CN106678762B - Glass curtain wall based on optical fiber light source - Google Patents

Abstract

The invention relates to a glass curtain wall based on an optical fiber light source, which comprises a glass curtain wall, a light guide fiber arranged at the edge of the glass curtain wall and a light source arranged at one end of the light guide fiber, wherein the light guide fiber comprises an optical structure for refracting or reflecting light and a light inlet, the optical structure is at least one groove and/or protrusion, and the light source is arranged at the light inlet of the light guide fiber. According to the glass curtain wall based on the optical fiber light source, the optical structure is arranged on the optical fiber, and the optical structures with different structures and shapes are designed according to the shape of the glass curtain wall and the required luminous effect, so that the building and lightening function requirements of the glass curtain wall are met, the glass curtain wall with different luminous effects can be designed according to the requirements of users, the universality is high, and the requirement of diversification of market requirements is met.

Description

Glass curtain wall based on optical fiber light source

Technical Field

The invention relates to the technical field of decorative buildings, in particular to a glass curtain wall based on an optical fiber light source.

Background

Along with the improvement of living standard and economic level, the requirements of people on the brightening environment of the building and the materials used are higher and higher, the glass curtain wall is an indispensable material in the building, the glass curtain wall on the market only can play a role in the building, if the glass curtain wall meets the brightening or illumination function, the brightening or illumination function of the building is required to be performed on the basis, and the installation and other processes are extremely complicated and difficult.

More and more building designs require that the glass curtain wall simultaneously meet building functions and lighting and brightening functions, and that the glass curtain wall has attractive appearance. At present, although a light source is installed on glass in the market, the light source is simply fixed on the edge of the glass, the edge of the glass curtain wall formed in the way is too bright, no light exists in the glass, the requirements of market diversification and strong universality cannot be met, and therefore, a novel glass curtain wall is necessary to be provided, and the problems are solved.

The invention provides a glass curtain wall based on an optical fiber light source, which is effectively combined with optical fibers, so that different luminous effects can be generated on the glass curtain wall, and the glass curtain wall is attractive in appearance.

Disclosure of Invention

The invention aims to solve the technical problem of providing a glass curtain wall based on an optical fiber light source, and the glass curtain wall and the optical fiber are effectively combined, so that different luminous effects can be generated on the glass curtain wall, and the glass curtain wall is attractive in appearance.

In order to solve the technical problems, the invention provides a glass curtain wall based on an optical fiber light source, which comprises a glass curtain wall, a light guide fiber arranged at the edge of the glass curtain wall and a light source arranged at one end of the light guide fiber, wherein the light guide fiber comprises an optical structure for refracting or reflecting light and a light inlet, the optical structure is at least one groove and/or protrusion, and the light source is arranged at the light inlet of the light guide fiber.

Preferably, the light guide fiber is a total reflection light guide fiber, and the glass curtain wall is square in shape.

Preferably, the optical structure is four grooves a arranged on the light guide fiber, the four grooves a are respectively positioned on four sides of the square glass curtain wall, and the four grooves are respectively a first groove a, a second groove a, a third groove a and a third groove a.

Preferably, the four grooves a have the same structure and each of the four grooves comprises a first light-emitting surface a and a second light-emitting surface a, the first light-emitting surface a is in a cambered surface structure, and the second light-emitting surface a is in a plane structure.

Preferably, the four grooves a are respectively positioned at the midpoints of four sides of the square glass curtain wall.

Preferably, the optical structure is at least two grooves b arranged on the light guide fiber, and the at least two grooves b are oppositely arranged and respectively positioned on two opposite sides of the square glass curtain wall.

Preferably, the at least two grooves b have the same structure and each of the grooves comprises a first light-emitting surface b and a second light-emitting surface b, the first light-emitting surface b is in a plane rotator structure, the second light-emitting surface b is in a cambered surface rotator structure, and the second light-emitting surface b is positioned at the top of the first light-emitting surface b.

Preferably, the optical structure is at least one protrusion c disposed on the light guide fiber, the protrusion c is cylindrical, and an included angle is formed between the cylindrical protrusion c and the light guide fiber.

