JPH07201219A - Fluorescent lamp cover - Google Patents

Abstract

PURPOSE:To shield UV-ray and infrared ray, and prevent temperature rise in a room. CONSTITUTION:A casing body of transparent acrylic resin or the like having heat resistance is formed as a semicircular casing body 1 or a cylindrical casing body 5, inorganic fine particles or high polymers mainly comprising fine particles of zinc oxide are applied to the inner surface 2 or the outer surface 3 of the casing formed as the semicircular casing body 1 or the cylindrical casing body 5, and the casing body is laid to cover the outer side of a fluorescent lamp tubular bulb. A gap is formed between the casing body formed as the semicircular casing body 1 or the cylindrical casing body 5 and the fluorescent lamp tubular bulb 4, and surface application of the inorganic fine particles or high polymers mainly comprising fine particles of zinc oxide is performed to the extent of a specific surface area of about 25m<2>/g desirably.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent lamp cover for blocking ultraviolet rays and infrared rays and preventing temperature rise in a room.

[0002]

2. Description of the Related Art Recently, the cancer-inducing effect of radiation has become a social problem, and it has become necessary to shield the ultraviolet rays emitted from fluorescent lamps, which are widely regarded as radiation in the living environment.

Ultraviolet rays include UV-A and UV-B, and U
VA is a long ultraviolet ray having a wavelength of 400 to 320 nm, and UV-B is a short ultraviolet ray having a wavelength of 320 to 290 nm, but UV-A reaches the dermis and accelerates skin aging after long-term exposure. It is supposed to be. Since ultraviolet rays reduce the function of immunity, the frequency of occurrence of cancers other than skin cancer in general also increases, making them anxious.

Under such a background, absorbing ultraviolet rays,
UV-cut fibers have been introduced that coat heat-reflecting ceramics on polyester fibers or UV-absorbers on the fibers to reduce the amount of transmitted UV light, but they are not suitable as a shielding material for fluorescent lamps.

Further, there is a film coated with an organic UV-cutting agent such as a triazole compound.
The chemical bond energy of the benzene ring, which is the basis of the structure of the triazole compound, is 83 to 99 Kcal / mo.
Since the wavelength of ultraviolet rays exceeds the chemical bond energy, it is decomposed with time and loses the effect of blocking ultraviolet rays.

Although the ultraviolet ray cut rate can be increased by increasing the amount of organic substances such as triazole compounds mixed, there is a drawback in that the life is remarkably shortened.

[0007]

SUMMARY OF THE INVENTION According to the present invention, ultraviolet rays emitted from a fluorescent lamp prevent ultraviolet rays from being burnt on a display item or furniture by blocking the ultraviolet rays, and insects respond best in the summer. 400n
It blocks light rays of m or less to prevent insects from flying.

In addition, since infrared rays generated from a fluorescent lamp cause a temperature rise in the room and hinder the cooling effect in the summer, the infrared rays are shielded in order to prevent the temperature rise in the room.

[0009]

In order to solve the above problems, the present invention provides a semicircular envelope 1 or a cylindrical envelope 5 with a transparent, heat-resistant acrylic resin or other envelope. The inner surface 2 or the outer surface 3 of the encapsulant formed or formed on the semicircular encapsulant 1 or the cylindrical encapsulant 5 is coated with inorganic fine particles or high molecular polymer mainly containing fine particle zinc oxide, A fluorescent lamp cover characterized in that it is covered on the outside of the fluorescent lamp bulb (4), which is between the envelope formed on the semicircular envelope (1) or the cylindrical envelope (5) and the fluorescent lamp bulb (4). Is applied to the surface of the inorganic fine particles or high-molecular polymer mainly composed of fine particles of zinc oxide, which is characterized by being a fluorescent lamp cover having a specific surface area of about 25 m ² / g.

[0010]

1 is a perspective view of an embodiment of a fluorescent lamp cover formed of a cylindrical envelope 5 according to the present invention, wherein the cylindrical envelope 5 is transparent and heat-resistant acrylic. A support portion 8 made of resin or the like and having a groove portion 6 intermittently formed at the end portion of the cylindrical envelope body 5 is disposed, and the cylindrical envelope body 5 and the fluorescent lamp bulb 4 are provided.
The feature is that a space is formed between them.

FIG. 2 is a perspective view of an embodiment of a fluorescent lamp cover formed of the semicircular envelope 1 according to the present invention, which is transparent and has heat resistance. A support portion 9 made of acrylic resin or the like and having a groove portion 7 intermittently formed at an end portion of the semicircular envelope body 1 is provided, and a space between the semicircular envelope body 1 and the fluorescent lamp bulb 4 is provided. The feature is that it is formed in a void.

FIG. 3 is a cross-sectional view of the cylindrical envelope body 5 of FIG. 1, in which a support portion 8 in which a groove portion 6 is intermittently formed is provided at an end portion of the cylindrical envelope body 5, Envelope 5 and fluorescent lamp bulb 4
The feature is that a space is formed between them.

