KR101669977B1 - Light with Diffusing Container - Google Patents

Abstract

The present invention relates to a light using a dispersion container. The light (100) using a dispersion container comprises: the dispersion container (110) which has an entrance (111) and is filled with a dispersion body (112); a multi-stage coupling unit (120) where multi-stage diameter units (121, 121, 121) having an increased diameter for each stage from an upper side to a lower side are sequentially stacked; an insertion support unit (130) which vertically penetrates the multi-stage coupling unit (120) and is coupled with the multi-stage coupling unit (120); lighting units (140) which are installed in a lower side of the insertion support unit (130); and a main body (150) which is coupled with an upper side of the insertion support unit (130), has a solar cell (151) on an upper side thereof, stores power supplied from the solar cell (151) in a charging power supply unit (153) therein and has a main control portion (152) controlling to supply power to the lighting units (140) when the light is turned on.

Description

[0001] Light with Diffusing Container [

The present invention relates to an illumination lamp using a dispersion vessel and includes a dispersion vessel 110 having an inlet 111 and filled with a dispersion body 112 and a dispersion vessel 110 coupled to the inlet 111, A multi-stage coupling portion 120 in which a plurality of multi-stage diameter portions 121, 121 'and 121' 'having an increased diameter are sequentially accumulated, A plurality of illumination units 140 installed below the insertion support unit 130 and a solar cell 151 coupled to the upper side of the insertion support unit 130, A main body 150 having a main controller 152 for storing power supplied from the solar cell 151 in an internal charging power unit 153 and controlling the power to be supplied to the illumination unit 140 during illumination; The present invention relates to an illumination lamp (100) using a dispersion container.

BACKGROUND ART [0002] Conventionally, a very wide variety of illuminations are widely used as decorative lighting for interior lighting or interior decoration.

Such conventional decorative lighting lamps include a housing having at least one translucent portion formed of a translucent material disclosed in " Decorative Lighting System (Korean Patent Laid-Open No. 10-2009-0020605) "in Patent Document 1, A first optical structure is positioned such that at least a portion of the light from the source is directed toward the translucent portion of the housing, and the second optical structure is positioned within the housing, Wherein the first optical structure is located between the first light source and the translucent portion of the housing and the second optical structure is adapted to be distributed such that at least a portion of the light is distributed in a uniform distribution across the translucent portion of the housing, .

In recent years, an LED (light emitting diode) has been mainly used as a light source of such a lighting unit due to an operation efficiency and an excellent lifetime. However, in the case of an LED (LED), it is difficult to uniformly disperse the illumination light because the illumination range of the illumination light is very narrow, despite the excellent luminous efficiency, in realizing the interior interior illumination which has a characteristic similar to the point light source, It has a limit.

Korea Patent Publication No. 10-2009-0020605

Disclosure of Invention Technical Problem [8] The present invention provides an illumination lamp using a dispersion container capable of efficiently and evenly distributing light emitted from an LED through a dispersion material or a dispersion liquid filled in a dispersion container, We do thing as problem.

It is another object of the present invention to provide an illumination lamp using a dispersing vessel which can widely utilize a variety of existing vessels having various inlet sizes by using a multistage coupling unit as a dispersion vessel to be used in combination do.

In order to achieve the above object, the illumination lamp using the dispersion container of the present invention includes a dispersion container 110 having an inlet 111 and filled with a dispersion material 112, a dispersion container 110 coupled to the inlet 111, (120, 120 ') having a plurality of multi-stage diameter portions (121, 121', 121 ") having a diameter gradually increasing stepwise from a lower end to a lower end of the multi- A plurality of illumination units 140 installed on the lower side of the insertion support unit 130 and a plurality of solar cells 151 coupled to the upper side of the insertion support unit 130, And a main controller 152 for controlling the power supplied from the solar cell 151 to be supplied to the illumination unit 140 when the illumination is stored in the internal charging power unit 153, (150); And a control unit.

A power switch 154 and an adjustment switch 156 are further connected to the main control unit 152 and the main control unit 152 controls the operation of the power switch 154 and the control switch 156, (140). ≪ IMAGE >

A USB port 154 is further connected to the main control unit 152. The main control unit 152 is connected to the USB port 154 via a USB port 154, The power supply unit 153 may be charged or the power charged in the charging power supply unit 153 may be output to the USB port 154. [

In addition, the dispersion container 110 is further filled with a dispersion 113 having at least one of transparency, hue, and suspension.

The illumination unit 140 is installed in the illumination installation hole 131 formed at the lower end of the insertion support unit 130 and the illumination installation hole 131 and the illumination installation hole 130 are formed on the lower end outer surface of the insertion support unit 130. [ And a transparent waterproof coating layer 132 covering the illumination unit 140 is further formed.

It is an advantage of the present invention that it is possible to provide an illumination lamp using a dispersion container capable of efficiently and finely dispersing illumination emitted from an LED through a dispersion material or a dispersion liquid filled in a dispersion container .

Also, it is possible to provide an illumination lamp using a dispersing vessel which can widely utilize a variety of existing vessels having various entrance sizes by using a multistage coupling unit as a dispersion vessel, .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view of an overall appearance of an illumination lamp using a dispersion container according to an embodiment of the present invention; Fig.
Fig. 2 is a perspective view of an overall appearance of an illumination lamp using a dispersion container according to an embodiment of the present invention. Fig.
3 is a view showing a coupling structure of an illumination lamp using a dispersion container according to an embodiment of the present invention.
4 is a partial cross-sectional view showing a waterproof structure of a lighting unit of an illumination lamp using a dispersion container according to an embodiment of the present invention;
5 is a structural block diagram of an illumination lamp using a dispersion vessel according to an embodiment of the present invention.

