CN112962873A - Multiple shading adjusting skylight and adjusting method thereof - Google Patents

Abstract

The invention discloses a multiple shading adjusting skylight, which relates to the field of building lighting, and adopts the technical scheme that the skylight comprises a window surface and a frame, wherein a light-transmitting film is paved on the window surface, the light-transmitting film forms a concave-convex staggered structure on the window surface, and the shading degree of a concave surface and a convex surface of the light-transmitting film is greater than that of the light-transmitting film on the inclined surface of the light-transmitting film; the bottom of the frame is provided with a support frame with adjustable angle and direction; the inner side of the skylight is provided with an inductor for inducing temperature and lighting degree; the window surface is of a sandwich structure and comprises outer-layer common glass and inner-core ventilation glass, the side surface of the ventilation glass is provided with a ventilation hole, and the inner side of the frame is provided with a ventilation pipeline connected with the ventilation; the technical effect is that the daylighting degree and the ventilation degree can be adjusted according to the weather condition.

Description

Multiple shading adjusting skylight and adjusting method thereof

Technical Field

The invention relates to the field of building lighting, in particular to a multiple shading adjusting skylight and an adjusting method thereof.

Background

The skylight is a common structure in a building, the glass of the skylight is usually arranged on the roof, the skylight lighting and ventilation efficiency is high, the indoor lighting degree can be effectively increased, and the indoor environment is brighter; when the skylight is opened, the ventilation of indoor and outdoor air can be increased, and indoor air is fresh. However, the existing skylight usually has only two states of closing and opening, and cannot be correspondingly adjusted according to the actual weather conditions.

At present, chinese patent with publication number CN110158868B discloses a skylight structure of a green building and the green building, which is installed at an opening (a) of a roof of the green building, and includes a light transmission assembly (1), a protective screen assembly (2), and a driving assembly (3); under the action of the driving component (3), the light-transmitting component (1) and the protective net component (2) can respectively move to the opening (a) and cover the opening (a).

Although the skylight structure of the green building and the green building can adjust the opening and closing degree of the skylight, the skylight structure only adjusts the ventilation condition of the skylight, and does not improve the lighting degree under different lighting conditions.

Disclosure of Invention

The invention aims to provide a multiple shading adjusting skylight which has the advantage of adjusting the daylighting degree and the ventilation degree in multiple levels according to the weather conditions.

The technical purpose of the invention is realized by the following technical scheme:

a multiple shading adjustment skylight comprises a window surface and a frame, wherein a light-transmitting film is laid on the window surface, a concave-convex staggered structure is formed on the window surface by the light-transmitting film, and the shading degree of a concave surface and a convex surface of the light-transmitting film is greater than that of the light-transmitting film on the inclined surface of the light-transmitting film; the bottom of the frame is provided with a support frame with adjustable angle and direction; the inner side of the skylight is provided with an inductor for inducing temperature and lighting degree;

the window surface is of a sandwich structure and comprises outer-layer common glass and ventilation glass of the inner core, ventilation holes are formed in the side faces of the ventilation glass, and ventilation pipelines connected with ventilation are arranged on the inner sides of the frames.

By adopting the technical scheme, the natural phenomenon that the sun irradiates the ground at different angles at different time is utilized to shield the sun illumination with different intensities to different degrees, so that the indoor environment is always kept in a relatively uniform and comfortable illumination environment; meanwhile, through the adjustment of the support frame, proper ventilation can be performed according to the difference of the temperature and the wind power in the same day, so that the over-high or over-low indoor temperature is prevented; the interbedded design of window face can carry out certain temperature that separates on the one hand, prevents that the window face from hazing, and the ventilation hole in the interbedded on the other hand can prevent to keep in the state of ventilating a little when debris fall into.

Further setting: the light-transmitting film is a bonding object of SiO2 aerogel and a polyvinyl chloride film.

By adopting the technical scheme, the SiO2 aerogel is amorphous, so that the shape of the aerogel can be changed in a melting state, the surrounding transparent film with the surface provided with multiple cutting surfaces is prepared, and light rays are dispersed from a microscopic level.

