CN-224200554-U - Classroom flexible shading structure

Abstract

The utility model relates to the technical field of shading structures, and discloses a classroom flexible shading structure which comprises light-transmitting glass arranged in the sun-facing direction, wherein the light-transmitting glass is provided with a glass surface, a shading plate is attached to the glass surface, a plurality of light holes are formed in the shading plate, the diameters of the light holes are gradually increased along the height direction of the shading plate, hole intervals are formed between adjacent light holes, a plurality of light scattering holes are formed in the hole intervals, and the diameters of the light scattering holes are smaller than those of the light holes. The light shielding plate is directly attached to the glass surface, the light shielding plate is provided with the plurality of light holes, part of light is blocked by the light shielding of the light shielding plate, part of light passes through the light holes in the process of being reflected and weakened, then irradiates into a classroom, part of light passes through the light scattering holes and enters the classroom, part of light can be shielded, part of light is reflected and part of light passes through the light scattering holes, the light passing through the light shielding plate is flexibly weakened, so that the flexible light shielding effect is achieved, curtains are not required to be arranged in the classroom, and the cost is greatly saved.

Inventors

• CHEN YINGZI

Assignees

• 广东金融学院

Dates

Publication Date

20260505

Application Date

20250417

Claims (10)

1. 1. The classroom flexible shading structure is characterized by comprising light-transmitting glass arranged in the sun-facing direction, wherein the light-transmitting glass is provided with a glass surface which is arranged outwards, a shading plate is attached to the glass surface, a plurality of light holes which are arranged in an inner and outer penetrating mode are formed in the shading plate, the diameters of the light holes are gradually increased along the height direction of the shading plate, hole intervals are formed between the adjacent light holes, a plurality of light scattering holes which are arranged in an inner and outer penetrating mode are formed in the hole intervals, and the diameters of the light scattering holes are smaller than those of the light holes.
2. 2. The flexible light shield structure of claim 1 wherein said light shield has an inner facing toward the glass surface and said inner facing is fixedly attached to the glass surface and an outer facing disposed outwardly and said outer facing is disposed in a wave-like curvature.
3. 3. The flexible shading structure for classrooms of claim 2, wherein the outer facing is arranged in a wavy curved manner from top to bottom along the height direction of the shading plate.
4. 4. The flexible shading structure for classrooms of claim 2, wherein the outer facing is provided with a plurality of reflective protrusions thereon, the plurality of reflective protrusions being disposed throughout the outer facing.
5. 5. The flexible shading structure for classrooms of claim 4, wherein the reflective protrusions are arranged in a spherical surface.
6. 6. The flexible light-shielding structure for classrooms of any one of claims 1 to 5, wherein the outer periphery of the light-transmitting aperture has a peripheral side wall disposed circumferentially therearound, the peripheral side wall being coated with a light-reflecting layer.
7. 7. The flexible shading structure for classrooms of claim 6, wherein the central part of the peripheral side wall is arranged in a protruding mode, a central ring is formed on the central ring, a step ring surface is arranged towards the outer surface, and the step ring surface is arranged circumferentially along the periphery of the light hole.
8. 8. The classroom flexible shade structure as defined in claim 7, wherein the step annulus is disposed obliquely inward in an outside-in direction of the step annulus.
9. 9. The flexible light-shielding structure for classrooms of claim 2, wherein the outer periphery of the inner facing is formed with elastic adhesive rings circumferentially arranged along the circumference of the light-shielding plate, the adhesive rings are attached to the glass surface, and a light-transmitting interval is arranged between the inner facing and the glass surface.
10. 10. The flexible shading structure in classrooms as claimed in claim 9, wherein a light-transmitting film is arranged in the light-transmitting space, the periphery of the light-transmitting film is fixedly butted on the adhesive ring, the light-transmitting film and the glass surface are arranged at intervals, and the light-transmitting film and the inner surface are arranged at intervals.

Description

Classroom flexible shading structure Technical Field The utility model relates to the technical field of shading structures, in particular to a classroom flexible shading structure. Background At present, in order to realize better lighting, larger light-transmitting glass is arranged in classrooms of schools, so that more sunlight enters the classrooms, the classrooms are ensured to be bright, and better lighting effect is achieved. However, in the sun direction, sometimes the sunlight is too strong, in order to realize shading, curtains are often arranged in classrooms, when shading is needed, the curtains are directly pulled up, and when lighting is needed, the curtains are pulled up again. In the prior art, curtains are arranged in classrooms, so that the cost is increased, the structure is complex, and sunlight is basically completely shielded after the curtains are pulled, so that the soft shading effect cannot be realized. Disclosure of utility model The utility model aims to provide a classroom flexible shading structure, and aims to solve the problem that flexible shading cannot be realized in a classroom in the prior art. The classroom flexible shading structure comprises light-transmitting glass arranged in the sun-facing direction, wherein the light-transmitting glass is provided with a glass surface which is arranged outwards, a shading plate is attached to the glass surface, a plurality of light holes which are arranged inside and outside in a penetrating manner are formed in the shading plate, the diameters of the light holes are gradually increased along the height direction of the shading plate, hole intervals are formed between the adjacent light holes, and a plurality of light scattering holes which are arranged inside and outside in a penetrating manner are formed in the hole intervals, and the diameters of the light scattering holes are smaller than those of the light holes. Further, the inner side of the light shielding plate is provided with an inner veneer facing the glass surface, the inner veneer is fixedly attached to the glass surface, the outer side of the light shielding plate is provided with an outer veneer facing outwards, and the outer veneer is in wavy bending arrangement. Further, along the height direction of the light shielding plate, the outer facing surface is arranged in a wavy bending manner from top to bottom. Further, the outer veneer is convexly provided with a plurality of reflective protrusions, and a plurality of reflective protrusions are distributed throughout the outer veneer. Further, the outer surfaces of the reflecting bulges are arranged in a spherical shape. Further, the periphery of the light transmission hole is provided with a peripheral side wall which is arranged in a surrounding mode, and the peripheral side wall is coated with a light reflecting layer. Further, the middle part of periphery lateral wall is protruding to be arranged, is formed with the middle part ring, be formed with on the middle part ring and arrange the step anchor ring towards outer wainscot, the step anchor ring is encircleed along the circumference of light trap and is arranged. Further, the step annulus is disposed obliquely inward in the outside-in direction of the step annulus. Further, an elastic adhesive ring is formed on the periphery of the inner veneering, the adhesive ring is circumferentially arranged along the periphery of the light shielding plate, the adhesive ring is attached to the glass surface, and a light transmission interval is formed between the inner veneering and the glass surface. Further, a light-transmitting film is arranged in the light-transmitting interval, the periphery of the light-transmitting film is fixedly butted on the adhesive ring, the light-transmitting film and the glass surface are arranged at intervals, and the light-transmitting film and the inner surface are arranged at intervals. Compared with the prior art, the classroom flexible shading structure provided by the utility model has the advantages that the shading plate is directly attached to the glass surface, the plurality of light holes are formed in the shading plate, part of light is blocked by shading of the shading plate, part of light passes through the light holes, is weakened through reflection in the light holes and then irradiates into a classroom, part of light passes through the light scattering holes and enters the classroom, partial shading, partial reflection and partial penetrating lamp can be realized, the light passing through the shading plate is weakened flexibly, so that the flexible shading effect is realized, curtains are not required to be arranged in the classroom, and the cost is greatly saved. Drawings FIG. 1 is a schematic front view of a classroom flexible shade structure provided by the present utility model; FIG. 2 is an enlarged schematic view at A in FIG. 1; Fig. 3 is an internal schematic view of the light shielding plate provided by the utilit