Preferably, the end of the cylindrical protrusion c is hemispherical, and the hemispherical end of the protrusion c is a light-emitting surface c.

Preferably, the glass curtain wall is provided with an optical fiber installation position, the optical fiber is installed as a through hole arranged in the glass curtain wall, the diameter of the through hole is larger than that of the optical fiber, and the optical fiber is installed in the through hole.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the glass curtain wall based on the optical fiber light source, the optical structure is arranged on the optical fiber, and the optical structures with different structures and shapes are designed according to the shape of the glass curtain wall and the required luminous effect, so that the building and lightening function requirements of the glass curtain wall are met, the glass curtain wall with different luminous effects can be designed according to the requirements of users, the universality is high, and the requirement of diversification of market requirements is met.

2. The glass curtain wall based on the optical fiber light source provided by the invention has the advantages that the optical structure is at least one groove and/or protrusion arranged on the light guide fiber, and the at least one groove and/or protrusion is uniformly arranged on the light guide fiber, so that a uniform luminous effect is formed on the glass curtain wall.

Drawings

Fig. 1 is a schematic structural diagram of a glass curtain wall based on an optical fiber light source according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an optical structure of a glass curtain wall based on an optical fiber light source according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a glass curtain wall based on an optical fiber light source according to a second embodiment of the present invention;

fig. 4 is a schematic structural diagram of an optical structure of a glass curtain wall based on an optical fiber light source according to a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a glass curtain wall based on an optical fiber light source according to a third embodiment of the present invention;

fig. 6 is a schematic structural diagram of an optical structure of a glass curtain wall based on an optical fiber light source according to a third embodiment of the present invention.

Detailed Description

In order to better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1-6, a glass curtain wall based on an optical fiber light source comprises a glass curtain wall 1, a light guide fiber 2 arranged at the edge of the glass curtain wall 1, and a light source 3 arranged at one end of the light guide fiber 2, wherein the light guide fiber 2 comprises an optical structure 21 for refracting or reflecting light and a light inlet 22, the optical structure 2 is at least one groove and/or protrusion, and the light source 3 is arranged at the light inlet 22 of the light guide fiber.

The shape of the glass curtain wall 1 is square, round or other regular or irregular shapes, and is arranged on an outer wall or an inner wall of a building for decorating the building, and an optical fiber installation position is arranged on the glass curtain wall, and can be arranged in the glass curtain wall or on the side surface of the glass curtain wall, and the position of the optical fiber installation position is specifically selected according to actual needs.

The light guide fiber 2 is a total reflection light guide fiber, and light entering the light guide fiber is totally reflected, so that the light emitted by the light source 2 is guided to a specific outlet for setting glass curtain walls with different luminous effects.

The light guide fiber 2 comprises an optical structure 21 for refracting or reflecting light and a light inlet 22, wherein the front end of the light inlet 22 is used for installing a light source 3, and light emitted by the light source 3 totally enters the light inlet 22 and is reflected or refracted to the inside of the light guide fiber 2 through the light inlet 22.

The optical structure 21 is disposed in the light guide fiber 2, and is configured to reflect or refract at least part of light in the light guide fiber to the glass curtain wall, so as to achieve different light-emitting effects, and the optical structure 21 is at least one groove and/or protrusion disposed on the light guide fiber 2, and more preferably, the at least one groove and/or protrusion is uniformly disposed on the light guide fiber 2, so that a uniform light-emitting effect is formed on the glass curtain wall 1. The optical structure of the present invention is described in various embodiments, and is illustrated in detail in the following specific examples.

The light source 3 is disposed at the light inlet 22 of the light guide fiber 2, and the light emitted by the light source 3 is collected through the light inlet 22 and transmitted to the inside of the light guide fiber 2, where the light source 3 is an LED light source, a halogen light source or other fluorescent light sources, and specifically different types of light sources are selected according to actual needs.

The optical structure of the present invention has various embodiments, and the shape of the optical structure and the light emitting effect of the glass curtain wall produced by the shape will be described in detail below by way of specific embodiments.

