KR101584597B1

KR101584597B1 - Bathroom mirrors

Info

Publication number: KR101584597B1
Application number: KR1020150107253A
Authority: KR
Inventors: 이대화
Original assignee: 이대화
Priority date: 2015-07-29
Filing date: 2015-07-29
Publication date: 2016-01-13

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mirror used in a bathroom such as a home, an office or a hotel, and more particularly, to a mirror used for a bathroom, And the LED lighting line of the light source is conducted to the back surface of the mirror so that the surface of the mirror surface can be removed or the edge of the mirror can be prevented,
It is possible to double the interestingness of the decoration and use of the mirror by allowing the beautiful decoration light from the back of the mirror to be directed through the lighting of the LED, and it is not merely a directing of the decorative light, So that the mirror surface can be prevented from being smoothed and the smoothing of the mirror surface can be prevented. As a result, the mirror can be more efficiently used, and the light emitted from the LED can be conducted to the mirror The excellent heat dissipation measures not only improve the efficiency of the LED, but also extend the service life.

Description

Bathroom mirrors having an anti-fogging structure using LED heating [

[0001] The present invention relates to a mirror used in a bathroom such as a home, an office or a hotel, and more particularly, to an LED light source plate attached to a back surface of a mirror, A plurality of thermocouples for heating the LEDs are provided so that the decorative light of the mirrors is directed by the lighting of the LEDs and the lighting of the LEDs is conducted to the mirrors through the thermocouples to remove or prevent the shading of the mirror surfaces It is about a bathroom mirror.

Generally, bathrooms or toilets with shower and toilet facilities inside homes, offices, hotels, pensions and condominiums have a mirror for the user.

Such a mirror typically has a rectangular plate-like structure, and a frame for constituting a rectangular frame is provided. The mirror is fixed to the inside using the frame, and the mirror is mounted on the wall It is installed by hanging.

At this time, when the mirror is used at a high temperature from a sink or a shower, steam is generated on the surface of the mirror due to the increase of water vapor and room temperature. When the mirror surface is blurred, So that the user wipes the mirror with a hand or a towel or sprays water to remove the above-mentioned fogging state.

However, such a method of removing the seaweed has an effect only during an extremely temporary time, and the mirror surface wiped by the hand, the towel, and the water causes the seaweed again quickly, It is the inconvenience to wipe it off.

Accordingly, in order to overcome the above-mentioned problems in recent years, as disclosed in the Utility Model No. 20-0175321, a heating wire is attached to the back surface of a mirror, and the mirror is heated by a heating wire, A bathroom mirror was found to remove the streaks.

Also, as disclosed in Japanese Patent Application Laid-Open No. 1997-0068972, a hot water tube is extended to the rear surface of a mirror so that the steam of the mirror surface can be prevented or frosted automatically by the heat of the hot water passing through the hot water tube, There has been proposed a device for preventing water vapor and a pipe for connecting a hot water supply pipe and a hot water discharge pipe to a back surface of a mirror as shown in Patent Publication No. 2001-0097890 to prevent condensation on the mirror surface due to heating of the pipe, A bathroom mirror with a function has been found.

However, since the bathroom mirror having various conventional anti-fogging devices is extremely complicated in terms of economy, it is extremely unreasonable from the viewpoint of efficiency, and since it uses excessive power or hot water, It is not easy to apply to the mirror used in the above-mentioned case, or it is extremely disadvantageous because of an excessive installation cost.

In addition, since the conventional mirror is made by applying the heating means to the rear surface of the mirror, the user can not quickly check the operation state of the heating element. Therefore, Because of the late response, you will feel frustrated.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems described above, and it is an object of the present invention to provide an LED light source for illuminating a decorative light due to lighting of the LED light source by applying an LED light source to a rear surface of a mirror, So that the mirror surface can be prevented from being removed or the mirror surface can be prevented,

It is possible to double the ornamentation and interest of the mirror due to the beautiful LED decoration light, as well as the ornamental light and the smear on the mirror surface can be removed and prevented, so that the mirror can be more conveniently used. The object of the present invention is to provide a bathroom mirror having a anti-fog structure.

