JPH049290A - Heater - Google Patents

Abstract

PURPOSE:To allow the heating of a material to be heated over a desired range by guiding the light from a light source by optical fibers and heating the heating members consisting of a light transparent material or material having a large thermal conductivity. CONSTITUTION:The light from the light source 1 is guided via the optical fibers 2 to 5 and is guided to the heating members 6 to 8 consisting of the light transparent material, for example, glass or the like or to the metallic materials which have large heat conductivity, such as stainless steel and copper. The heating members are heated in such a manner and the material to be heated is heated by the heating members. The heating members 6 to 8 are heated in contact or in proximity over the desired range in such a manner.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The invention relates to a heating device which can be advantageously implemented, for example for soldering and hot-melt connections.

Conventional Technology In the prior art, in order to cut iron, etc., a spot laser beam of ultraviolet light is transmitted through an optical fiber to locally heat the iron to a high temperature, thereby performing the cutting.

With such prior art, the object to be heated, such as iron, can only be heated locally, that is, only in spots.

Problems to be Solved by the Invention An object of the present invention is to provide a heating device that can heat over a desired range.

Means for Solving the Problems The present invention provides a light source, an optical fiber with one end facing the light source and guiding light from the light source, and an optical fiber with the other end facing the light source and made of a transparent material or a material with high thermal conductivity. The heating device is characterized in that it includes a heating member consisting of:

According to the invention, light from a light source is guided through an optical fiber, guided through a transparent material, such as glass, or alternatively made of a material with high thermal conductivity, such as a metallic material such as stainless steel and copper. lead to the heating element. In this way, the heating member can be heated, and the object to be heated can be heated by the heating member. In this way, the heating elements can be heated in contact or in close proximity over a desired range.

Since the optical fiber is visible, the heating member can be brought to a desired location, thereby heating the object at the desired location.

Example FIG. 1 is a perspective view of one embodiment of the present invention.

The light from the housing 1 is transmitted through a bundle of optical fibers 2~
5, heating members 6 to 8 are heated, and these heating members 6 to 8 enable soldering or hot melt connection of wiring in a liquid crystal display module.

FIG. 2 is a simplified longitudinal sectional view of the housing 1, and FIG. 3 is a horizontal sectional view of the housing 1. The light source 10, such as a halogen lamp or a xenon lamp, is spherical and has a temperature of, for example, 600°C. Housing 1
One end of the optical fibers 2 to 5 faces. A shutter 12 made of a light-shielding material, such as a metal material, is provided between the one end of the optical fibers 2 to 5 and the light source 10.
~15 are arranged. The shutter 12.14 is driven up and down by an electromagnetic plunger 17.18, and can thus guide or block light from the light source 10 to one end of the optical fibers 2, 4. The shutters 13.15 also have a similar construction. This housing 1 has a generally cubic shape.

The heating element 6 is made of a transparent material, such as glass, or alternatively of a material with high thermal conductivity, such as stainless steel and copper. This heating member 6
When it is made of a metal material, its surface is coated with Teflon (trade name) to prevent the object to be heated, such as a synthetic resin material, from adhering to it.

The other end of the optical fiber 2 faces the heating member 6,
As a result, the heating member 6 is heated to, for example, 180 to 240°C.

The other end of the optical fiber 2 and the heating member 6 are fixed using a ceramic adhesive or the like. optical fiber 2
5 has flexibility, and the heating member 7.8 has the same structure as the heating member 6.

FIG. 4 shows a state when soldering is performed using the heating member 6. A paste-like solder 21 is provided on the conductor formed on the electrically insulating substrate 20, and a visible substrate 22 having the conductor is placed thereon. By bringing the heating member 6 into contact with and applying pressure to the substrate 22, the solder 21 can be melted and soldering can be performed.

Further, using the heating member 6, an anisotropic conductive film is interposed between the glass plate and the visible printed circuit board in the liquid crystal display module, and this anisotropic conductive film is made of conductive particles such as carbon or metal, and thermally melted. When electrically connecting a glass plate-like electrode and a flexible substrate through such an anisotropic conductive film, electrical connection is made by thermocompression bonding of the anisotropic conductive film. It is also possible to make a hot-melt connection by means of the heating element 6.

When the heating member 6 becomes soiled, it can be cleaned by wiping it. Moreover, this heating member 6 can be configured in various shapes to suit the shape of the desired heating area.

Since the housing 1 can be installed at a location separated from the heating member 6, the effect that the member to be heated can be heated by the heating member 6 in a small space is achieved.

In this way, in the present invention, heat can be transmitted through the optical fibers 2 to 2, which has not been thought of in the past.
This allows us to do things that we couldn't do before. In other words, it is possible to arbitrarily heat an object to be heated that is located away from the housing 1. Even if the object to be heated becomes long, the heating member 6 can be made long by bundling the optical fibers 2 to 5 to a corresponding length over a wide range. Therefore, variations in temperature in the longitudinal direction of the heating members 6 to 8 can be reduced.

Further, since a halogen lamp or a xenon lamp can be used as a light source, the excellent effect of easy manufacture is achieved. The heating temperature of the heating members 6 to 8 is adjusted by adjusting the voltage that powers the light source 10 and by adjusting the voltage that powers the light source 10 and the shutter 12.
By adjusting the amount of light from the light source 10 to one end of the optical fibers 2 to 5 according to 15, it is possible to set it to a desired value. In this way, for example, when performing soldering that generates flux, even if the heating members 6 to 8 become soiled due to evaporation of the flux, the heating members 6 to 8 can be cleaned by wiping them. Excellent operability. If a halogen lamp or xenon lamp were to be used as is for heating, the spherical glass surface of the halogen lamp or xenon lamp would come in contact with the flux and become dirty, and in order to prevent such lamps from becoming dirty, If a transparent material such as glass is interposed between the lamp and the object to be heated, there is a problem that the operability is further deteriorated. The present invention solves these problems and improves heating operability.

The heating members 6 to 8 may be automatically moved and heated by driving means.

Effects of the Invention As described above, according to the present invention, light from a light source is guided through an optical fiber to heat a heating member made of a translucent material or a material with high thermal conductivity. It is possible to heat the object over a desired range by placing it in contact with or in close proximity to the object to be heated. Furthermore, since the optical fiber is visible, the object to be heated can be heated at a desired location.

[Brief explanation of drawings]

1 is a perspective view of an embodiment of the present invention, FIG. 2 is a vertical sectional view of the embodiment of FIG. 1, and FIG. 3 is a horizontal sectional view of a part of the embodiment shown in FIG. FIG. 4 is a sectional view showing a state in which the heating member 6 performs soldering. l...Housing, 2~5...Optical fiber, 6~
8... Heating member, 10... Light source, 12-15... Light shielding plate agent Patent attorney Keiichi Saikyo Figure 3\ Figure 2 9th prisoner

Claims (1)

[Scope of Claims] A light source, an optical fiber whose one end faces the light source and guides light from the light source, and a heating member whose other end faces the optical fiber and is made of a translucent material or a material with high thermal conductivity. A heating device comprising: