KR20150019016A - Optical semiconductor illuminating apparatus - Google Patents

Abstract

The present invention relates to an optical semiconductor illuminating apparatus capable of obtaining a dimming effect with low costs in any environment by giving a dimming function to a bulb type illuminating apparatus using an optical semiconductor as a light source. The present invention includes a housing which includes a socket base on the lower side thereof, a light emitting module which is arranged on the upper side of the housing and includes at least one semiconductor optical device of an AC direct driving method, an optical member which is arranged on the upper side of the housing, and a dimming unit which is formed in the housing and varies the luminous flux of the semiconductor optical device.

Description

[0001] OPTICAL SEMICONDUCTOR ILLUMINATION APPARATUS [0002]

The present invention relates to an optical semiconductor lighting apparatus, and more particularly, to an optical semiconductor lighting apparatus capable of providing a dimming function to a light bulb type light source itself having a light semiconductor as a light source, .

An illumination device based on a photo-semiconductor using a light source such as an LED (Light Emitting Diode), an organic light emitting diode, a laser diode, an organic electroluminescent diode or the like includes a housing having a heat sink in a socket base having the same shape as a halogen lamp or incandescent lamp And an optical member for mounting an optical semiconductor as a light source in the housing and surrounding the optical semiconductor is mounted on the housing.

Such a bulb-type lighting apparatus is operated in an on-off or dimming control manner.

In a lighting apparatus operated in a dimming control mode, a dimmer switch or a dimmer is required to adjust the brightness.

Since the illumination device operated with such a dimming control method is provided together with the dimmer switch, there is a problem in that the price is high, and the brightness of the specific illumination device can not be adjusted depending on the characteristics of the dimmer switch.

Particularly, although the conventional dimming control type lighting apparatus is a bulb type lighting apparatus having the same capacity, the dimmer switch of a specific company has a problem in that it is inoperable or not smooth.

Therefore, development of a device capable of implementing dimming control in a simple structure and inexpensive yet under any circumstances is urgent.

Patent Application No. 10-2005-0034256 Patent Application No. 10-2010-0097004

The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an optical semiconductor lighting device which can provide a dimming function to a light bulb type light source itself having a light semiconductor as a light source, .

According to an aspect of the present invention, there is provided a portable terminal comprising: a housing having a socket base at a lower portion thereof; A light emitting module disposed on the upper portion of the housing and including at least one semiconductor optical device that is an AC direct drive type; An optical member disposed on the upper side of the housing; And a light modulation unit provided in the housing, for varying the light flux of the semiconductor optical device.

The dimming unit includes a variable resistor unit electrically connected to the light emitting module and the socket base, a key coupled to the end of the rotary shaft of the variable resistor unit rotating in the forward direction and connected to the dimmer unit, And the like.

The optical semiconductor lighting apparatus may further include a dimming control unit connected to the dimming unit and capable of rotating forward and backward, wherein the dimming control unit is integrally formed with the optical member.

The optical semiconductor lighting apparatus further includes a dimming control unit mounted on a housing base disposed between the heat sink and the socket base constituting the upper side of the housing and connected to the dimming unit to be forward and reverse rotatable .

The optical semiconductor lighting apparatus further includes a dimming control unit disposed between the optical member and the housing and connected to the dimming unit to be able to rotate forward and backward.

The dimming control unit includes a ring-shaped adjusting member disposed between the lower end edge of the optical member and the upper edge of the housing and rotating in the forward and reverse directions; And a turning bar connected to the light control unit.

The optical member may further include a guide groove in which the adjustment member is recessably received along the outer peripheral surface of the lower end portion of the optical member and a rotation slit having a predetermined length passing through the outer peripheral surface of the lower end portion of the optical member, .

The optical member may include a guide groove in which the adjustment member is recessed so as to be seated along the outer peripheral surface of the lower end portion of the optical member and a rotary cutout cut along the lower end edge of the optical member so that the rotation bar reciprocates .