Further setting: in the light-transmitting film, SiO2 aerogel is attached to the upper surface of a polyvinyl chloride film, then the SiO2 aerogel is extruded and formed by a pressing die which is inwards concave and has a multi-cut surface on the inner surface at the temperature of 150 ℃, the pressing die is removed, and the light-transmitting film is cooled to the normal temperature.

Through adopting above-mentioned technical scheme, utilize the aerogel to be the amorphous substance, do not have the characteristic of fixed melting point, make its convenient design through the heating earlier, then the deformation is avoided in the sectional type cooling, ensures the stability of shape.

Further setting: the printing opacity membrane side is equipped with the slider, be equipped with on the frame with slider assorted spout, the pulley can move on the spout.

Through adopting above-mentioned technical scheme, the slider removes on the spout, can drive the printing opacity membrane and fold on one side in the skylight or lay on the window face.

Further setting: the support frame includes the rhombus folded sheet of bottom mounting panel and vertical setting, the strong point of rhombus folded sheet is equipped with articulated post.

Through adopting above-mentioned technical scheme, articulated post can change the contained angle between the folding plate, makes the rhombus folding plate can upwards expand or shrink downwards and then control the hole of skylight side.

Further setting: a mosquito-proof protective net is arranged on the outer side of the supporting frame; and the bottom support plate of the support frame is provided with a recovery cavity for placing the rhombic folding plate.

By adopting the technical scheme, the protective net can play a role of protection when the supporting plate is unfolded, so that mosquitoes or fallen leaves in the external environment and the like are prevented from entering a house; when not needing the ventilation, the rhombus folded sheet can be retrieved and stack in retrieving the intracavity, guarantees that the skylight has good leakproofness.

Further setting: the mouth of pipe of air pipe be equipped with air pipe size the same shelters from the piece, shelter from the piece through locating the plectrum regulation and control of air pipe side.

Through adopting above-mentioned technical scheme, through adjusting plectrum adjustment ventilation hole and air pipe's ventilation state and encapsulated situation, and then change the skylight and be in encapsulated situation or the state of ventilating a little.

Another object of the present invention is to provide a method for adjusting a heavy shading adjusting sunroof, which has an advantage of being able to adjust a daylighting degree and a ventilation degree according to weather conditions.

The technical purpose of the invention is realized by the following technical scheme.

A method for adjusting multiple shading adjusting skylights comprises the following specific steps:

s1: fixing the multiple shading adjusting skylight at the corresponding position of the roof, wherein the multiple shading adjusting skylight is in an initial state, the supporting frame is contracted, and the light-transmitting film is laid on the surface of the outer layer of the skylight;

s2: when the sun shines directly on the ground at noon, the ultraviolet rays are strong, at the moment, the light enters the room through the films with the concave surfaces and the convex surfaces of the light-transmitting films, the shading force is strong, and the indoor sunlight is prevented from being too dazzling; when the sun obliquely irradiates the ground, light enters the room through the inclined plane of the light-transmitting film, the shading force is weak, and sufficient indoor illumination is ensured;

s3: in rainy days, the light-transmitting film can be folded and stacked to one side of the skylight through the sliding block and the sliding groove, and light is not shielded, so that sufficient indoor illumination is ensured;

s4: according to the weather difference, the support frame can contract or expand the effect, forms the space between the side of skylight and roof, through the ventilation degree of adjustment skylight of the size adjustment space.

Further setting: the relative height of the four sides of the support frame is adjustable, and the shading effect is adjusted by adjusting the inclination angle of the skylight.

Through adopting above-mentioned technical scheme, on the basis of natural regulation, the inclination in regulation skylight and then adjustment shading effect by a larger margin for the shading degree in skylight more is close to weather and people's demand.

Further setting: the skylight can be controlled to be in a fully closed and slightly ventilated state by adjusting the shielding sheets on the frame.

By adopting the technical scheme, the ventilation state can be adjusted to be a micro-ventilation state when the air in the room is not required to be ventilated but is completely sealed, and the daily ventilation is ensured without cooling.

