CN216789930U - Extensible flexible illumination exposure system - Google Patents

Abstract

The utility model discloses an expandable flexible lighting exposure system which comprises light source fixing monomers, wherein a connecting rod is arranged between the light source fixing monomers, and the light source fixing monomers are connected with the connecting rod through a ball pair structure. By utilizing the detachable ball pair structure, the number of the light source fixing monomers can be flexibly selected to form different shapes, and the light source fixing monomers can be flexibly bent to carry out flexible curved surface fitting. The utility model has the beneficial effects that: the light source fixing single body and the connecting rod in a uniform shape are convenient for batch production, and have extremely low cost and simple installation; the ball pair connection among the light source fixing monomers ensures the sufficient freedom degree of movement and is convenient for expansion; the light source fixing mode solves the problem of heat dissipation, and the problem of contact scalding is solved because the light source fixing mode cannot directly contact the illuminated surface.

Description

Extensible flexible illumination exposure system

Technical Field

The utility model relates to an illumination system, in particular to a multi-point array type extensible flexible illumination exposure system.

Background

The application field of the UV glue can relate to the ultraviolet curing of a complex curved surface coated with the UV glue. In the fields of medical cosmetology and neonatal jaundice treatment, light or laser with special wavelength needs to be used for continuously irradiating the affected skin or the whole body.

The traditional method at present uses a non-deformable light source, and is carried out by controlling the motion track of the light source or a scattering mode. For the light source applied in the above fields, the heat productivity is large, and the light source needs to be cooled by passive or even active cooling equipment, so that the mobile system of the light source is complex.

In the fields of medical cosmetology and neonatal jaundice treatment, patients need to be completely exposed to the skin of an affected part, particularly neonatal jaundice patients, who need to be exposed to the skin of the whole body, and particularly eyes are protected from ultraviolet light. In the environment with low temperature, the treatment is difficult to implement, and the occlusion of eyes is very easy to cause discomfort of the newborn and cannot be matched with the treatment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: the extensible flexible illumination exposure system is provided, and the problem that the existing illumination exposure system has many defects is solved.

The purpose of the utility model is realized by the following technical scheme:

an extensible flexible lighting exposure system comprises light source fixing single bodies, a connecting rod is arranged between the light source fixing single bodies, and the light source fixing single bodies are connected with the connecting rod through a ball pair structure. By utilizing the detachable ball pair structure, the number of the light source fixing monomers can be flexibly selected to form different shapes, and the light source fixing monomers can be flexibly bent to carry out flexible curved surface fitting.

Furthermore, the light source fixing monomer is of a hexagonal structure, and the side edges of the light source fixing monomer are provided with ball pair structures. The honeycomb arrangement is formed by a hexagonal structure.

Furthermore, the light source fixing unit comprises a light source fixing plate, and an illumination light source is arranged on the light source fixing plate. The light source fixing plate is a main body structure for installation.

Further, the illumination light source is an LED ultraviolet light source. Similarly, different types and functions of the ultraviolet light source can be selected according to different lighting requirements.

Furthermore, the light source fixing plate is connected with the heat dissipation back plate, the illumination light source is clamped between the light source fixing plate and the heat dissipation back plate, and the illumination light source is in close contact with the heat dissipation back plate. And the heat dissipation backboard is used for dissipating heat and cooling the illumination light source.

Furthermore, a radiating grid is arranged on the radiating back plate. Similarly, other structures for dissipating heat may be used according to the heat dissipation requirement.

Furthermore, heat-conducting silica gel is arranged between the illumination light source and the heat dissipation back plate. Likewise, other heat transfer media may be used, or no heat transfer media may be used.

Furthermore, the light source fixing plate is connected with a light source front panel, and a light filter is arranged on the light source front panel. The optical filter filters and shapes the irradiation light.

Furthermore, the light source fixing plate is connected with a light source front panel, and the light source front panel is made of silicon rubber. And flexible attachment of the irradiation surface is realized by using a flexible light source fixing plate.