According to an aspect of the present invention, there is provided a bathroom mirror in which a reflective layer is formed on one surface of a glass plate, a light source plate having LEDs on both sides of the back surface of the mirror is attached and formed, A thermocouple is formed by repeatedly protruding a thermocouple through which the LED is turned on,

The thermocouple is configured to be in close contact with the back surface of the mirror so that the lighting heat of the LED is transmitted to the mirror through the thermocouple.

The present invention can enhance the ornamental appearance of the mirror and the use of the mirror because it allows the ornamental light from the back surface of the mirror to be directed through the lighting of the LED. It is not merely a directing of the ornamental light, The heating of the mirror is conducted to the backside of the mirror so that the mirror surface can be prevented from being smoothed and the smoothing of the mirror surface can be prevented so that more efficient use of the mirror can be achieved. As a result, the efficiency of the LED is improved and the service life is prolonged.

1 is a rear perspective view of a bathroom mirror according to the present invention;
Fig. 2 is a plan view of a bathroom mirror according to the present invention
3 is an exploded perspective view showing another embodiment of a bathroom mirror according to the present invention.
4 is a plan view showing another embodiment of a bathroom mirror according to the present invention.
Fig. 5 shows another embodiment of a bathroom mirror according to the present invention

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

FIG. 1 is a rear perspective view of a bathroom mirror according to the present invention, and FIG. 2 is a plan view of a bathroom mirror according to the present invention.

Generally, the bathroom mirror 10 is formed by coating a reflective layer 11 on one side of a glass substrate having a flat plate shape, and the reflective layer 11 is formed by applying mercury, aluminum, silver, or the like.

In the present invention, the light source plates 20 and 20 'are fixedly formed on both sides of the rear surface of the mirror 10 on which the reflection layer 11 is formed, And a plurality of LEDs 21 and 21 'are soldered to the LED chip 20'.

When the light source plates 20 and 20 'are attached to the rear surface of the mirror 10 using a double-sided tape or adhesive or the like, the LEDs 21 and 21' And the illuminating light of the LEDs 21 and 21 'will illuminate the wall to produce a shape that appears to be seen through the rim of the backside of the mirror 10.

A plurality of thermocouples 30 and 30 'protruding toward the backside of the mirror 10 are formed on the light source plates 20 and 20'. The thermocouples 30 and 30 ' A function of rapidly absorbing and diffusing the lighting heat of the light source plates 20 and 20 'and the LEDs 21 and 21' by using a material having a high thermal conductivity such as aluminum to heat the rear surface of the mirror 10 Since the heat radiation efficiency with respect to the LEDs 21 and 21 'is improved by the thermocouples 30 and 30', the lighting efficiency of the LEDs 21 and 21 'is improved, Lt; RTI ID = 0.0 > 21 '. &Lt; / RTI >

The heat absorbed by the thermocouples 30 and 30 'is transmitted to the rear surface of the mirror 10 so that the mirror 10 is heated. As a result, It is possible to efficiently use the mirror 10 because the blurring on the surface is removed or the blurring no longer occurs.

Accordingly, the user can see that the illumination of the illumination lamp is performed to remove the blurring of the mirror surface and to prevent the blurring of the mirror surface.

Particularly, a separate converter 31 may be attached to the rear surface of the mirror 10 to supply power to the light source plates 20 and 20 'and the LEDs 21 and 21' A switch or a detection sensor may be connected to the controller so that the automatic power-on and power-off of the power source and the user can be performed.

The converter 31 may be arranged such that the length of the thermocouples 30 and 30 'at which the converter 31 is to be attached is somewhat shortened so as not to interfere with the thermocouples 30 and 30' A separate insulation sheet 32 may be interposed between the converter 31 and the thermocouples 30 and 30 'as shown in FIG.

In the bathroom mirror of the present invention thus made, the LEDs 21 and 21 'are turned on to produce a beautiful backlight while the power is applied. The heat generated by the LEDs 21 and 21' Is transmitted to the mirror (10) through the mirror (30 '), so that the heating of the mirror (10) can eliminate or prevent blurring on the surface.

In particular, the thermocouples 30 and 30 'may be formed by extending a metal circuit pattern for supplying power from the light source plates 20 and 20' to the LEDs 21 and 21 ' If necessary, a separate metal band or the like may be additionally fixed from one side of the LEDs 21 and 21 'to form the thermocouples 30 and 30'.