In conclusion, the invention has the following beneficial effects:

1. the light-transmitting film is specially treated by utilizing the natural phenomenon that the sun irradiates the ground at different angles at different time, so that the light-transmitting film has a microscopic multi-surface scattering function, and shields the sun illumination with different intensities and different angles to different degrees, so that the indoor environment is always kept in a relatively uniform and comfortable illumination environment;

2. meanwhile, through the adjustment of the support frame, proper ventilation can be performed according to the difference of the temperature and the wind power in the same day, so that the over-high or over-low indoor temperature is prevented; when the support frame is not required to be unfolded, the sealing degree of the skylight can be ensured, and a micro-ventilation state suitable for daily use is also set;

3. the design of the window surface interlayer can insulate the temperature to a certain extent on one hand, so that the window surface is prevented from fogging, meanwhile, the heat insulation effect of the interlayer is better than that of single-layer glass, and heat can be prevented from being dissipated in winter.

Drawings

FIG. 1 is a schematic view of a multiple shading adjustment skylight;

FIG. 2 is a schematic side view of a multiple shading adjustment skylight;

FIG. 3 is a partial schematic view of a multiple shade-adjusting skylight at A;

FIG. 4 is a schematic view of a supporting point in a multiple shading adjustment skylight;

in the figure, 1, window surface; 2. a frame; 3. a light transmissive film; 4. a support frame; 5. an inductor; 6. common glass; 7. a ventilation glass; 8. a vent hole; 9. a ventilation duct; 10. a protective net; 11. a shielding sheet; 12. a shifting sheet;

301. a concave surface; 302. a convex surface; 303. a bevel; 304. a slider; 305. a chute;

401. a bottom bracket plate; 402. a rhombus folding plate; 403. a support point; 404. a hinged column; 405. a recovery chamber; 406. a strip-shaped plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

First preferred embodiment:

a multiple shading adjustment skylight is shown in figure 2 and comprises a window surface 1 and a frame 2;

as shown in fig. 1 and 3, a light-transmitting film 3 is laid on the window surface 1, and the light-transmitting film 3 forms a light-transmitting structure with a concave surface 301, a convex surface 302 and an inclined surface 303 on the window surface 1.

The light-transmitting film 3 is an adhesive of SiO2 aerogel and a polyvinyl chloride film, SiO2 aerogel is attached to the upper surface of the polyvinyl chloride film, then the SiO2 aerogel is extruded and formed at the temperature of 150 ℃ through a pressing die which is concave inwards and the inner surface of the pressing die is provided with a plurality of cutting surfaces, the pressing die is cooled to 60 ℃, and the pressing die is removed and the cooling is carried out to the normal temperature.

The aerogel is an amorphous substance without the characteristic of fixed melting point, is conveniently shaped by heating, and is cooled in a sectional manner to avoid deformation, so that the stability of the shape is ensured.

Like this just with in the sun shine the roof ultraviolet intensity big when directly, and during morning or afternoon sun oblique incidence roof, ultraviolet intensity is not so big, chooses for use the different printing opacity membrane 3 of the number of piles can the sunshine of balanced different intensity, makes the indoor illumination that receives more balanced, has increased the comfort level in house.

The side of the light-transmitting film 3 is also provided with a sliding block 304, the frame 2 is provided with a sliding groove 305 corresponding to the sliding block 304, the sliding block 304 can move on the sliding groove 305, the light-transmitting film 3 is controlled to be unfolded and paved on the skylight or retracted to one side of the skylight, when the light-transmitting film 3 is retracted, the skylight has the strongest lighting performance, the skylight is more suitable for rainy days or seasons with weak sunlight irradiation in winter, and the applicability of the skylight is improved.

As shown in fig. 4, a supporting frame 4 capable of adjusting the angle and direction is arranged at the bottom of the side edge of the frame 2, the supporting frame 4 comprises a bottom supporting plate 401 and a rhombic folding plate 402 vertically arranged, the rhombic folding plate 402 is hollow and comprises four strip plates 406 spliced into a rhombus, and the middle of the rhombic folding plate is hollow; the gathering point of the strip-shaped plates 406 with different rhombuses is a supporting point 403 of the rhombus folding plate 402, the supporting point 403 is arranged on the hinge column 404, the strip-shaped plates 406 are hinged, the angle between the strip-shaped plates 406 can be changed, the rhombus folding plate 402 can be compressed or extended through the change of the angle, and the height of the skylight can be adjusted; a recovery cavity 405 for placing the rhombic folding plate 402 is formed in the side edge of the support plate of the support frame 4, and when large-area ventilation is not needed, the rhombic folding plate 402 is stacked in the recovery cavity 405, so that the condition of air leakage and rain leakage around a skylight is avoided; the protective net 10 is further arranged on the outer side of the rhombic folding plate 402, and the protective net 10 is formed by fine net yarns, so that sundries in environments such as mosquitoes or fallen leaves can be prevented from entering a room, and the cleanness and tidiness of the room are guaranteed.

