CN105135358A - Optical channel structure used for both natural light and artificial light source and indoor lighting structure - Google Patents

Abstract

The invention relates to a light channel structure and an indoor lighting structure for natural light and artificial light source, including aluminum alloy plates, prisms, lamps and light-transmitting plates, and a rectangular parallelepiped structure surrounded by three aluminum alloy plates and one light-transmitting plate, wherein the aluminum The alloy plate constitutes the three side walls of the cuboid structure, and the light-transmitting plate forms the bottom surface of the cuboid structure, forming a cuboid structure with a natural light opening; the prism is arranged in the cavity of the cuboid structure and parallel to the light-transmitting plate, and the lamps are arranged in the cuboid structure The inner cavity is located between the prism and the light-transmitting plate, forming a light channel structure for both natural light and artificial light. By using the light channel structure using both natural light and artificial light source, the indoor area that can use natural light is greatly increased, and it has the beneficial effects of simple structure, low cost and overall beautiful appearance of the building.

Description

Light channel construction and indoor lighting structure using both natural light and artificial light

technical field

The invention relates to a light channel structure and an indoor lighting structure in which natural light and artificial light sources are used together. The utility model belongs to the technical field of building daylighting and lighting.

Background technique

Compared with artificial lighting, natural lighting has better color rendering and is more beneficial to users' physical and mental health. In a room with a large depth using side lighting, natural lighting attenuates rapidly as the distance from the window increases indoors, and the natural lighting at a position far from the window is extremely low, and the lighting factor is generally lower than 0.5%. The current "Architectural Lighting Design Standards" and "Green Building Evaluation Standards" both make clear regulations on the lighting coefficient of some functional rooms, requiring that the lighting coefficient cannot be lower than a certain value, which is different from the lack of lighting in the rooms of some existing buildings. form a contradiction.

At present, the technical means to improve the illumination of large-depth rooms mainly include: (1) controlling the depth of the room, which has the disadvantage of being limited by the construction site and building structure; (2) increasing the area of the outer window, which has the disadvantage of affecting the structure of the outer wall and the landscape (3) changing the material parameters of the light-transmitting surface or the reflecting surface has the defects of complex structure and high cost. Therefore, these technical means in the prior art all have their corresponding limitations.

Contents of the invention

One of the purposes of the present invention is to provide a natural light and artificial A light channel structure that uses both light sources. It has the characteristics of simple structure, low cost and overall beautiful appearance of the building.

The second purpose of the present invention is to solve the problem that the existing technical means for improving the illumination of large-depth rooms are limited by the building site and building structure, affecting the structure of the outer wall and the landscape or the complex structure, and provide a natural light and artificial light. Indoor lighting structure with light channel structure and light source. It has the characteristics of simple structure, low cost and overall beautiful appearance of the building.

One of purpose of the present invention can be achieved by taking the following technical solutions:

The light channel structure using both natural light and artificial light source is characterized in that it includes aluminum alloy plates, prisms, lamps and light-transmitting plates, and is surrounded by three-sided aluminum alloy plates and one light-transmitting plate to form a cuboid structure, of which the aluminum alloy plates form a cuboid The three side walls of the structure, the light-transmitting plate constitute the bottom surface of the cuboid structure, forming a cuboid structure with a natural light opening; Located between the prism and the light-transmitting plate, it forms a light channel structure that uses both natural light and artificial light.

One of the purposes of the present invention can also be achieved by taking the following technical solutions:

Further, the light-transmitting board may be made of acrylic board.

Further, the visible light transmittance of the propylene plate is greater than or equal to 93%.

Further, the prism can be arranged on the inner sidewall of the three-sided aluminum alloy plate, and its visible light transmittance is greater than or equal to 85%.

Further, the visible light reflectance of the aluminum alloy plate is greater than or equal to 90%.

Further, the lamp has a brightness adjustment structure and is an adjustable lamp.

