KR20170041298A - M0isture decomposing apparatus for headlamp - Google Patents

Abstract

A head lamp moisture decomposition device is disclosed. The present invention comprises: a thermoelectric device having a cooling surface and a heat dissipation surface; and an electrolysis module having a base of which one side is thermally connected to the cooling surface of the thermoelectric device and the other side is exposed to an inner space of a head lamp housing and having an anode and a cathode provided to the other side of the base to decompose moisture condensed on the other side of the base.

Description

Technical Field [0001] The present invention relates to a headlamp moisture-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for removing moisture that forms inside a headlamp.

Generally, when a vehicle headlight is heated by an internal light source, the air inside the headlight is heated to a high temperature. The heated air is expanded in volume but the internal space is constant, so that the pressure increases. At this time, when the vehicle is stopped and turned off, the internal temperature rapidly drops and heat exchange with the outside causes water droplets to form on the inner surface of the lens. When water droplets flow inside the lens, the surrounding parts are corroded and damaged, and the droplet repeats condensation and evaporation, leaving a trail on the surface of the lens, causing the lens to become cloudy, causing the problem of lowering the head lamp's illuminance.

In order to prevent this, conventionally, a fan or the like is installed in the inside to forcibly circulate the inside air, or a method of sealing the internal space of the head lamp by vacuum is used. However, there is a disadvantage that the repair cost is very expensive when the head lamp is replaced with a set even when the unit cost is increased and the simple light source is required to be replaced, in the case of consuming extra energy for driving the fan, and making vacuum.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

KR 10-1998-0044556 A

An object of the present invention is to provide a device for preventing the deterioration of performance of a headlamp by removing water condensed in the headlamp through electrolysis.

According to an aspect of the present invention, there is provided a headlamp moisture decomposition apparatus comprising: a thermoelectric element including a cooling surface and a heat dissipation surface; And the other side of the base is exposed to the inner space of the head lamp housing and the other side of the base is electrically connected to the cooling surface of the thermoelectric element, Module.

The base of the electrolysis module may be film-shaped.

The base of the electrolysis module may be an insulating film formed of an insulating material.

The base of the electrolysis module can be seamed to the cooling surface of the thermoelectric element as a film.

And a moisture absorbent paper provided on the other side of the base to condense moisture inside the head lamp housing.

Absorbent paper may have absorbed electrolytes.

And a heat-dissipating fin to be in contact with the heat-radiating surface of the thermoelectric element.

The radiating fin may be disposed outside the head lamp housing.

The area of the radiating fin may be larger than the area of the thermoelectric element.

An exhaust hole is provided at one side of the headlamp housing to allow the hydrogen-decomposed hydrogen and oxygen gas to be discharged to the outside.

According to the head lamp moisture decomposition apparatus of the present invention as described above, it is possible to disassemble and remove moisture accumulated in the head lamp.

1 is a schematic view of a headlamp moisture decomposition apparatus according to an embodiment of the present invention;
2 is a side view of a headlamp moisture decomposition apparatus according to an embodiment of the present invention
3 is an exploded perspective view of the headlamp moisture decomposition apparatus according to the embodiment of the present invention.
4 is a cross-sectional view of the headlamp moisture decomposition apparatus according to the embodiment of the present invention

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a schematic view of a headlamp moisture decomposition apparatus according to an embodiment of the present invention, FIG. 2 is a side view of a headlamp moisture decomposition apparatus according to an embodiment of the present invention, FIG. 4 is a cross-sectional view of a headlamp moisture decomposition apparatus according to an embodiment of the present invention. FIG.

The headlamp moisture decomposition apparatus (100) according to the present invention comprises a thermoelectric element (101) composed of a cooling surface and a heat dissipation surface; And the other side is thermally connected to the cooling surface of the thermoelectric element 101 and the other side is provided on the other side of the base 103 exposed on the inner space of the head lamp housing 201 and on the other side of the base 103 And an electrolysis module 107 composed of a cathode electrode and a cathode electrode that decompose the condensed water.

The air in the head lamp is heated by the light source inside the automobile head lamp. The heated air is expanded in volume but the internal space is constant, so that the pressure increases. At this time, when the vehicle is stopped and turned off, the internal temperature rapidly drops and water drops are formed on the inner surface of the head lamp by heat exchange with the outside . When the water droplets flow in the head lamp, the surrounding parts are corroded and damaged, and the droplets are condensed and evaporated repeatedly, leaving traces on the inner surface of the headlamp lens, Lt; / RTI >

To solve this problem, the humidity inside the head lamp must be kept low. There are two ways to lower humidity. One is to lower the relative humidity by raising the temperature of the air, and the other way is to lower the absolute humidity by removing the humidity in the air. The method of lowering the relative humidity can not be a fundamental solution since the inside temperature of the head lamp will be condensed again inside the head lamp. Therefore, in the present invention, moisture inside the head lamp is to be basically removed by electrolysis.

