JP3014850U - Fluorescent lighting - Google Patents

Abstract

(57) [Abstract] [Purpose] In a fluorescent lighting fixture with a waterproof structure, quickly dissipate the heat generated by the fluorescent tube and ballast. [Structure] In this device, since the area of the joining surface of the plastic case body 4 joined to the reflecting plate 3 made of metal such as aluminum that conducts the heat generated in the fluorescent tube and the ballast is increased, the heat of the joining surface is increased. The resistance can be reduced.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a fluorescent lighting device having a waterproof structure in which the inside of the device is completely sealed and having a structure capable of effectively radiating the heat generated by the fluorescent tube and the ballast.

[0002]

[Prior art]

 In recent years, fluorescent lamps have come to be used for lighting lamps in lighting fixtures, especially as a power-saving type, and power consumption is smaller than that of the conventional incandescent bulb type. This fluorescent tube is lighted by the AC power source from the ballast.

[0003]

[Problems to be solved by the device]

 However, since this fluorescent lamp luminaire that is used outdoors requires a closed structure for waterproofing the fluorescent tube and ballast, the heat generated by the operation of the fluorescent tube and ballast itself is required. It is necessary to make the shape large in consideration of heat dissipation so as not to adversely affect the ballast.

Therefore, an object of the present invention is to provide a fluorescent lamp luminaire having a simple structure and good heat dissipation, and more specifically, to reduce the thermal resistance of the joint surface between the reflector and the case body to provide lighting. Another object of the present invention is to provide a fluorescent lamp luminaire with high heat dissipation that allows the case body to quickly dissipate the heat generated by the ballast through the reflector.

[0005]

[Means for Solving the Problems]

 The present invention for achieving the above object provides a fluorescent lamp luminaire including a case body for waterproofing a lighting device, and a reflector for reflecting light to improve the effect of illumination, comprising: the case body and the reflector. It is characterized in that the joint surface of the plate is formed to have a predetermined thickness, and the case main body is joined to the reflection plate.

Further, the present invention is characterized in that the case main body is made of plastic and the reflector is made of a material having a small thermal resistance.

Further, the present invention is characterized in that the ballast is attached to the case main body through a heat diffusion plate in a ballast storage chamber formed by the case main body and the reflector.

[0008]

[Action]

 The fluorescent lamp luminaire of the present invention constructed as described above allows the heat conducted from the fluorescent tube and the ballast to the reflector to be efficiently dissipated from the case body. The joint surface between the case body and the reflector is thick enough to allow the heat from the reflector to easily conduct, as compared with the thickness that is usually attached, and as a result, the thermal resistance of this joint surface is reduced. There is. Furthermore, since the reflector is firmly fixed with screws, the thermal resistance at the joint surface is extremely small. Therefore, the heat generated in the fluorescent tube and the ballast is conducted from the reflector to the case body, and is quickly dissipated from the outer surface of the case body.

Also, in the fluorescent lamp lighting device of the present invention, since the material of the case body is made of plastic and the material of the reflector is a metal having a small thermal resistance such as aluminum, it is generated from the fluorescent tube and the ballast. The heat is transferred to the reflector faster than it is transferred to the case body by radiation, etc., and is quickly dissipated from the outer surface of the case body.

Further, in the fluorescent lamp lighting device of the present invention, since the ballast is attached to the case body through the heat diffusion plate in the ballast housing chamber formed by the case body and the reflector. The heat generated from the fluorescent tube and the ballast is radially transferred to the entire surface of the case body by the heat diffusion plate, and is evenly radiated from the entire surface of the case body.

[0011]

【Example】

 Hereinafter, one embodiment of the fluorescent lamp luminaire of the present invention will be described with reference to the drawings.

FIG. 1 is a cross-sectional view of a fluorescent lamp lighting device of the present invention.

The present device is provided with a connecting member 2 for sandwiching and fixing the fluorescent tube 1 used for illumination. The connecting member 2 is fixed to a reflecting plate 3 made of a metal such as aluminum which is circular and anodized by screwing, rivets or welding. The reflection plate 3 is joined to the conical plastic case body 4 with screws 5. A protective cover 7 is attached to the case body 4 to protect the fluorescent tube 1 from an impact.

A ballast 8 attached to the reflector 3 is located between the case body 4 and the reflector 3. Further, the reflector plate 3 has a glow lamp 9 attached therethrough.

FIG. 2 is a cross-sectional view of the joint surface A between the case body 4 and the reflection plate 3 of FIG.

At the joint surface A, since the joint area of the case body 4 joined to the reflector plate 3 is widened, the heat resistance of the joint surface between the reflector plate 3 and the case body 4 is small. The heat of the firing plate 3 can be quickly conducted to the case body 4 to be radiated. Further, the joint surface A also serves as a stable fixing portion of the reflection plate.

FIG. 3 is a diagram showing a conduction path of heat generated by the lighting and the ballast.

The heat generated in the fluorescent tube 1 is transmitted through the connecting member 2 to the reflecting plate 3, or the radiant heat from the fluorescent tube 1 is directly transmitted to the reflecting plate 3. Further, the heat generated in the ballast 8 is transferred to the reflector 3 or the case body 4 as radiant heat or directly. The heat transmitted to the reflection plate 3 is low in temperature on the outer periphery of the reflection plate 3, so that the heat is conducted to the outer periphery as shown by the arrow in FIG. 3 for heat exchange. The heat conducted to the outer periphery is transmitted to the case body 4 through the joint surface A and is radiated as shown by the arrow in FIG.