Example 1

As shown in fig. 1-2, the technical features of this embodiment are basically the same as those described above, and the difference is that, on the glass curtain wall based on the optical fiber light source provided in this embodiment, a diamond-shaped light emitting effect is formed, specifically:

the utility model provides a glass curtain wall based on optic fibre light source, includes glass curtain wall 1, set up in glass curtain wall edge's leaded light fibre 2 and set up in light source 3 of leaded light fibre 2 one end, leaded light fibre 2 includes the optical structure 21 and the light inlet 22 of refraction or reflection light, optical structure 21 is at least one recess and/or arch, light source 3 set up in light inlet 22 of leaded light fibre.

The glass curtain wall 1 is square in shape, through holes are formed in the edge areas of the inside of the glass curtain wall, and the through holes are formed in four edges of the square glass curtain wall and used for installing the light guide fibers.

The light guide fiber 2 is disposed in the through hole and includes an optical structure 21 for refracting or reflecting light and a light inlet 22, the optical structure 21 is four grooves a21a disposed on the light guide fiber, the four grooves a21a are respectively disposed on four sides of the square glass curtain wall 1, and are respectively a first groove a, a second groove a, a third groove a and a third groove a. More preferably, the four grooves a21a are respectively located at the midpoints of the four sides of the square glass curtain wall 1, so that the diamond-shaped luminous effect of the later shape is uniformly distributed on the glass curtain wall 1. The grooves a21a have the same structure and comprise a first light-emitting surface a211a and a second light-emitting surface a212a, wherein the first light-emitting surface a211a is in an arc surface structure, and the second light-emitting surface a212a is in a plane structure.

The light emitted by the light source 3 is collected by the light inlet, enters the optical fiber and is transmitted, part of the light passes through the first light emitting surface a211a of the first groove a, is refracted to the second light emitting surface a212a, is reflected by the second light emitting surface a212a, and the other part of the light directly passes through the second light emitting surface a212a, is refracted, the light refracted or reflected by the second light emitting surface a212a is emitted towards the second groove a, the rest of the light in the optical fiber 2 continues to propagate, passes through the second groove a, and the light refracted or reflected by the second groove a is emitted towards the third groove a, and the like, so that the glass curtain wall with a diamond-shaped luminous effect is formed.

In this embodiment, the optical structure is four grooves a, and in other embodiments, the grooves a may be eight, twelve … … to form a glass curtain wall with a plurality of diamond-shaped light-emitting effects, which is specifically set according to actual needs.

Example two

As shown in fig. 3 to 4, the technical features of this embodiment are basically the same as those described above, and the difference is that, on the glass curtain wall based on the optical fiber light source provided in this embodiment, the light emitting effect is distributed in a matrix, specifically:

the utility model provides a glass curtain wall based on optic fibre light source, includes glass curtain wall 1, set up in the leaded light fibre 2 of glass curtain wall 1 edge and set up in light source 3 of leaded light fibre 2 one end, leaded light fibre 2 includes the optical structure 21 and the light inlet 22 of refraction or reflection light, optical structure 21 is at least one recess and/or arch, light source 3 set up in light inlet 22 of leaded light fibre.

The glass curtain wall 1 is square in shape, through holes are formed in the edge areas of the inside of the glass curtain wall, and the through holes are formed in four edges of the square glass curtain wall and used for installing the light guide fibers.

The light guide fiber 2 is disposed inside the through hole, and includes an optical structure 21 for refracting or reflecting light and a light inlet 22, the optical structure 21 is at least two grooves b21b disposed on the light guide fiber, the at least two grooves b21b are disposed oppositely, and are respectively disposed on two opposite edges of the glass curtain wall having a square structure. The structures of the at least two grooves b21b are the same, each groove comprises a first light-emitting surface b211b and a second light-emitting surface b212b, the first light-emitting surface b211b is of a plane rotator structure, the second light-emitting surface b212b is of a cambered surface rotator structure, and the second light-emitting surface b212b is positioned at the top of the first light-emitting surface b211 b.