1 to 4, the present invention is characterized in that a cooling surface of a thermoelectric element 101 is disposed so as to be positioned inside a head lamp, and a base 103 and an electrode 105 formed on the cooling surface of the thermoelectric element 101 The electrolysis module 107 is mounted. When moisture inside the head lamp is condensed through the cooled cooling surface of the thermoelectric element 101, moisture is removed by using the electrolytic module.

The base 103 of the electrolysis module 107 may be film-shaped. The base 103 of the electrolysis module 107 may be an insulating film formed of an insulating material. The base 103 of the electrolysis module 107 may be seamed to the cooling surface of the thermoelectric element 101 as a film.

If it does not provide insulation between the electricity-flowing electricity and the thermoelectric module, it may cause damage to other peripheral parts due to a short circuit or a short circuit. However, if the thickness of the base 103 is excessively large, the cooling air on the cooling surface of the thermoelectric element 101 is blocked, and moisture in the air can not be condensed. Therefore, the electrode 105 is disposed on the thin film base 103 made of an insulating material to insulate the electrode 105 from the thermoelectric element 101 without interrupting the cooling of the thermoelectric element 101 It is possible to smoothly coagulate and decompose moisture in the air.

And a desiccant paper 109 provided on the other side of the base 103 and condensing the moisture inside the head lamp housing 201. The absorbent paper 109 may be absorbed by the electrolyte.

If the moisture condensed on the cooling surface of the thermoelectric element 101 flows down immediately after being formed on the surface, time for decomposing through the electrode 105 can not be ensured. Therefore, by using the absorbent paper 109, it is possible to secure a sufficient time for the electrolysis module 107 to decompose the moisture. Further, by absorbing the electrolyte in the absorptive paper 109, the flow of electricity is smooth and the electrolysis of the moisture can be performed well.

And a heat dissipating fin 111 which is in contact with the heat dissipating surface of the thermoelectric element 101. [ The radiating fins 111 may be disposed outside the head lamp housing 201. The area of the radiating fin 111 may be larger than the area of the thermoelectric element.

A thermoelectric device is a heat pump system that moves the heat from one side to the other side to maintain the temperature difference on both sides. When cooling one side of the thermoelectric element, the cooling surface performance depends on how efficiently heat is dissipated from the other side . Therefore, by arranging the heat dissipating fins 111 that are wider than the area of the thermoelectric element so that the heat dissipation can smoothly occur on the heat dissipating surface of the thermoelectric element, the temperature of the cooling surface can be further lowered. As a result, the moisture inside the head lamp can be collected more effectively.

An exhaust hole 203 is provided at one side of the head lamp housing 201 so that hydrogen and oxygen gas decomposed in moisture can be discharged to the outside.

If hydrogen and oxygen decomposed by electrolysis are not discharged to the outside of the headlamp, hydrogen and oxygen will eventually react with each other and be condensed into moisture again. Therefore, an exhaust hole 203 is provided on one side of the head lamp housing 201, so that hydrogen and oxygen generated by the electrolysis can be discharged quickly.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: head lamp moisture decomposition apparatus 101: thermoelectric element
103: Base 105: Electrode
107: Electrolysis module 109: Absorbent paper
111: radiating fin 201: head lamp housing
203: Exhaust hole

Claims (10)

A thermoelectric element comprising a cooling surface and a heat dissipation surface; And
And an electrolytic module including an anode electrode and a cathode electrode. The anode electrode and the cathode electrode are thermally connected to the cooling surface of the thermoelectric element at one side, the base exposed at the inner space of the head lamp housing and the other side of the base, And the headlamp moisture decomposition apparatus. The method according to claim 1,
Wherein the base of the electrolysis module is in the form of a film. The method according to claim 1,
Wherein the base of the electrolysis module is an insulating film formed of an insulating material. The method according to claim 1,
Wherein the base of the electrolysis module is in the form of a film and is seamed to the cooling surface of the thermoelectric element. The method according to claim 1,
And a moisture absorbing sheet provided on the other side of the base to condense moisture inside the head lamp housing. The method of claim 5,
Wherein the absorptive material absorbs an electrolyte. The method according to claim 1,
Further comprising: a heat dissipating fin to be in contact with the heat dissipating surface of the thermoelectric element. The method of claim 7,
And the radiating fins are disposed outside the head lamp housing. The method of claim 7,
Wherein an area of the radiating fin is larger than an area of the thermoelectric element. The method according to claim 1,
Wherein the head lamp housing is provided with an exhaust hole at one side thereof, and the hydrogen-decomposed hydrogen gas and the oxygen gas are exhausted to the outside.

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