JP2010118210A - Lamp tube with cover - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lamp tube equipped with a cover capable of preventing scattering of glass nearly completely. <P>SOLUTION: On the lamp tube, by means that a cover member is covered which is plastic cylindrical body having thermal contractility, of which its inner diameter is larger than the outer diameter of the lamp tube, and both end parts are heated, the lamp tube is contracted, and tightly adhered to the lamp tube. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a lamp tube with a cover.

  The lamp tube here refers to a glass pipe that emits light (electromagnetic waves) like a fluorescent lamp tube. Other than fluorescent lamps, there are ultraviolet lamps and LED tubes.

  These tubes are made of glass and easily break when dropped. For example, it often falls during disasters such as earthquakes and typhoons when replacing tubes.

  Because it is glass, it is very dangerous for those who walk around when it breaks. Furthermore, in food factories, restaurants, and the like, small pieces that are broken and scattered can be mixed with food, which is very dangerous because it is eaten.

  Therefore, when one lamp tube breaks and scatters, it may be required to discard all foods that are being manufactured in the room.

  In order to eliminate such danger, it has been invented to attach a film to a glass tube.

  However, in the method of attaching a film to a glass tube, since the film is in close contact with the glass tube, when the glass is broken, the adhered film often breaks together.

  Therefore, the present invention provides a lamp tube with a cover that almost completely prevents the scattering of glass.

  In view of the above situation, the present inventor has completed a lamp tube with a cover according to the present invention as a result of earnest research, and the feature thereof is that a plastic tubular body having heat shrinkability is provided on the lamp tube. Then, the cover member whose inner diameter is larger than the outer diameter of the lamp tube is covered, and both ends are contracted by heating to be in close contact with the lamp tube.

  The lamp tube here is basically a straight tube type, but may have other shapes as long as it can cover.

  Having heat shrinkability means that when heated (typically 120 to 230 ° C.), it shrinks, and in the case of a pipe (tubular shape), its diameter (inner diameter) is reduced. The shrinkage is usually about 10 to 25%.

  The heat-shrinkable plastic may be any plastic having such properties, but is preferably a fluorine-based film, a polyester film (polyethylene terephthalate: PET), or the like. Among these, a fluorine-based film that is hardly decomposed by ultraviolet rays is preferable. The fluorine-based film is usually a fluorine polyolefin, and the mainstream is one in which the front part or part of hydrogen of polyethylene is replaced with fluorine.

  As thickness of a film, it is about 50-250 micrometers, and 150-200 micrometers is more suitable. This is because the glass having a certain thickness has an effect of preventing the glass from scattering and the cost.

  This film may be mixed with an ultraviolet absorber to cut off ultraviolet rays. In this way, insects attracted by ultraviolet rays are reduced. This is optimal for fluorescent lamps in food factories.

Although the manufacturing method of this plastic film cylindrical body is free, an example is shown.
While heating a plastic pipe (a pipe with an inner diameter slightly (one to several mm) smaller than the outer diameter of the lamp tube to be covered), the inside is pressurized with gas and inflated like a balloon to increase the diameter. A method of increasing the size and cooling in that state is common. For example, the ends of the pipe are closed, sealed, heated to 200 ° C., and air is blown into the inside, the diameter of the entire pipe is increased by 15 to 30%, and the pipe is cooled in its thick state to complete. When this cooled one is heated, it returns to its original diameter.

  When returning to the original diameter, it is slightly smaller than the outer diameter of the lamp tube to be covered, so that it closely contacts the lamp tube.

At this time, it is the point of the present invention that only the vicinity of both ends of the lamp tube is heated and contracted. Both ends of the lamp tube are usually metal and are hardly broken.
The degree of heating at both ends is about the same as the temperature at which heat treatment was initially performed, and is generally 120 to 230 ° C. The heating method may be a method in which the end portion is inserted into a heated cylindrical heater or the end portion is heated by heated air such as a hair dryer.

  In this way, the cover film is brought into close contact only with the metal portion, and hardly in close contact with the glass tube portion. That is, in the glass tube portion, there is a slight (for example, 1 to 5 mm) space without close contact. The presence of this space can greatly reduce film breakage.

  Furthermore, in order to further improve the sealing property and adhesion, a metal or rubber band may be hung on the metal part, and a plastic cylindrical body may be placed on the metal part and contracted. As the band, silicon rubber having a thickness of 0.5 to 2.0 mm and a width of 2 to 8 mm was suitable.

  If such a band having various thicknesses (2 mm or more) is prepared, the number of types of plastic cylinders to be prepared is small. That is, the diameter of the plastic cylindrical body is large, and even if it cannot be sealed normally due to its shrinkage, it can be sealed by using a thick band.

Moreover, after heating both ends vicinity and sealing a plastic cylinder, you may heat the whole or only a glass part. The degree of heating may be a temperature lower than both ends or a short time.
When heated after sealing, the part with space tends to shrink, but it cannot be completely shrunk because it is sealed. The inside is pressurized. In this way, the cushioning property was higher.

The present invention has the following effects.
(1) In the present invention, not only the glass tube is covered by the cylindrical film, but also the cover is not a tight cover but a fixed space. Thus, the film is not torn together when the glass is broken.
(2) Since the present invention has a cylindrical shape, glass fragments are less likely to be scattered as compared with a simple film wound.
(3) In this invention, since the edge part is closely_contact | adhered and fixed by heat shrink, it is sealed completely.
(4) Since it is a structure covered with a completely sealed plastic balloon, it becomes a cushion and the glass tube is difficult to break when dropped.
(5) Since the end portion is hermetically sealed by heat shrinkage, another sealing member is unnecessary.
(6) If a band is used for the sealing part, not only the sealing degree is improved, but also the types of plastic cylindrical bodies to be prepared (difference depending on the diameter) can be reduced.

Hereinafter, the present invention will be described in more detail based on embodiments.
Example 1
FIG. 1 is a schematic sectional view showing an example of a lamp tube 1 with a cover according to the present invention. The main body of this lamp tube is a fluorescent lamp tube 2. It can be seen that the cylindrical film 3 is in close contact with only the metal portions 4 at the left and right ends of the fluorescent lamp tube. A space 5 between the fluorescent lamp tube 2 and the film 3 (in this drawing, the actual distance of the space is not shown but is exaggerated) is a cushion space. The existence of this space 5 greatly prevents the film from being broken together when the glass is broken.

FIG. 2 is a cross-sectional view showing only one side portion of an example in which the rubber band 6 is fitted to the metal portion 4. This is because the sealing property between the rubber band and the plastic is superior to the sealing property between the metal part and the plastic.
Cushioning is better when the air inside is kept as high as possible.
In this example, the pressure was relatively maintained during the lamp tube replacement period (half year to one year).

It is a schematic sectional drawing which shows one example of the lamp tube 1 with a cover of this invention. It is a partial schematic sectional drawing which shows the other example of the lamp tube 1 with a cover of this invention.

Explanation of symbols

1 Lamp tube with cover 2 Fluorescent lamp tube 3 Film 4 Metal part 5 Space 6 Rubber band

Claims (1)

The lamp tube is a plastic tubular body having heat-shrinkability, covered with a cover member whose inner diameter is larger than the outer diameter of the lamp tube, and contracted by heating both ends to be in close contact with the lamp tube. A lamp tube with a cover characterized by.

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