The inner side of the skylight is also provided with a sensor 5 for sensing temperature and room illumination, and the sensor 5 can help people to judge the lighting condition and the ventilation condition which should be selected at the moment.

As shown in fig. 1 and 2, the glass of the skylight is of a sandwich structure, and comprises outer-layer common glass 6 and ventilation glass 7 with an inner core, wherein the side surface of the ventilation glass 7 is provided with a ventilation hole 8, the ventilation hole 8 is divided into an air inlet above and an air outlet below, the air inlet and the air outlet are communicated, the side surface of the frame 2 is provided with a ventilation pipeline 9 communicated with the outside, and the other side of the ventilation pipeline 9 is communicated with the air inlet, so that when the support frame 4 is retracted, fine air enters the air inlet from the ventilation pipeline 9 and then enters the inside from the air outlet, and the indoor air can flow finely, and the indoor air can be improved on the premise that the indoor temperature can not be greatly reduced.

The outside pipe orifice of the ventilation pipeline 9 is provided with a shielding piece 11, the shielding piece 11 is regulated and controlled by a shifting piece 12 arranged on the side surface of the ventilation pipeline 9, when the shifting piece 12 controls the shielding piece 11 to seal the ventilation pipeline 9, the skylight is in a completely closed state, and when the shifting piece 12 controls the shielding piece 11 to move away, the skylight is in a micro-ventilation state.

The sandwich structure of the glass strengthens the heat insulation performance of the glass, can effectively avoid the phenomenon of fogging of the skylight, and when the skylight is in a closed state, the sandwich structure of the glass can prevent indoor hot air from diffusing outdoors in winter, so that less heat is dissipated, outdoor hot air can be prevented from entering indoors in summer, the effect of being warm in winter and cool in summer is achieved, and the living comfort level is increased.

The invention also provides an adjusting method of the multifunctional skylight, which needs to use the multiple shading adjusting skylight in the invention and specifically comprises the following steps:

s1: fixing the multiple shading adjusting skylight at the corresponding position of the roof, wherein the multiple shading adjusting skylight is in an initial state, the support frame 4 contracts, and the light-transmitting film 3 is laid on the outer layer surface of the skylight;

s2: when the sun shines directly on the ground at noon, the ultraviolet rays are strong, at the moment, the light enters the room through the films of the concave surface 301 and the convex surface 302 of the light-transmitting film 3, the shading force is strong, and the indoor sunlight is prevented from being too dazzling; when the sun obliquely irradiates the ground, light enters the room through the inclined plane 303 of the light-transmitting film 3, the shading force is weak, and sufficient indoor illumination is ensured;

s3: in rainy days, the light-transmitting film 3 can be folded and stacked to one side of the skylight through the sliding block 304 and the sliding groove 305, and light is not shielded, so that sufficient indoor illumination is ensured;

s4: according to the weather difference, support frame 4 can contract or the expansion effect, forms the space between the side of skylight and the roof, through the ventilation degree of adjustment skylight of the size adjustment space.

Further setting: the relative height of the four sides of the support frame 4 is adjustable, and the shading effect is adjusted by adjusting the inclination angle of the skylight.

The method also comprises the following different method steps,

on the basis of the step S4, the tilt angle of the skylight can be adjusted to a greater extent so as to adjust the shading effect, so that the shading degree of the skylight is closer to the weather and the requirements of people, for example, when people need to have a rest, the skylight can be tilted to reduce the lighting degree of the skylight, and the skylight is more suitable for people to have a rest.

In daily use, the skylight can be controlled to be in a completely closed and slightly ventilated state by adjusting the shielding sheets 11 on the frame 2.

The above-mentioned embodiments are merely illustrative and not restrictive, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but only protected by the patent laws within the scope of the claims.