Hereinafter, an illumination lamp using a dispersion container according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

1, 2 and 3, the illumination lamp using the dispersion container according to an embodiment of the present invention includes a dispersion container 110, a multi-stage coupling portion 120, an insertion support portion 130, an illumination portion 140 And a main body 150

First, the dispersion vessel 110 will be described. 1 and 3, the dispersion vessel 110 has an inlet 111 and is filled with a dispersion body 112. [ In this case, it is possible to use any conventional transparent or semi-transparent container such as a wine bottle, a milk bottle, a candy container, a beer bottle, a beverage container, etc., provided that the inlet 111 is provided. Meanwhile, the dispersion body 112 may have various shapes and various colors composed of materials such as glass, crystal, or plastic having a transparent or semitransparent characteristic.

Next, the multistage coupling portion 120 will be described. As shown in FIG. 1, the multi-stage coupling unit 120 is coupled to the inlet 111 and has a plurality of multi-stage diameter portions 121, 121 ', 121 " . That is, it is characterized by having a shape similar to a pyramid whose top and bottom directions are reversed (however, the sectional shape with respect to the central axis is circular). With such a configuration, the multi-stage coupling unit 120 can be universally coupled to various dispersion vessels 110 having the inlets 111 having different diameters.

Next, the insertion support portion 130 will be described. As shown in FIGS. 1 and 3, the insertion support part 130 is configured to penetrate the multi-stage coupling part 120 in a vertical direction,

Next, the illumination unit 140 will be described. As shown in FIGS. 1 and 3, a plurality of the illumination units 140 are installed below the insertion support unit 130. In this case, the illumination unit 140 can be implemented through various embodiments, and it is preferable that the illumination unit 140 is formed of an LED in consideration of an operation efficiency and an excellent lifetime.

Next, the main body 150 will be described. 1 and 3, the main body 150 is coupled to the upper side of the insertion support portion 130, and a solar cell 151 is provided on the upper side of the main body 150. A power source And a main controller 152 for controlling the charging unit 153 to supply the illumination power to the illumination unit 140 during illumination.

1 and 3, a power switch 154 and an adjustment switch 156 are further connected to the main control unit 152. The main control unit 152 is connected to the main control unit 152, It is preferable to control the operation of the illumination unit 140 according to the operation of the power switch 154 and the adjustment switch 156 (on / off of illumination, adjustment of illuminance, adjustment of illumination color temperature, and the like).

5, a USB port 154 is further connected to the main control unit 152. The main control unit 152 receives the USB port 154 through the USB port 154 The charging power source unit 153 may be charged using a power source or the power charged in the charging power source unit 153 may be output to the USB port 154 so that the power supplied by the sunlight is not sufficient It is desirable to be able to use it in an operating environment, or to be able to apply emergency power in case of emergency.

1, the illumination lamp 100 using the dispersion container according to an exemplary embodiment of the present invention may be provided with a light emitting diode (LED) It is preferable that the dispersion liquid 113 having at least one characteristic is further filled. In this case, the dispersion 113 may be formed by mixing a dispersion of the aqueous base and a dispersion of the oil-based base so as to have a boundary characteristic.

4, in order to prevent the dispersion liquid 113 from being infiltrated into the dispersion container 110 when the dispersion liquid 113 is further filled in the dispersion container 110, And a transparent waterproof coating layer 132 covering the illumination installation apertures 131 and the illumination unit 140 is formed on the outer surface of the lower end of the insertion support unit 130, .

In the foregoing, optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: a lighting lamp using a dispersing vessel
110: dispersion vessel
111: inlet 112: dispersing element
113: dispersion
120: multi-
130:
131: illumination installation aperture 132: transparent waterproof coating layer
140:
150:
151: solar cell 152: main control unit
153: charging power source 154: USB port
155: Power switch 156: Adjustment switch

Claims (5)

A dispersion vessel 110 having an inlet 111 and filled with a dispersion body 112;
A multistage coupling unit 120 coupled to the inlet 111 and having a plurality of multi-stage diameter portions 121, 121 'and 121'', the diameter of which increases stepwise from top to bottom, respectively;
An insertion support part 130 coupled through the multi-stage coupling part 120 in a vertical direction;
A plurality of illumination units 140 installed below the insertion support unit 130;
A solar cell 151 is installed on the upper side of the insertion support unit 130. The power supplied from the solar cell 151 is stored in an internal charging power unit 153, A main body 150 having a main control part 152 for controlling to be supplied to the illumination part 140; (100) using the dispersion container.
The method according to claim 1,
A power switch 154 and an adjustment switch 156 are further connected to the main controller 152,
Wherein the main control unit (152) controls the operation of the illumination unit (140) according to the operation of the power switch (154) and the adjustment switch (156).
The method according to claim 2,
A USB port 154 is further connected to the main control unit 152,
The main control unit 152 may charge the charging power unit 153 using a power source input through the USB port 154 or may charge the charging power unit 153 to the USB port USB port (154).
The method according to claim 1,
Wherein the dispersion container (110) is further filled with a dispersion (113) having at least one of transparency, hue, and suspension.
The method according to claim 4,
The illumination unit 140 is installed in the illumination installation hole 131 formed at the lower end of the insertion support unit 130,
And a transparent waterproof coating layer 132 covering the illumination installation hole 131 and the illumination unit 140 is further formed on the outer surface of the lower end of the insertion support unit 130.

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