KR20160150436A - Rotary type solid lighting device - Google Patents

Abstract

The present invention is to provide a rotary type stereoscopic lighting device which positions, in an upper end of a light diffusing unit, a light emitting unit for freely controlling a lighting pattern, and rotates the light emitting unit and the light diffusing unit around a connection line downwardly installed from an upper part, so as to provide various lighting effects in the air without an additional support. To this end, the device comprises: a power supply unit installed in a ceiling or an arbitrary support unit, and supplying power; the connection line extended with a predetermined length in the power supply unit; a control unit connected to the connection line, receiving the power of the power supply unit, and controlling to output at least one from a light signal or a driving signal with preset setting information; the light emitting unit connected to one side of the connection line, and emitting light according to an output of the light signal of the control unit; the light diffusing unit installed in a lower part of the light emitting unit, and scattering the light emitted from the light emitting unit; and a rotation driving unit for providing power to enable the light emitting unit and the light diffusing to rotate around the connection line according to an output of the driving signal of the control unit. Accordingly, the present invention has an advantage to produce the various lighting effects in the air without the additional support by positioning the light emitting unit and the light diffusing unit in the upper end to freely control the lighting pattern, and rotating the light emitting unit and the light diffusing unit around the connection line downwardly installed in the upper part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotary type solid-

More particularly, the present invention relates to a rotating type stereoscopic lighting apparatus, and more particularly, to a rotating type stereoscopic lighting apparatus which includes a light emitting unit configured to freely control an illumination pattern, the light emitting unit being disposed at an upper end of the light diffusion unit, The present invention relates to a rotatable stereoscopic lighting apparatus that allows a diffusing portion to rotate so as to produce various lighting effects in the air without additional support.

Generally, the lighting interior using the lighting lamp and the lighting fixture occupies a very large portion in the outdoor environment, and is used not only in the residential space and the office such as the apartment, but also in the lighting used mainly in public spaces such as hotels, special shops, The interior needs new changes.

In addition to these lighting interiors, various advertising devices utilizing illumination have emerged in recent years with the development of lighting devices.

In particular, if a conventional lighting advertisement device is based on the splendor of a lighting device, a recent lighting advertisement device is pursuing a simple yet simple lighting device and a method of installation and use.

In addition, due to the development of printing techniques, delicate expressions have become possible, and advertisements utilizing film or sheets have been widely used, and lighting advertising apparatuses capable of effectively expressing them are widely used.

Among them, LED lighting devices have been widely used recently, and a typical example of such a device is 'light panel (light guide plate)'.

For example, FIG. 1 is a diagram of a stereoscopic lighting apparatus using a conventional light panel. As shown in FIG. 1 (a), the conventional stereoscopic lighting apparatus 10 includes a plurality of LEDs And a light panel 12 having shapes and patterns engraved in various engraving and embossing techniques and installed on the upper end of the light emitting lamp 11 including a light transmitting material.

1 (b), the stereoscopic lighting apparatus 10 diffuses the light emitted from the light emitting lamp 11 through the light panel 12 formed by various oblique angle techniques, It has the advantage of being able to direct.

However, the above-described conventional three-dimensional lighting apparatus 10 is a simple structure in which the light emitting lamp 11 functions as a pedestal of the light panel 12 and illuminates. The installation location is limited to the ground, This is a drawback that it is merely a directing of illumination images.

Further, since the light emission of the light emission lamp 11 can not be controlled freely, there is a problem that the effect of the illumination can be limited.

Korean Registered Patent No. 10-0902648 (2009.06.05.)

In order to solve such a problem, the present invention is characterized in that the light emitting unit configured to freely control the illumination pattern is positioned at the upper end of the light diffusion unit, and the light emitting unit and the light diffusion unit are rotated around the connection line, And it is an object of the present invention to provide a rotatable stereoscopic lighting apparatus capable of producing various lighting effects in the air without the need.