Further, the connection is bonding, screw thread or snap connection. Likewise, other connection means may be used.

Furthermore, a hollow wire groove is arranged in the connecting rod, so that the power supply wire for the lighting source is inserted into the connecting rod.

Furthermore, the ball pair structure comprises a ball pair groove and a ball pair head, the ball pair groove is arranged on the light source fixing monomer, and the ball pair head is arranged at two ends of the connecting rod.

The utility model has the following realized functions:

1. can provide good support and heat dissipation for the light source, and the cooling surface can not direct contact by the object or the human body of illumination, prevents to scald.

2. The light source can be well attached to the curved surface to be illuminated, namely, the light source has certain flexibility.

3. To accommodate lighting applications of different areas, scalability is also needed, enabling the number of light sources to be combined or reduced depending on the area to be illuminated.

The utility model has the beneficial effects that:

1. the light source fixing monomer and the connecting rod in the uniform shape are convenient for batch production, and have extremely low cost and simple installation.

2. The ball pair connection among the light source fixing monomers ensures sufficient freedom degree of movement and is convenient for expansion.

3. The light source fixing mode solves the problem of heat dissipation, and the problem of contact scalding is solved because the light source fixing mode cannot directly contact the illuminated surface.

The main scheme and the further selection schemes can be freely combined to form a plurality of schemes which are all adopted and claimed by the utility model; in the present invention, the selection (each non-conflicting selection) and the other selections can be freely combined. The skilled person in the art can understand that there are many combinations, which are all the technical solutions to be protected by the present invention, according to the prior art and the common general knowledge after understanding the scheme of the present invention, and the technical solutions are not exhaustive herein.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is a schematic structural diagram of a light source fixing unit according to the present invention.

Fig. 3 is a schematic view of the construction of the coupling rod of the present invention.

In the figure: 1-light source fixing monomer, 2-connecting rod, 3-ball pair structure, 11-radiating backboard, 12-light source fixing board, 13-light source front panel, 21-wire groove, 31-ball pair groove, 32-ball pair head.

Detailed Description

The utility model will be further described with reference to specific embodiments and the accompanying drawings.

Referring to fig. 1 to 3, an expandable flexible illumination exposure system includes a light source fixing unit 1, a coupling rod 2, and a ball pair structure 3.

The light source fixing single bodies 1 are of a hexagonal structure, the light source fixing single bodies 1 are arranged in a honeycomb mode, the connecting rods 2 are arranged between the light source fixing single bodies 1, and the light source fixing single bodies 1 are connected with the connecting rods 2 through the ball pair structures 3. Through the nimble dismouting of ball pair structure, can be according to the illumination area of difference, the fixed monomer 1's of combination light source quantity forms the lighting system that the shape is different from each other. Through the high degree of freedom of the ball pair structure, the whole body has flexibility, and the attachment of an irradiation surface is ensured.

The light source fixing unit 1 is of a sandwich structure and comprises a heat dissipation back plate 11, a light source fixing plate 12 and a light source front panel 13. The light source fixing plate 12 is provided with an illumination light source, preferably an LED ultraviolet light source. Six sides of the light source fixing plate 12 are provided with ball auxiliary grooves 31.

The upper part of the light source fixing plate 12 is connected with the heat dissipation back plate 11, the illumination light source is clamped between the light source fixing plate 12 and the heat dissipation back plate 11, the illumination light source is tightly contacted with the heat dissipation back plate 11, and the heat dissipation back plate 11 is used for dissipating heat and reducing temperature of the illumination light source.

The heat dissipation back plate 11 is made of a material easy to dissipate heat, and the heat dissipation back plate 11 is provided with heat dissipation grid pieces to improve the heat dissipation area of the heat dissipation back plate 11 and improve the heat dissipation effect. And heat-conducting silica gel is arranged between the lighting source and the heat-radiating back plate 11, so that small gaps between the contact surfaces are filled, and the heat-conducting effect is improved.

