KR20100002464A

KR20100002464A - How to play the damaged headlights mounted on the car

Info

Publication number: KR20100002464A
Application number: KR1020080062369A
Authority: KR
Inventors: 강봉석
Original assignee: 강봉석
Priority date: 2008-06-30
Filing date: 2008-06-30
Publication date: 2010-01-07

Abstract

PURPOSE: A method and the miniature hand-held interrogator is provided to reproduce the damaged headlight can reproduce without replace by using the UV coating material on the light front cover. CONSTITUTION: The surface (a) of the light front cover(1) is evenly mapped to the sandpaper. The dirt or the thought dust is cleanly washed. The UV coating material of the acryl group is sprayed in the surface (c) of the light front cover. The surface (d) of the light front cover(1) is researched with the hand-held UV enumerator(5). The hand-held UV enumerator examines light for 1~2 minutes.

Description

How to regenerate damaged headlights in a car and small portable irradiator {omitted}

Regarding the regeneration of the headlights of the car, the light is used as a plastic from the glass in relation to safety. As a result, the front cover of the light is coated. It is a technology to restore the transparency of the original state by completely regenerating the disposal and replacement

The car's headlights are made of plastic from the glass, so the front cover of the light is coated after injection and used in the car for 4 to 5 years, causing sand or foreign substances on the road to be encountered while driving. As it causes scratches and the coating is damaged, it is damaged to the inside and continuously exposed to the sun, so the light turns yellow and becomes dim, discarded for safety and replaced with a new one.

The damaged headlights were separated from the vehicle and regenerated into a surface image. However, the basic plastic surface was weak and was not used for a short time.

In some cases, the dismantled car headlights were sanded and then coated with a clear coating, but the drying time was long and the disassembly work was not possible. Regeneration was virtually impossible.

In particular, they wanted to use the UV coating material, but the UV irradiator was fixed to a large size and the price was high, so it was impossible to use it for regeneration work.

In the present invention, the headlights mounted on the vehicle should be regenerated while mounted on the vehicle.

Regeneration must be completed in a short period of time, even in a maintenance facility or at home, not in a first-class maintenance shop. Therefore, the UV coating material is used to harden it immediately so that it can be cured.

To this end, the lamp's high temperature (center temperature 3600 degrees, ambient temperature 850 degrees) can be handled and the life of the lamp or reflector lamp is guaranteed.

Since it is not possible to keep the headlights mounted on the vehicle for a long time, the work time should be short and quick, and the strength should be high to withstand sand or dirt. Therefore, UV coating material is used for acrylic resin to increase the strength. It reacts and hardens to make the surface roughness beautiful.

The wavelength is configured in the smallest size to solidify the UV coating material and to be easy to use and portable regardless of the working place.

To apply the UV coating to the headlights mounted on the vehicle, apply a sandpaper (800 #) to the front cover of the damaged headlights, clean the dust and contaminants, completely degrease them with degreasing material, and then apply UV to the acrylic resin. Spray evenly using coating spray.

Wait 2-3 minutes after spraying to spread completely on the surface.

After waiting, use a portable UV irradiator for 400W ~ 500W, which is normally used, set it around, connect it with a long wire, and irradiate the front cover evenly for 1-2 minutes to harden it.

The portable wave length device is easy to carry and easy to work by blow molding the body with resin (HDPE) to empty the inside and hold the handle with one hand. Have the reflector and protective glass assembled in the groove.

The reflection shade is made of aluminum material and the grounding lamp is assembled in pieces so that each UV lamp can be assembled.

Behind the reflection shades of the two earthing bands, wire them with safety wires.

Behind the UV lamp of the reflector, set the ventilation hole to the length of the UV lamp and the width of the diameter, and let it pass through the inside of the handle, and install the fan under the handle.

The front side of the reflector should be about 1/2 (W / 2) of the front width (W) of the irradiator so that the protective glass is inserted in the center to form a space on both sides.

When miniaturization is made, the miniature portable UV irradiator is configured to cool the heat by making it possible to directly blow the high-temperature (central temperature 3600 degrees, ambient temperature 850 degrees) generated by the wavelength lamp to the UV lamp. .

The long life of the light recycled by the high intensity UV coating material and the small portable UV irradiator can be reproduced without disassembly regardless of the place. This has the effect of recycling resources.