Two of the purpose of the present invention can be achieved by taking the following technical solutions:

As mentioned above, the indoor lighting structure of the light channel structure using both natural light and artificial light source includes a long and deep room. The top of the type room is equipped with a light channel structure with both natural light and artificial light source, transparent glass B is set at the lighting opening of the light channel structure with natural light and artificial light source, and reflective light is set at the connection between the lighting outer window C and transparent glass B Plate A, forming a solar light reflection structure, so that the sunlight irradiated from top to bottom is reflected to the transparent glass B through the reflective plate A, and enters the inner cavity of the light channel structure with natural light and artificial light source through the transparent glass B, forming A natural light lighting channel constructed by combining natural light and artificial light sources.

The present invention has the following outstanding beneficial effects:

1. The light channel structure used in conjunction with natural light and artificial light sources involved in the present invention is composed of three aluminum alloy plates and one light-transmitting plate to form a cuboid structure. The prism is arranged in the cavity of the cuboid structure and is parallel to the light-transmitting plate. The inner cavity of the cuboid structure is located between the prism and the light-transmitting plate, forming a light channel structure for both natural light and artificial light; Structural restrictions, problems that affect the exterior wall structure and landscape or structural complexity, have beneficial effects such as simple structure, low cost and overall aesthetics of the building.

2. The indoor lighting structure of the present invention, through the use of natural light and artificial light source combined with the light channel structure, can greatly increase the indoor area that can use natural lighting, improve indoor lighting comfort, and save energy consumed by artificial lighting . This structure considers natural lighting and artificial lighting together, reduces the occupation of indoor space, and does not require special ceiling shapes, which is convenient for use in various styles of interior decoration.

3. The present invention allows natural light to be introduced into deep indoor locations to achieve energy-saving effects; at the same time, artificial light sources are also provided to enable indoor illuminance to be adjusted according to the brightness of outdoor natural light and the needs of building users. At the same time, this structure considers daylighting and lighting together, which can save space, ensure the height of the indoor ceiling, and meet the needs of architectural design and interior decoration design.

Description of drawings

Fig. 1 is a structural cross-sectional view of a light channel structure using both natural light and artificial light sources.

Fig. 2 is a schematic diagram of a three-dimensional structure of a light channel structure using both natural light and artificial light sources.

Fig. 3 is a structural schematic diagram of an indoor lighting structure with a light channel structure using both natural light and artificial light sources.

Detailed ways

Specific embodiment 1:

Referring to Fig. 3, the indoor daylighting structure with the light channel structure of natural light and artificial light source related to this embodiment includes a long and deep room, and the long and deep room has a daylighting outer window C to form a solar daylighting structure; The top of the deep room is equipped with a light channel structure using both natural light and artificial light sources, and a transparent glass B is installed at the lighting opening of the light channel structure using both natural light and artificial light sources. The reflective plate A forms a solar reflection structure, so that the sunlight irradiated from top to bottom is reflected to the transparent glass B through the reflective plate A, and enters the inner cavity of the light channel structure with natural light and artificial light source through the transparent glass B, A natural light lighting channel that forms a light channel structure that uses both natural light and artificial light sources.

Referring to Fig. 1 and Fig. 2, the light channel structure for the combination of natural light and artificial light source involved in this embodiment includes an aluminum alloy plate 1, a prism 2, a lamp 3 and a light-transmitting plate 4, and consists of three aluminum alloy plates 1 and one light-transmitting plate The plates 4 form a cuboid structure, wherein the aluminum alloy plate 1 constitutes the three side walls of the cuboid structure, and the light-transmitting plate 4 constitutes the bottom surface of the cuboid structure, forming a cuboid structure with a natural light opening; the prism 2 is arranged in the cavity of the cuboid structure And parallel to the light-transmitting plate 4, the lamp 3 is arranged in the inner cavity of the cuboid structure and is located between the prism 2 and the light-transmitting plate 4, forming a light channel structure for both natural light and artificial light source.

In this example:

Acrylic plate 4 is positioned at the side close to indoor top surface. The light-transmitting plate 4 is made of an acrylic plate. The prism 2 is arranged on the inner wall of the three-sided aluminum alloy plate 1, and its visible light transmittance is greater than or equal to 85%. The visible light reflectance of the aluminum alloy plate 1 is greater than or equal to 90%. The visible light transmittance of the propylene board is greater than or equal to 93%. The lamp 3 has a brightness adjustment structure and is an adjustable lamp.

The principle and function of this embodiment are briefly described below. First, natural light is introduced into the cavity synthesized by three-sided aluminum alloy panels and prisms. Due to the reflection of the aluminum alloy plate, the light can travel a long distance in the cavity. The light in this cavity is then efficiently transmitted through the prisms, which convert all natural light into a soft diffused light suitable for indoor use. In addition, in order to meet the indoor illumination requirements when natural light is insufficient, lamps are installed under the prism. In the end, whether it is natural light or light produced by lamps, it passes through the acrylic board and reaches the interior to meet the light requirements of the interior space.

Referring to Fig. 3, the left side is outdoor, and the right side is indoor; A is an outdoor reflector structure, B is transparent glass, C is an exterior window, and D is a building structure of the present invention. A reflects a part of the sunlight that originally enters the room from the outside through C, and enters D through B. After the light enters D, as mentioned above, the light can be transmitted into a deeper interior space and improve indoor lighting.

In Fig. 3, one of the functions of A is to block part of the excess sunlight, avoiding a large amount of solar radiation entering the room, causing overheating of the room; at the same time, reflecting the light into the building structure of the present invention, so that the indoor lighting is improved .

Claims (7)

1. natural light and artificial light source and optical channel structure, it is characterized in that: comprise aluminium alloy plate (1), prism (2), light fixture (3) and light-passing board (4), rectangular structure is enclosed by three aluminium alloy plates (1) and a light-passing board (4), wherein aluminium alloy plate (1) forms three sidewalls of rectangular structure, light-passing board (4) forms the bottom surface of rectangular structure, forms the rectangular structure with a natural daylight aperture; The cavity that prism (2) is arranged on rectangular structure is interior and parallel with light-passing board (4), light fixture (3) is arranged on the inner chamber of rectangular structure and is positioned between prism (2) and light-passing board (4), form natural light and artificial light source and optical channel structure.

2. natural light according to claim 1 and artificial light source and optical channel structure, it is characterized in that: light-passing board (4) is made up of acrylic panel.

3. natural light according to claim 2 and artificial light source and optical channel structure, it is characterized in that: the visible light transmissivity of acrylic panel is more than or equal to 93%.

4. natural light according to claim 1 and artificial light source and optical channel structure, it is characterized in that: prism (2) is arranged on the madial wall of three aluminium alloy plates (1), and its visible light transmissivity is more than or equal to 85%.

5. natural light according to claim 1 and artificial light source and optical channel structure, it is characterized in that: the visible reflectance of aluminium alloy plate (1) is more than or equal to 90%.

6. natural light according to claim 1 and artificial light source and optical channel structure, it is characterized in that: described light fixture (3) has brightness regulating structure, is adjustable light fixture.

7. natural light according to claim 1 and artificial light source and the indoor lighting structure of optical channel structure, comprise long dark type room, it is characterized in that: the dark type room of described length has daylighting exterior window C, form sun lighting structure; Natural light and artificial light source are set at the top in long dark type room and optical channel structure, at natural light and artificial light source and optical channel structure aperture place clear glass B is set, reflector A is set in the junction of daylighting exterior window C and clear glass B, forms sunshine catoptric arrangement, the sunshine irradiated from top to bottom is made to reflex to clear glass B place by reflector A, and enter natural light and artificial light source by clear glass B and the inner chamber of optical channel structure, form natural light and artificial light source and the natural daylight daylighting passage of optical channel structure.