The lower part of the light source fixing plate 12 is connected with a light source front panel 13, and the light source front panel 13 is provided with a filter. The light source front panel 13 is made of soft silicone rubber, and can be directly attached to the skin if being used in the medical field.

The connection between the heat dissipation back plate 11 and the light source fixing plate 12, and the connection between the light source fixing plate 12 and the light source front panel 13 are bonding, screw thread or snap connection.

The connecting rod 2 is provided with a hollow wire guide 21 for the inside of the power supply guide to penetrate.

The ball pair structure 3 includes a ball pair groove 31 and a ball pair head 32, the ball pair groove 31 is provided on the light source fixing plate 12, and the ball pair head 32 is provided at both ends of the coupling rod 2. The ball pair head 32 is fitted into the ball pair groove 31 to form a ball pair structure, so that each light source fixing unit has a large freedom of movement and can be curved.

The steps of mounting the illumination source are as follows:

1. and placing the LED light source with the heat dissipation back plate on the light source fixing plate.

2. And installing a heat dissipation back plate, clamping the LED light source after the heat dissipation back plate is connected with the light source fixing plate, enabling the LED light source heat dissipation plate to be in close contact with the heat dissipation back plate, and using heat conduction silica gel between the heat dissipation back plate and the heat dissipation surface in contact with the heat dissipation back plate when necessary to improve the heat conduction performance.

3. The coupling rod is installed from below as required.

4. And installing a light source front panel, completing the assembly of a light source monomer, and constraining the connecting rod in the ball groove to form a ball pair.

The foregoing basic embodiments of the utility model and their various further alternatives can be freely combined to form multiple embodiments, all of which are examples of what the utility model can employ and claim. In the scheme of the utility model, each selection example can be combined with any other basic example and selection example at will.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An expandable flexible illumination exposure system, comprising a light source fixing unit (1), characterized in that: the light source fixing single bodies (1) are connected with each other through the connecting rods (2) between the light source fixing single bodies (1), and the light source fixing single bodies (1) are connected with the connecting rods (2) through the ball pair structures (3).

2. The expandable flexible illumination exposure system of claim 1, wherein: the light source fixing single body (1) is of a hexagonal structure, and the side edges of the light source fixing single body (1) are provided with ball pair structures (3).

3. The expandable flexible illumination exposure system of claim 1, wherein: the light source fixing monomer (1) comprises a light source fixing plate (12), and a lighting source is arranged on the light source fixing plate (12).

4. The expandable flexible illumination exposure system of claim 3, wherein: the lighting source is an LED ultraviolet light source.

5. The expandable flexible illumination exposure system of claim 3, wherein: the light source fixing plate (12) is connected with the heat dissipation back plate (11), the illumination light source is clamped between the light source fixing plate (12) and the heat dissipation back plate (11), and the illumination light source is in close contact with the heat dissipation back plate (11).

6. The expandable flexible illumination exposure system of claim 5, wherein: and the heat dissipation back plate (11) is provided with a heat dissipation grid sheet.

7. The expandable flexible illumination exposure system of claim 5, wherein: and heat-conducting silica gel is arranged between the lighting source and the heat-radiating back plate (11).

8. The expandable flexible illumination exposure system of claim 3, wherein: the light source fixing plate (12) is connected with a light source front panel (13), an optical filter is arranged on the light source front panel (13), and the light source front panel (13) is made of silicon rubber.

9. The expandable flexible illumination exposure system of claim 1, wherein: the connecting rod (2) is internally provided with a hollow wire guide groove (21).

10. The expandable flexible illumination exposure system of claim 1, wherein: the ball pair structure (3) comprises a ball pair groove (31) and a ball pair head (32), the ball pair groove (31) is arranged on the light source fixing single body (1), and the ball pair head (32) is arranged at two ends of the connecting rod (2).

Images