movable sheet (2) are matched through magnetic attraction so as to limit the movable sheet (2) on the fixed sheet (1) and enable the fixed sheet (1) and the movable sheet (2) to slide relatively.

3. A glass dimmer as defined in claim 1, wherein: a sliding rail mechanism (4) for relative sliding of the fixed sheet (1) and the movable sheet (2) is arranged between the fixed sheet (1) and the movable sheet (2), and the movable sheet (2) drives the shading sheet (3) to move between a shading position and a light-transmitting position when sliding relative to the fixed sheet (1).

4. A glass dimmer as defined in claim 3, wherein: the sliding rail mechanism (4) comprises a first sliding rail (41) arranged on the fixed sheet (1) and a second sliding rail (42) arranged on the movable sheet (2), and the first sliding rail (41) and the second sliding rail (42) are matched with each other to limit the movable sheet (2) to slide along the length direction of the fixed sheet (1).

5. A glass dimmer as defined in claim 1, wherein: and a positioning mechanism (5) for limiting the relative sliding of the fixed sheet (1) and the movable sheet (2) is arranged between the fixed sheet and the movable sheet.

6. A glass dimmer as defined in claim 5, wherein: positioning mechanism (5) are including locating first setting element (51) on fixed sheet (1), and locate second setting element (52) on removal sheet (2), first setting element (51) with second setting element (52) are through the cooperation of magnetism, in order to restrict removal sheet (2) are relative fixed sheet (1) slides.

7. A glass dimmer as defined in claim 5, wherein: the positioning mechanism (5) comprises a first buckling piece (53) arranged on the fixed sheet (1) and a second buckling piece (54) arranged on the movable sheet (2), and the first buckling piece (53) and the second buckling piece (54) are mutually buckled to limit the movable sheet (2) to slide relative to the fixed sheet (1).

8. A glass dimmer as defined in claim 5, wherein: the positioning mechanism (5) comprises a gradual change portion (55) arranged on the fixed sheet (1) and/or the moving sheet (2), the thickness of the gradual change portion (55) is gradually increased, so that when the moving sheet (2) slides to the gradual change portion (55) relative to the fixed sheet (1), the gradual change portion (55) enables the fixed sheet (1) and the moving sheet (2) to be gradually clamped with each other, and the moving sheet (2) is limited to slide relative to the fixed sheet (1).

9. A glass dimmer as defined in any one of claims 5-8, wherein: the movable sheet (2) drives the shading sheet (3) to move between a shading position and a light transmitting position when sliding relative to the fixed sheet (1), and the positioning mechanism (5) is used for keeping the movable sheet (2) at the shading position or the light transmitting position.

10. A glass dimmer as defined in claim 1, wherein: a shading area (31) and a light transmitting area (32) which are alternately arranged in sequence are arranged on the shading sheet (3), the shading sheet (3) on the fixed sheet (1) is a first shading sheet (33), and the shading sheet (3) on the movable sheet (2) is a second shading sheet (34);

when the light shielding region (31) on the first light shielding sheet (33) covers the light transmitting region (32) on the second light shielding sheet, the moving sheet (2) and the second light shielding sheet (34) are in a light shielding position;

when the light-shielding region (31) on the first light-shielding sheet (33) covers the light-shielding region (31) on the second light-shielding sheet, the moving sheet (2) and the second light-shielding sheet (34) are in a light-transmitting position.

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