The irradiator can be miniaturized by effective cooling, which is light and convenient, and it can be safely used for a long time at low cost, thus reducing costs and protecting the environment.

Referring to the present invention in detail according to the accompanying drawings as follows.

Headlight reflector (2 in FIG. 2) mounted on the vehicle (20 in FIG. 1) is assembled without disassembling the damaged light front cover (1) installed in the vehicle as a light front (1).

(A) and (b) of Fig. 2 evenly cover the surface (a) of the front cover (1) with sandpaper (800 #)

As shown in (b) of FIG. 2, the surface is washed so that dirt or filamentous dust does not remain (b).

As shown in Fig. 2C, the surface of the light front cover 1 is evenly sprayed with an acrylic coating of high acrylic strength.

After spraying evenly, as shown in Fig. 2 (a), the touch surface d of the front cover 1 is irradiated with a portable UV irradiator 5 for 1 to 2 minutes after waiting for a touch time of about 2 to 3 minutes. It firmly adheres to the light front cover (1) and rests tightly on the surface.

The portable UV wavelength analyzer 5 is easy to carry and easy to work by molding the main body 5 with resin (HDPE) to empty the inside and hold the handle with one hand to configure the 5 'and the UV irradiator (5) front outer four directions There is a groove (5 ") to assemble the reflection shade (7) and the protective glass (9), the reflection shade 7 and the protective glass (9) in the groove, and the reflector bundle is seated in the interior space of the body.

The reflection shade 7 is formed of aluminum material, and the grounding rod 6 is assembled into a piece 12 so that each of the UV lamps 10 can be assembled, and the UV lamp is inserted into the grounding rod 6.

Behind the reflector (7) of the two grounding band (6) part is connected to the wire (8) by the safety device (20), respectively.

Behind the UV lamp 10 of the reflection shade 7 is set the ventilation hole (7 ') with the length and diameter of the UV lamp to be blown into the handle (5') to the inside (F) and the bottom of the handle ( 11) installs.

In front of the reflection shade 7, the protective glass 9 is sandwiched in the center so that approximately 1/2 (W / 2) of the width W of the reflector is formed to form a space on both sides.

The high temperature (central temperature 3600 degrees, ambient temperature 850 degrees) generated by the UV lamp of the portable UV irradiator 5 configured as described above can be blown directly to the UV lamp, allowing the heat to be cooled. The small portable irradiator is constructed with a structure that allows the heat to be cooled effectively.

1 is an external view of a vehicle headlight mounted

2 is a sectional view showing a reproduction process of a headlight;

3 is a perspective view of the UV irradiator connected to the safety device

Figure 4 is an enlarged right side view of the UV irradiator

Figure 5 is a cross-sectional view A-A

Claims

On the headlight reflector (2 in FIG. 2) mounted on the vehicle (20 in FIG. 1), the damaged light front cover (1) installed in the vehicle as a set with the light front (1) is assembled without disassembly.

As shown in (b) of FIG. 2, the dirt or filamentous dust is washed away (b).

As shown in Fig. 2C, an acrylic UV coating material of high strength is sprayed on the surface c of the light front cover 1 evenly.

After spraying evenly as shown in Fig. 2 (d), the surface d of the front cover 1 is irradiated with a portable UV irradiator 5 for 1 to 2 minutes after waiting for a touch time of about 2 to 3 minutes. Regeneration method that firmly adheres to the light surface while hardening

The method of claim 1

The portable UV wavelength analyzer 5 comprises a handle 5 'by molding the main body 5 with resin (HDPE), and the reflection shade 7 and the protective glass 9 are placed in the outer surface of the UV irradiator 5. Place the groove (5 ") to assemble, the reflector (7) and the protective glass (9) is assembled in the groove and the reflection shade is placed in the interior space.

Reflective shade 7 is formed of aluminum material and assembled to the grounding rod (6) to the piece (12) to assemble the UV lamp 10, respectively, and assembled by fitting the UV lamp to the grounding rod (6).

Behind the reflection shade 7 of the two grounding band (6) is connected to the wire (8) with a safety device (20), respectively.

In front of the reflection shade 7, the protective glass 9 is sandwiched in the center so as to be about 1/2 (W / 2) of the width W of the reflection shade to form a space on both sides.

The smallest portable irradiator with a structure that can blow air to the UV lamp of the portable UV irradiator 5 configured as described above and directly suck the wind F to the UV lamp.