According to an aspect of the present invention, there is provided a power supply apparatus comprising: a power supply unit installed at a ceiling or an arbitrary support unit to supply power and having a connection line extending to a predetermined length; A control unit for receiving power from a power supply unit through the connection line and controlling at least one of an optical signal or a drive signal to be output with predetermined setting information; A light emitting unit emitting light according to an optical signal output of the control unit; A light diffusion unit for scattering light emitted from the light emitting unit; And a rotation driving unit for providing power to rotate the light emitting unit and the optical diffusion unit according to the drive signal output of the control unit.

In addition, the setting information according to the present invention is characterized by at least one of illumination pattern information of the light emitting portion and rotation speed information of the rotation driving portion.

Further, the control unit according to the present invention may further include: a setting information storage unit for storing at least one setting information among preset illumination pattern information or rotation speed information; An optical signal controller for controlling the optical signal to be outputted from the illumination pattern information stored in the setting information storage unit when the power is inputted through the power supply unit; And a drive signal controller for controlling the drive signal to be output from the rotation speed information stored in the setting information storage unit when power is supplied through the power supply unit.

Further, the present invention is further characterized by a sensor unit for outputting arbitrary sensor information in which at least one of illuminance by the light emitting unit or rotation speed of the rotation driving unit is sensed.

In addition, the controller according to the present invention detects sensor information output from the sensor unit, converts the configuration information stored in the configuration information storage unit to match the detected sensor information, And a sensor information detecting unit for detecting the sensor information.

In addition, the sensor unit according to the present invention may include a first sensor for sensing illuminance by the light emitting unit; And a second sensor for sensing the rotation speed of the rotation driving unit.

Further, the light diffusing unit according to the present invention is characterized by being a three-dimensional geometric shape, a rectangular parallelepiped shape, or a sphere shape formed by a relief technique and a relief technique.

The light diffusing unit according to the present invention is characterized in that a plurality of light sources are disposed inside the light diffusing unit.

The light diffusing unit according to the present invention may further include at least one auxiliary light diffusing unit having different refractive indices.

The light diffusing unit according to the present invention is characterized in that the light diffusing unit is made of a transparent material obtained by mixing at least one of a phosphor or a metal flake corresponding to a specific wavelength.

Further, the transparent material according to the present invention is characterized by being one of glass, acrylic, and lexan.

Further, the rotation driving unit according to the present invention is a motor.

According to another aspect of the present invention, there is provided a light emitting device comprising: a light source;

The rotating type solid-state lighting apparatus according to the present invention is characterized in that a light emitting unit configured to freely control an illumination pattern is positioned at an upper end of a light diffusion unit, and the light emitting unit and the light diffusion unit are rotated around a connection line, It is advantageous to produce a variety of lighting effects in the air without the need for a light source.

Further, the present invention is advantageous in that a more realistic three-dimensional stereoscopic lighting effect can be produced by rotating the three-dimensional shape light diffusion portion formed by various three-dimensional molding techniques.

Further, the present invention is characterized in that a plurality of light sources are directly attached to the inside of the light diffusing portion, and auxiliary light diffusing portions having different refractive indexes are additionally provided to freely arrange the light sources according to the intention of the user, It is possible to expand the range of the illumination production accordingly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a conventional stereoscopic lighting apparatus.
2 is a view showing a configuration of a rotating type three-dimensional lighting apparatus according to the present invention.
3 is a block diagram schematically showing an electronic configuration of a rotary type solid-state lighting apparatus according to the present invention.
4 is a block diagram showing a configuration of a control unit according to FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a rotating type three-dimensional lighting apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram schematically showing an electronic configuration of a rotary type solid-state lighting apparatus according to the present invention, and Fig. 4 is a block diagram Fig. 7 is a block diagram showing a configuration of a control unit. Fig.

2 to 4, the rotatable stereoscopic lighting apparatus 100 according to the present invention includes a power supply unit 110, a control unit 120, a light emitting unit 130, a light diffusion unit 140, and a rotation driving unit 150).

The power supply unit 110 is configured to supply power to the control unit 120, which will be described later, and may be installed in the ceiling A or any support unit.