FIG. 4 is a state diagram in which the cylindrical envelope 5 of FIG. 1 is enveloped in the fluorescent lamp bulb 4.

Surface coating of inorganic fine particles mainly of finely divided zinc oxide or high-molecular polymer has a specific surface area of 2
The formation of about 5 m ² / g is very important for ensuring the transmittance of the visible light portion.

[0015]

[Operation] The content of the present invention will be described in detail with reference to FIG. 1. The cylindrical envelope 5 of the fluorescent lamp cover formed of the cylindrical envelope 5 is used as shown in FIG. However, since the supporting portion 8 in which the groove portion 6 is intermittently formed is arranged at the end portion of the cylindrical envelope body 5, the space between the cylindrical envelope body 5 and the fluorescent lamp bulb 4 is Not only is it formed in the air gap and the heat of the fluorescent lamp bulb 4 is radiated from the peripheral side and contributes to the long life of the cylindrical envelope 5, but it also blocks ultraviolet rays and infrared rays and increases the temperature inside the room. It also has the effect of preventing a rise.

Further, to explain in detail with reference to FIG. 2, the semicircular envelope 1 of the fluorescent lamp cover formed of the semicircular envelope 1 is covered with the fluorescent lamp bulb 4. By forming the opening 10 of the upper part of the cylindrical envelope 1 smaller than the outer diameter of the fluorescent lamp bulb 4, it can be prevented from falling off to the lower part, and intermittently at the end of the semicircular envelope 1. Since the supporting portion 9 having the groove portion 7 is provided and the gap between the semicircular envelope 1 and the fluorescent lamp bulb 4 is formed, the heat of the fluorescent lamp bulb 4 is applied from the upper side and the peripheral side. The heat is dissipated to contribute to the long life of the semicircular envelope 1, and in addition to blocking ultraviolet rays and infrared rays, it also has the effect of preventing the temperature rise in the room.

[0017]

The present invention has the above-mentioned structure, that is,
A transparent and heat-resistant envelope such as acrylic resin is formed on the semicircular envelope 1 or the cylindrical envelope 5, and the semicircular envelope 1 or the cylindrical envelope 5 is formed. The semicircular encapsulation is characterized in that the inner surface 2 or the outer surface 3 of the encapsulant is coated with inorganic fine particles or high-molecular polymer mainly composed of fine particle zinc oxide and is applied on the outer side of the fluorescent lamp bulb 4. Surface coating of inorganic fine particles or high-molecular polymer mainly composed of fine particulate zinc oxide, which forms a gap between the fluorescent lamp bulb 4 and the envelope formed on the body 1 or the cylindrical envelope 5, 25m surface area
^Since it is characterized by a fluorescent lamp cover formed to about ² / g, it can block ultraviolet rays and infrared rays, and
It also has the effect of preventing the temperature rise in the room.

In addition, the ultraviolet light emitted from the fluorescent lamp is about 10
It has become possible to cut 0% and infrared rays by 25% or more.

Further, due to the effect of cutting off the ultraviolet rays, it is possible to prevent the ultraviolet rays from the fluorescent lamps from being burned by the ultraviolet rays from the products displayed in the shops and the furniture in the general household, and the insects react best in the summer. Do 4
It has become possible to block insects from coming in by blocking the light rays below 00 nm.

Further, there is a drawback that infrared rays generated from a fluorescent lamp cause a temperature rise in the room and hinder the cooling effect in the summer, but it is also possible to prevent a temperature rise in the room by shielding the infrared rays. It was

[Brief description of drawings]

FIG. 1 is a perspective view of an embodiment of a fluorescent lamp cover formed of a cylindrical envelope.

FIG. 2 is a perspective view of an embodiment of a fluorescent lamp cover formed of a semicircular envelope.

FIG. 3 is a sectional view of a cylindrical envelope.

FIG. 4 is a state diagram of covering a cylindrical envelope with a fluorescent lamp bulb.

[Explanation of symbols]

 1 Semi-circular envelope 2 Inner surface 3 External surface 4 Fluorescent lamp bulb 5 Cylindrical envelope 6 Groove part 7 Groove part 8 Support part 9 Support part 10 Opening part

Claims (3)

[Claims] 1. A transparent and heat-resistant envelope such as an acrylic resin is formed in a semicircular or cylindrical shape, and the inner or outer surface of the semicircular or cylindrical envelope is in the form of fine particles. A fluorescent lamp cover characterized by being coated with inorganic fine particles or high-molecular polymer mainly containing zinc oxide, and covering the outside of the fluorescent lamp bulb. 2. A support part having a groove is provided at an end of a fluorescent lamp cover to form a space between a semicircular or cylindrical envelope and the fluorescent lamp bulb. The fluorescent lamp cover according to claim 1, wherein the cover is a fluorescent lamp. 3. A specific surface area of 25 is obtained by applying surface coating of inorganic fine particles or high-molecular polymer mainly containing fine particles of zinc oxide.
The fluorescent lamp cover according to claim 1, wherein the fluorescent lamp cover is formed to have a thickness of about m ² / g.