The reflector 3 is made of aluminum and is alumite-processed so that it is light in weight, is not easily rusted, and has a high light reflectance and a low heat resistance in the heat conduction path of the illumination. The material of the reflector 3 is not limited to aluminum, and any material having a low thermal resistance such as stainless steel, copper, and aluminum alloy may be used. In the embodiments, the case body 4 and the reflection plate 3 have been described as circular in shape, but any shape may be used, and any suitable shape such as a square shape may be used.

Furthermore, since the case body 4 is made of plastic, it has a high waterproof effect and is easy to process.

In the fluorescent lamp luminaire of the present invention having the above-described structure, the joint surface of the case body and the reflector is joined with a predetermined thickness so that heat from the reflector is easily conducted to reduce the thermal resistance. Therefore, the heat generated by the lighting and the heat generated by the ballast are quickly conducted from the reflector to the case body, and the heat is efficiently dissipated. Since the reflector and case body are circular, the illumination area can be widened. Since the case body is made of plastic, it is highly insulated from the outside and highly waterproof.

FIG. 4 is a diagram showing another embodiment of the present invention. In this embodiment, a heat spreader plate 10 is attached to the inner surface of the case body 4 and a ballast 8 is attached to the case body 4 in a storage chamber formed by the case body 4 and the reflection plate 3. Is.

The heat diffusion plate 10 is not limited to aluminum like the reflection plate 3, but is made of a metal having a small thermal resistance such as stainless steel, copper, and an aluminum alloy. Therefore, the heat generated from the ballast 8 is This heat diffusing plate 10 causes the ballast 8 to be radially transmitted, and the heat diffusing plate 10 transmits the heat to the case body 4. The amount of heat transferred is small (most of the heat from the fluorescent tube 1).

That is, the heat from the fluorescent tube 1 and the path through which the heat is dissipated from the case body 4 through the reflection plate 3 and the path through which the heat is dissipated from the case body 4 through the heat diffusion plate 10 Since the heat from the ballast 8 is transferred, it is possible to dissipate heat using almost the entire outer surface of the case body 4.

[0025]

[Effect of device]

 As described above, in the fluorescent lamp luminaire of the present invention, in the fluorescent lamp luminaire of the present invention, the joint surface of the case body and the reflector is joined with a predetermined thickness so that heat from the reflector is easily conducted. However, by reducing the thermal resistance of the joint surface, the heat generated by the lighting can be dissipated more quickly by the case body, and the shape of the case body is pyramidal to increase the heat dissipation area. The heat dissipation of the case body can be improved.

In addition, in the fluorescent lamp lighting device of the present invention, the joint surface of the case body and the reflector is joined with a predetermined thickness so that heat from the reflector is easily conducted to reduce the thermal resistance of the joint surface. The heat generated by the lighting can be dissipated more quickly in the case body, and the heat dissipation area in the case body is improved because the case body has a conical shape to increase the heat dissipation area. be able to. In addition, the fluorescent lamp luminaire of the present invention is made of plastic as the material of the case body, so that it is highly insulated from the outside and has excellent waterproofness, and the reflector is made of a metal such as aluminum. As a result, the heat resistance of the heat dissipation conduction path can be reduced, and more heat generated by the illumination can be transferred to the case body, so that heat dissipation can be improved.

Further, in the ballast housing chamber formed by the case body and the reflector, the heat generated from the fluorescent tube and the ballast is fixed because the ballast is attached to the case body through the heat diffusion plate. The particles are radially transmitted to the entire surface of the case body by the heat diffusion plate, so that the heat can be uniformly radiated from the entire surface of the case body.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a fluorescent lamp lighting device according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of a joint surface A between a case body and a reflector of a fluorescent lamp lighting fixture according to an embodiment of the present invention.

FIG. 3 is a diagram showing a heat conduction path of heat generated by illumination of a fluorescent lamp lighting fixture according to an embodiment of the present invention.

FIG. 4 is a diagram showing a conduction path of heat generated by illumination of a fluorescent lamp illuminator according to another embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Fluorescent tube, 2 ... Connection member, 3 ... Reflector plate, 4 ... Case main body, 5 ... Screw, 7 ... Protective cover, 8 ... Ballast, 9 ... Glow lamp, 10 ... Thermal diffusion plate.

Claims (3)

[Scope of utility model registration request] 1. A fluorescent lamp luminaire comprising: a case main body for waterproofing a lighting device; and a reflector for reflecting light to improve the effect of illumination, comprising: a thickness of a joint surface between the case main body and the reflector. Is formed to have a predetermined thickness, and the case body has a structure joined to the reflection plate. 2. The fluorescent lamp luminaire according to claim 1, wherein the case body is made of plastic and the reflector is made of a material having low thermal resistance. 3. The ballast is attached to the case body via a heat diffusion plate in a ballast housing chamber formed by the case body and a reflector. The fluorescent lamp luminaire according to 2.