According to an embodiment of the present invention, it is preferable that the power supply unit 110 is an electronic circuit built in a ceiling A or any supporting unit, and a separate connection (not shown) Terminals (not shown) may be further configured.

The connection terminal may be an outlet for connecting a cord to be used for indoor use in an indoor electrical wiring to a wiring and inserting the plug, but the present invention is not limited thereto.

The connection line 111 is a connection wiring for electrically connecting power supplied from the power supply unit 110 to the control unit 120 so that the power supply unit 110 To the power supply unit 110 so as to be directed downward.

The connection line 111 may transmit a power supply signal supplied from the power supply unit 110 to the controller 120 or may be connected to the controller 120 when the controller 120 is included in the configuration of the power supply unit 110. [ And transmits control signals, such as optical signals and driving signals, to the light emitting unit 130 and the rotation driving unit 150, which will be described later.

The control unit 120 is connected to the connection line 111 and receives power from the power supply unit 110 through the connection line 111. At least one control signal among the optical signal or the drive signal is output And may include a setting information storage unit 121, an optical signal control unit 123, and a driving signal control unit 124.

Here, the setting information may be illumination pattern information of the light emitting unit 130, rotational speed information of the rotation driving unit 150, and the like.

The setting information may be preset by a user through a separate input means (not shown) such as a button, a switch, or a keypad, or may be configured to be specified at the time of manufacture of the product.

In addition, the illumination pattern information and the rotation speed information will be described later in more detail in the description of the light emitting unit 130 and the rotation driving unit 150. [

The setting information storage unit 121 stores at least one or more pieces of setting information among preset lighting pattern information or rotational speed information. As described above, the setting information storage unit 121 stores setting information or product And the like, and stores the setting information defined at the time of manufacturing.

The optical signal control unit 123 controls an optical signal to be input to the light emitting unit 130. When the power is supplied through the power supply unit 110, And controls to output an optical signal.

The drive signal controller 124 controls a drive signal to be input to the rotation driver 150. When the power is supplied through the power supplier 110, And performs control to output a driving signal.

The light emitting unit 130 is connected to the control unit 120 and emits light according to the optical signal output from the control unit 120. The light emitting unit 130 is controlled by the control unit 120 to receive any illuminated surface, And illuminates the target surface.

The light emitting unit 130 may include a plurality of light sources 131 disposed on an arbitrary substrate (not shown), and preferably a light emitting diode (LED) lamp.

That is, the light source 131 is preferably a light emitting diode (LED).

Here, the light source 131 of the light emitting unit 130 outputs optical signals distinguished by various preset illumination pattern information according to the control of the controller 120.

The illumination pattern information may include flashing pattern information, dimming pattern information, color pattern information, and the like, as a database on patterns of illumination that can be produced by the light emitting unit 130 according to the present invention.

The blinking pattern information is information for storing an optical signal for causing the light source 131 to blink in an arbitrary pattern. The user sets a predetermined blinking pattern in advance and controls the ON / OFF switching of the respective light sources 131 according to the pattern Quot; data "

The dimming pattern information is information that stores an optical signal for varying the brightness of the light source 131. The dimming pattern information may be adjusted by adjusting a current or voltage flowing in the stereoscopic lighting apparatus 100 so that the light source 131 may display various brightness And the like.

The color pattern information is information for storing an optical signal for varying the hue of the light source 131, and is data for allowing the light source 131 to produce various colors in an arbitrary pattern.

For this purpose, the light source 131 may include a light source 131 having different colors, that is, a method of installing a plurality of LEDs, a method of combining red, green, and blue LEDs -Blue method, a color control unit (not shown) for controlling the color temperature of the LED, and a method of separately controlling the color.

That is, the light emitting unit 130 can produce various illumination patterns by various illumination patterns formed by the plurality of light sources 131 as described above.

The light diffusing unit 140 is disposed under the light emitting unit 130 to scatter light emitted from the light emitting unit 130. The light diffusing unit 140 includes a three-dimensional geometric shape, a rectangular shape, However, it is possible to use a molded lens formed by various stereolithography techniques. However, the present invention is not limited to this, and may be applied to a case where the light is uniformly transmitted and scattered, Various design changes are possible.