The light emitted by the light source 3 is collected by the light inlet, enters the optical fiber and is transmitted, part of the light passes through the first light-emitting surface b211b and is refracted to the second light-emitting surface b212b, the second light-emitting surface b212b reflects the light refracted by the first light-emitting surface b211b, the other part of the light passes through the second light-emitting surface b212b directly and is refracted, the light refracted or reflected by the second light-emitting surface b212b is emitted towards the opposite edges of the edge of the glass curtain wall, so that a strip-shaped luminous effect is formed on the glass curtain wall, and a plurality of grooves b21b can form a plurality of strip-shaped luminous effects, so that the luminous effect distributed in a matrix manner can be formed on the glass curtain wall.

Example III

As shown in fig. 5-6, the technical features of this embodiment are basically the same as those described above, and the difference is that, on the glass curtain wall based on the optical fiber light source provided in this embodiment, the light-emitting effect is distributed in a slant manner, specifically:

the utility model provides a glass curtain wall based on optic fibre light source, includes glass curtain wall 1, set up in the leaded light fibre 2 of glass curtain wall 1 edge and set up in light source 3 of leaded light fibre 2 one end, leaded light fibre 2 includes the optical structure 21 and the light inlet 22 of refraction or reflection light, optical structure 21 is at least one recess and/or arch, light source 3 set up in light inlet 22 of leaded light fibre.

The glass curtain wall 1 is square in shape, through holes are formed in the edge areas of the inside of the glass curtain wall, and the through holes are formed in four edges of the square glass curtain wall and used for installing the light guide fibers.

The light guide fiber 2 is arranged in the through hole and comprises an optical structure 21 for refracting or reflecting light and a light inlet 22, the optical structure 21 is at least one bulge c21c arranged on the light guide fiber, the bulge c21c is cylindrical, an included angle is formed between the cylindrical bulge c21c and the light guide fiber, and the size of the included angle is set according to actual needs; the end of the cylindrical protrusion c21c is hemispherical, and the hemispherical end of the protrusion is a light-emitting surface c211c.

The light emitted by the light source 3 is collected by the light inlet 22, enters the light guide fiber 2, is transmitted, and after part of the light enters the protrusion c21c, the light exits from the light exit surface c211c, and the exit angle is determined by the included angle between the protrusion c21c and the light guide fiber 2, so that a light emitting effect in oblique line distribution can be formed on the glass curtain wall, and in other embodiments, a plurality of protrusions c21c are arranged, so that an array oblique line distribution effect can be formed on the glass curtain wall.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the glass curtain wall based on the optical fiber light source, the optical structure is arranged on the optical fiber, and the optical structures with different structures and shapes are designed according to the shape of the glass curtain wall and the required luminous effect, so that the building and lightening function requirements of the glass curtain wall are met, the glass curtain wall with different luminous effects can be designed according to the requirements of users, the universality is high, and the requirement of diversification of market requirements is met.

2. The glass curtain wall based on the optical fiber light source provided by the invention has the advantages that the optical structure is at least one groove and/or protrusion arranged on the light guide fiber, and the at least one groove and/or protrusion is uniformly arranged on the light guide fiber, so that a uniform luminous effect is formed on the glass curtain wall.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the invention, such changes and modifications are also intended to be within the scope of the invention.

Claims (2)

1. The glass curtain wall based on the optical fiber light source is characterized by comprising a glass curtain wall, light guide fibers arranged at the edge of the glass curtain wall and a light source arranged at one end of the light guide fibers, wherein the light guide fibers comprise optical structures for refracting and reflecting light and light inlets, the optical structures are at least one groove and/or protrusion arranged on the light guide fibers, and the light source is arranged at the light inlets of the light guide fibers;

the light guide fiber is a total reflection light guide fiber, and the glass curtain wall is square in shape;

the edge area inside the glass curtain wall is provided with through holes, and the through holes are arranged at four edges of the square glass curtain wall and are used for installing the light guide fibers;

the optical structure is a groove arranged on the light guide fiber, the groove comprises a first light-emitting surface and a second light-emitting surface, the first light-emitting surface is of a plane rotator structure, the second light-emitting surface is of a cambered surface rotator structure, and the second light-emitting surface is positioned at the top of the first light-emitting surface.

2. The glass curtain wall based on an optical fiber light source as claimed in claim 1, wherein the optical structure is at least two grooves, the at least two grooves are oppositely arranged and are respectively positioned on two opposite sides of the glass curtain wall with a square structure.