The bathroom mirror according to the present invention is designed in such a manner that the light source plates 20 and 20 'and the converter 31 of the mirror 10 are vulnerable to moisture or moisture, The light source plates 20 and 20 'and the converters 31 and the like are fixed by the cover body 40 by fixing the cover body 40 from the rear surface of the mirror 10 after the cover body 40 is provided. The cover member 40 may be made of a light transmitting material such as transparent or translucent synthetic resin so that the lighting light of the LEDs 21 and 21 'is transmitted through the cover member 40 .

5, the LEDs 21 and 21 'of the light source plates 20 and 20' located on the rear side of the mirror 10 are arranged in the mirror 10 The reflective layer 11 is not formed on the mirror 10 to which the LEDs 21 and 21 'are directed so that the lighting light of the LEDs 21 and 21' And a translucent etching portion 12 is formed on the front surface of the mirror 10 corresponding to the portion where the reflective layer 11 is not formed, that is, the LEDs 21 and 21 ' It can be formed and made.

When the LEDs 21 and 21 'are turned on by applying power to the light source plates 20 and 20' and the LEDs 21 and 21 ', the lighting light is reflected by the reflective layer 11, So that the etched portion 12 induces irregularly irregular reflection and diffusing of the lighting light so that the entire etching portion 12 is brightly indirectly illuminated will be.

Accordingly, the mirror 10 is more ornamental and luxuriously decorated due to the indirect lighting effect of the etching unit 12, and the light source plates 20 and 20 'and the LEDs 21 and 21' Is transmitted to the mirror (10) through the thermocouples (30) and (30 '), so that it is possible to remove and prevent the seam.

In addition, the translucent etching portion 12 also serves to prevent the LEDs 21 and 21 'located on the back surface of the mirror 10 from being directly seen through the naked eye.

Here, the light source plates 20 and 20 'are fixed to a separate cover body 40 coupled to the rear surface of the mirror 10, and the cover body 40 is provided with the light source plate 20 The light source plates 20 and 20 'are fixed to the insertion grooves 41 and 41' while the light source plates 20 and 20 'are fixed to the insertion grooves 41 and 41' 40 are coupled to and fixed to the mirror 10, the LEDs 21 and 21 'of the light source plates 20 and 20' are arranged toward the mirror 10.

The cover member 40 can protect the light source plates 20 and 20 'and the light sources 21 and 21' and the converter 31 and the like of the rear portion of the mirror 10 from moisture and moisture And the LEDs 21 and 21 'of the light source plates 20 and 20' can be naturally arranged to face the mirror 10, which is suitable for mass production.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

10: mirror 11: reflective layer
12:
20, 20 ': Light source plate 21, 21': LED
30, 30 ': thermocouple 31: converter
32: Insulation sheet
40: cover body 41, 41 ': insertion groove

Claims

The light source plates 20 and 20 'having the LEDs 21 and 21' are attached to the rear surface of the bathroom mirror 10 having the reflective layer 11 formed thereon, and the LEDs 21 and 21 ' The reflective layer 11 is not formed on the mirror 10 at the position corresponding to the LEDs 21 and 21 'and the reflection layer 11 is formed on the mirror 10 corresponding to the LEDs 21 and 21' A translucent etching section 12 is formed on the front surface of the mirror 10 and a thermocouple 30 is formed on the light source plates 20 and 20 ' The thermocouples 30 and 30 'are formed in such a manner that the thermocouples 30 and 30' are closely attached to the back surface of the mirror 10 so that the thermocouples 30 and 30 ' A bathroom mirror (1) having an anti-fogging structure using an LED heat generated when a lighting heat is conducted to the mirror (10)
The light source plates 20 and 20 'are closely fixed to the cover body 40 and the cover body 40 is coupled to the rear surface of the mirror 10, The light source plates 20 and 20 'are fixed to the insertion grooves 41 and 41' by forming the insertion grooves 41 and 41 'in which the light source plates 20 and 20' And the LEDs 21 and 21 'of the light source plates 20 and 20' are arranged toward the rear surface of the mirror 10 when the cover body 40 is coupled to the rear surface of the mirror 10 Mirror for bathroom with anti - fogging structure using LED heating.

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