According to another embodiment of the present invention, the light diffusion unit 140 may be configured such that the plurality of light sources 131 are directly attached to the inside of the light diffusion unit 140, though not shown in the drawing.

The light diffusing unit 140 may be formed of a transparent material mixed with at least one of a phosphor or a metal flake corresponding to a specific wavelength so as to reflect light more efficiently.

Such transparent materials may be glass, acrylic, Lexan, and the like.

The light diffusing unit 140 may further include at least one auxiliary light diffusing unit 141 having a refractive index different from that of the auxiliary light diffusing unit 141. Accordingly, Can be arbitrarily diffused within the portion (140).

The rotation driving unit 150 provides power to rotate the light emitting unit 130 and the light diffusion unit 140 around the connecting line 111 as a center axis in response to the driving signal output from the controller 120, And a motor provided at a connection point between the connection line 111 and the light emitting unit 130.

The rotation driving unit 150 includes a center shaft (connecting line) 111 and gears formed on separate shafts intersecting the center shaft. The gears are meshed with each other and are driven at a constant revolutions per minute (RPM) The rotation mechanism may be configured to rotate about the center axis. The technical mechanism related to the rotation operation is generally known in the art and various changes and modifications may be made by those skilled in the art.

Although the rotation driving unit 150 is installed at a connection point between the connection line 111 and the light emitting unit 130 in the drawing of the present invention, And may be a connection point of the connection line 111. Accordingly, the connection line 111 may be configured to rotate together.

In addition, according to the embodiment of the present invention, the rotary type solid-state lighting apparatus 100 is formed on the outer surface of the light emitting unit 130 so that the light emitting unit 130 and the light diffusion unit 140 rotate in accordance with the wind And may further include one rotating blade 151.

It is preferable that the rotary blades 151 are formed in the form of a propeller having two blades. However, the present invention is not limited to the drawings, but the three blades, the fourth blades and the sixth blades, Various modifications can be made by those skilled in the art.

The stereoscopic lighting apparatus 100 according to the present invention may include a sensor unit 160 for outputting arbitrary sensor information in which at least one of illuminance by the light emitting unit 130 and rotation speed of the rotation driving unit 150 is sensed, And the sensor unit 160 may be divided into a first sensor 161 and a second sensor 162.

The first sensor 161 is a sensor for sensing illumination by the light emitting unit 130. The illumination pattern output from the light emitting unit 130 is scattered through the light diffusion unit 140, The degree of brightness illuminated on the surface to be formed is detected as an arbitrary value.

The first sensor 161 is preferably a light pipe, but it is not limited thereto, and various known illuminance sensors using various photovoltaic cells can be applied.

The second sensor 162 senses the rotation speed of the rotation driving part 150 and detects the rotation speed of the light emitting part 130 rotating around the connection part 111 as an arbitrary value .

The second sensor 162 may be a rotary encoder, a potentiometer, a hall sensor using a separate magnet, or the like.

The controller 120 according to the embodiment of the present invention reflects the sensor information sensed by the sensor unit 160 so that the illumination pattern of the light source unit 130 and the rotation And may further include a sensor information detecting unit 122 so that the rotational speed of the driving unit 150 can be freely varied.

The sensor information detection unit 122 detects an arbitrary value output from the sensor unit 160, that is, sensor information, and converts the setting information stored in the setting information storage unit 121 to match the detected sensor information , And stores the converted setting information in the setting information storage unit 121.

For example, the setting information storage unit 121 stores the illumination pattern information according to the illumination value that can be detected by the first sensor 161 so that the sensor information output from the sensor information detection unit 122 can be matched in real- It is preferable to divide the rotational speed information into a predetermined range according to the rotational speed that can be sensed by the second sensor 162 and store the rotational speed information in association with the illumination pattern information.

Therefore, according to the present invention, the light emitting unit configured to freely control the illumination pattern is positioned at the upper end of the light diffusion unit, and the light emitting unit and the light diffusion unit are rotated around the connecting line, which is installed downward from the upper part, Effect can be produced.

