JPS59165364A - Scattering prevention type high power rapid start fluorescent lamp - Google Patents

Abstract

PURPOSE:To provide scattering prevention effect and good starting performance regardless of environmental conditions by covering a glass tube with a tube and forming a film comprising a water repellent material on the tube. CONSTITUTION:The outer surface of a glass tube 1 is covered with a tube 1, and a film 3 comprising a water repellent material is formed on the outside of the tube 2. For example, a 100mu thick heat shrinking tube 2 which is slightly longer than a glass tube 1 is covered on the glass tube 1 of high power rapid start fluorescent lamp FLR110H/A, and heated at 110-130 deg.C so as to shrink the tube 2 and adhere it to the glass tube. A tube 2 extruded from a base is cut. A water repellent material such as amino modified silicone solution is applied on the tube and dried at room temperature to form a film 3.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a shatterproof high output calapid start fluorescent lamp.

A typical example is a fluorescent lamp in which each side is covered with a transparent heat-shrinkable tube made of polyethylene terephthalate, which is heated and shrunk to fit tightly onto a glass tube. It has excellent explosion protection, i.e.
Even if the glass tube is broken, it has a shatterproof effect that prevents glass fragments from scattering and injuring the human body.
This is extremely effective in practice from a safety standpoint.

However, in the case of an alpine calapid-start type fluorescent lamp such as the FLR110H/A, if the above-mentioned tube is placed over a glass tube, when water vapor or dust adheres to the tube, the cheap surface resistance between both ends of the lamp increases. may decrease significantly. Generally, when the Chive surface resistance value decreases, the starting voltage tends to increase significantly.

For this reason, in the past, it has not been possible to realize a high-output rapid-start fluorescent lamp that has good starting performance and a scattering prevention effect.

OBJECTS OF THE INVENTION The present invention provides a shatterproof high output calapid start fluorescent lamp which has a shatterproof effect and has excellent starting performance regardless of surrounding environmental conditions.

Structure of the Invention In the anti-scattering rapid start fluorescent lamp of the present invention, the outer surface of the glass tube is covered with a tube, and the outer surface of the tube is further coated with a water-repellent material.

-Description of Embodiment Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

High output rapid start fluorescent lamp FLR11oH/A
The tube is covered with a heat-shrinkable tube having a thickness of about 100 microns and slightly longer than the length of the glass tube, and heated to a temperature of, for example, 110 to 130 DEG C., thereby shrinking the tube and bringing it into close contact with the glass tube. Then, cut off the excess part of the cheep that protrudes from the base.

Thereafter, a water-repellent material, such as a silicone liquid composed of polymeric amines, is applied onto the chip and allowed to air dry.

FIGS. 1 and 2 show the thus obtained scatter-proof high-output calapid-start type fluorescent lamp, in which 1 is a glass tube, 2 is a tube, and 3 is a coating made of a water-repellent material.

A shatterproof type high output calapid start fluorescent lamp according to an embodiment of the present invention and a shatterproof type high output calapid start fluorescent lamp having the same structure as above except that no water repellent material is coated. The number of lamps that were started by applying voltages of 80, 90, and 1 oO of the power supply voltage in a high-humidity atmosphere was as shown in the table below.

As is clear from the above table, at 80% V of the power supply voltage, 90% of the pit-start fluorescent lamp coated with a water-repellent material
At 90%V and 100%V everything started with noticeable effect.

Furthermore, the anti-scattering effect of the alpine rapid-start fluorescent lamp of the present invention was equivalent to that of a high-output rapid-start fluorescent lamp not coated with a water-repellent material.

Furthermore, the above effects can be obtained from FLR1 mentioned in the above example.
Not only 1oH/A but also FLR80H/A.

It has been experimentally confirmed that this effect can also be obtained in high-output shatterproof rapid-start fluorescent lamps such as FLR220EH/A.

In addition, as a water-repellent substance, a polymeric amine composition is used.
In addition to the resin solution, water-soluble emulsion silicone liquid, dimethylpolysiloxane oil, etc. can be used.

As described in detail, the present invention has a scattering prevention effect by covering a glass tube with a cheap material and further forming a coating made of a water-repellent material such as a silicone liquid composed of polymeric amino on the cheap material. At the same time, it is possible to start the lamp regardless of the surrounding environmental conditions, and it is possible to realize a shatter-proof high-output calapid-start fluorescent lamp, which has been difficult to achieve in the past.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway front sectional view of an alpine calapid-start type fluorescent lamp according to an embodiment of the present invention, and FIG. 2 is a side sectional view of the same. 1...Glass tube, 2...Tube, 3.
Old... membrane.

Claims (1)

[Claims] A shatterproof, high-output, calapid-start fluorescent lamp characterized in that the outer surface of the glass tube is covered with a tube, and a coating made of a water-repellent substance is further formed on the outer surface of the tube.