Claims (10)

1. The utility model provides a skylight is adjusted in multiple shading, includes window and frame, its characterized in that: a light-transmitting film (3) is laid on the window surface (1), the light-transmitting film (3) forms a concave-convex staggered structure on the window surface (1), and the shading degree of a concave surface (301) and a convex surface (302) of the light-transmitting film (3) is greater than that of the light-transmitting film (3) of the inclined surface (303) of the light-transmitting film (3); the bottom of the frame (2) is provided with a support frame (4) with adjustable angle and direction; an inductor (5) for inducing temperature and light collection degree is arranged on the inner side of the skylight;

the window surface (1) is of a sandwich structure and comprises outer common glass (6) and ventilation glass (7) with an inner core, ventilation holes (8) are formed in the side face of the ventilation glass (7), and ventilation pipelines (9) connected with ventilation are arranged on the inner side of the frame (2).

2. The multiple shade-adjustable skylight of claim 1, wherein: the light-transmitting film (3) is an adhesive of SiO2 aerogel and a polyvinyl chloride film.

3. The multiple shade adjustment skylight of claim 2, wherein: in the light-transmitting film (3), SiO2 aerogel is attached to the surface of the upper layer of the polyvinyl chloride film, then the SiO2 aerogel is extruded and formed by a pressing die which is inwards concave and has a multi-cut surface on the inner surface at the temperature of 150 ℃, the pressing die is removed, and the cooling is carried out to the normal temperature.

4. The multiple shade-adjustable skylight of claim 1, wherein: the side edge of the light-transmitting film (3) is provided with a sliding block (304), the frame (2) is provided with a sliding groove (305) matched with the sliding block (304), and the pulley can move on the sliding groove (305).

5. The multiple shade-adjustable skylight of claim 1, wherein: the support frame (4) comprises a bottom support plate (401) and a vertically arranged rhombic folding plate (402), and hinge columns (404) are arranged at support points (403) of the rhombic folding plate (402).

6. The multiple shade adjustment skylight of claim 5, wherein: a protective net (10) for preventing mosquitoes is arranged on the outer side of the support frame (4); and a recovery cavity (405) for placing the rhombic folding plate (402) is arranged on the bottom support plate (401) of the support frame (4).

7. The multiple shade-adjustable skylight of claim 1, wherein: the mouth of pipe of air pipe (9) be equipped with air pipe (9) the same size shelter from piece (11), shelter from piece (11) through locating plectrum (12) regulation and control of air pipe (9) side.

8. A method for adjusting multiple shading adjusting skylights is characterized by comprising the following steps: with a multiple shade adjustment skylight of any of claims 1-7; the specific method comprises the following steps:

s1: fixing the multiple shading adjusting skylight at the corresponding position of the roof, wherein the multiple shading adjusting skylight is in an initial state, the support frame (4) is contracted, and the light-transmitting film (3) is laid on the outer layer surface of the skylight;

s2: when the sun shines directly on the ground at noon, the ultraviolet rays are strong, at the moment, the light enters the room through the films of the concave surface (301) and the convex surface (302) of the light-transmitting film (3), the shading force is strong, and the indoor sunlight is prevented from being too dazzling; when the sun obliquely irradiates the ground, light enters the room through the inclined plane (303) of the light-transmitting film (3), the shading force is weak, and sufficient indoor illumination is ensured;

s3: in rainy days, the light-transmitting film (3) can be folded and stacked to one side of the skylight through the sliding block (304) and the sliding groove (305), so that shading is not performed, and sufficient indoor illumination is ensured;

s4: according to different weathers, the supporting frame (4) can contract or expand to form a gap between the side surface of the skylight and the roof, and the ventilation degree of the skylight is adjusted by adjusting the size of the gap.

9. The multiple shading-adjustment skylight adjustment method of claim 8, characterized in that: the relative height of the four sides of the support frame (4) is adjustable, and the shading effect is adjusted by adjusting the inclination angle of the skylight.

10. The multiple shading-adjustment skylight adjustment method of claim 8, characterized in that: the skylight is controlled to be in a completely closed and micro-ventilation state by adjusting the shielding sheets (11) on the frame (2).

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