Further, there is an advantage in that a more realistic three-dimensional stereoscopic lighting effect can be produced by rotating the stereoscopic light diffusion portion formed by various stereoscopic molding techniques such as an oblique angle technique.

Further, a plurality of light sources may be directly attached to the inside of the light diffusing portion, and an auxiliary light diffusing portion having a different refractive index may be additionally provided to freely arrange the light source according to the intention of the user, It is possible to expand the range of illumination production.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

In the course of the description of the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intentions or customs of the user, the operator, and the interpretation of such terms should be based on the contents throughout this specification.

100: rotating type three-dimensional lighting apparatus 110: power supply unit
111: connecting line 120:
121: setting information storage unit 122: sensor information detection unit
123: optical signal control unit 124: driving signal control unit
130: light emitting part 131: light source
140: light diffusion part 141: auxiliary light diffusion part
150: rotation driving part 151:
160: sensor unit 161: first sensor
162: second sensor

Claims (13)

A power supply unit 110 installed at a ceiling or an arbitrary support unit to supply power and having a connection line 111 extending to a predetermined length;
A control unit 120 receiving power from the power supply unit 110 through the connection line 111 and controlling at least one of an optical signal or a drive signal to be output with predetermined setting information;
A light emitting unit 130 emitting light according to an optical signal output of the control unit 120;
A light diffusion unit 140 for scattering light emitted from the light emitting unit 130; And
And a rotation driving part (150) for providing power to rotate the light emitting part (130) and the light diffusion part (140) according to the drive signal output of the control part (120).
The method according to claim 1,
Wherein the setting information is at least one of illumination pattern information of the light emitting unit (130) or rotation speed information of the rotation driving unit (150).
3. The method of claim 2,
The control unit 120 includes a setting information storage unit 121 for storing at least one setting information of illumination pattern information or rotational speed information that is set in advance;
An optical signal controller 123 for controlling the optical signal to be outputted from the illumination pattern information stored in the setting information storage unit 121 when the power is supplied through the power supply unit 110; And
And a driving signal controller (124) for controlling the driving signal to be output based on rotational speed information stored in the setting information storage unit (121) when power is supplied through the power supply unit (110).
The method of claim 3,
The stereoscopic lighting apparatus according to claim 1, further comprising a sensor unit (160) for outputting arbitrary sensor information in which at least one of illuminance by the light emitting unit (130) or rotation speed of the rotation driving unit Typical stereoscopic lighting fixtures.
5. The method of claim 4,
The control unit 120 detects sensor information output from the sensor unit 160 and converts the sensor information stored in the setting information storage unit 121 to match the detected sensor information, And a sensor information detection unit (122) for storing the information in the information storage unit (121).
5. The method of claim 4,
The sensor unit 160 includes a first sensor 161 for sensing illuminance by the light emitting unit 130; And
And a second sensor (162) for sensing a rotation speed of the rotation driving unit (150).
The method according to claim 1,
Wherein the light diffusing unit (140) is any one of a three-dimensional geometric shape, a rectangular parallelepiped shape, and a spherical shape formed by a relief technique and a relief technique.
The method according to claim 1,
Wherein the light diffusing unit (140) has a plurality of light sources (131) installed therein.
The method according to claim 1,
Wherein the light diffusing unit (140) further comprises at least one auxiliary light diffusing unit (141) having a different refractive index from the inside.
The method according to claim 1,
Wherein the light diffusing unit (140) is made of a transparent material mixed with at least one of a phosphor or a metal flake corresponding to a specific wavelength.
11. The method of claim 10,
Wherein the transparent material is one of glass, acrylic, and lexan.
The method according to claim 1,
Wherein the rotation driving unit (150) is a motor.
13. The method according to any one of claims 1 to 12,
The rotary type solid-state lighting apparatus may further include a rotation blade 151 formed on an outer surface of the light-emitting unit 130 so that the light-emitting unit 130 and the light diffusion unit 140 rotate in accordance with the wind. A rotating type three-dimensional lighting apparatus.

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