The dimming control unit includes a ring-shaped adjustment member disposed between the lower end edge of the optical member and the upper edge of the housing and rotating in the forward and reverse directions, and a ring-shaped adjustment member extending from one side of the adjustment member toward the socket base side And a turning bar connected to the light control unit.

The optical semiconductor lighting device further includes a coupling ring portion extending from a lower end portion of the optical member and having an edge fixed to an upper portion of the first housing, a coupling ring portion formed on an upper surface of the housing, Further comprising a turning stepped portion for providing a predetermined range of space in which the turning bar of the dimming control unit is rotated.

The light emitting module includes a substrate disposed on the housing and arranged on the substrate, and an AC direct drive IC disposed on the substrate. The light control unit is disposed below the substrate .

The light control unit further includes a coupling head formed at an end of the pivot bar and having a coupling groove corresponding to a shape of a key portion provided at an upper end of the light modulation unit.

The key portion includes a cylindrical key body and a fastening pattern in which a plurality of hills and bones are repeated along an outer peripheral surface of the key body.

The key portion includes a cylindrical key body and a fastening step formed by cutting the upper surface of the key body in the vertical direction.

The rotation bar may include a first bar extending from one side of the adjustment member toward the center of the adjustment member and a second bar extending from the end of the first bar toward the socket base side, And a bar.

The dimming control unit may further include a turning link, one end of which is rotatably coupled to the end of the rotating bar, and the other end of which is rotatably coupled to the rotating shaft of the dimming unit.

In addition, the 'semiconductor optical device' described in the claims and the detailed description is the same as a light emitting diode chip or the like including or using an optical semiconductor, and includes a package level including various kinds of optical semiconductor including the above-described light emitting diode chip therein .

According to the present invention having the above-described configuration, the following effects can be achieved.

First, the present invention provides a dimming unit that is electrically connected to a light emitting module to vary a light flux of a semiconductor optical device, and a dimming control unit that is mechanically connected to the dimming unit to perform a variable luminous flux operation. do.

Therefore, it is possible to solve the problem that the dimming control of the lighting apparatus can not be performed according to the characteristics of the dimmer or the troublesome necessity of separately providing the dimmer switch, i.e., the dimmer, for dimming control.

In particular, since the present invention enables dimming control at a low cost, implementation of emotional illumination will also be possible.

1 is a perspective view showing an appearance of an optical semiconductor lighting device according to an embodiment of the present invention;
2 is an exploded perspective view showing the overall structure of the optical semiconductor lighting device according to the embodiment of the present invention.
FIG. 3 is a perspective view showing a coupling relationship between the light control unit and the light control unit, which is the main part of the optical semiconductor lighting device according to another embodiment of the present invention. FIG.
4 is a perspective view showing the appearance of an optical semiconductor lighting device according to another 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 perspective view showing an appearance of an optical semiconductor lighting apparatus according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view showing an overall structure of an optical semiconductor lighting apparatus according to an embodiment of the present invention.

The present invention can recognize that the dimmer unit 100 is disposed in the housing 300 having the light emitting module 400 as shown in FIG.

The light modulation unit 100 is provided in a housing 300 provided with a socket base 301 at a lower portion thereof and changes the light flux of the semiconductor optical device 401.

The light emitting module 400 includes at least one semiconductor optical device 401 arranged on the upper side of the housing 300 and being an AC direct drive type.

Here, since the semiconductor optical device 401 of the present invention is operated by the AC direct drive system as described above, the light control unit 100 can be used from the premise that power consumption can be controlled by a resistor, It is a technical means.

Therefore, when the socket base 301 of the housing 300 needs to change the light flux of the semiconductor optical device 401 in a general bulb-type lighting apparatus coupled to a socket (not shown) The dimming control can be realized by operating the display device 100. [

It is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention.

First, the light emitting module 400 includes the semiconductor optical device 401 as described above, and includes the substrate 410 and the AC direct drive IC 420.

The substrate 410 is disposed on the upper side of the housing 300 and the semiconductor optical device 401 is disposed and the AC direct drive IC 420 is disposed on the substrate 410 and includes a conventional SMPS or a PSU A circuit for driving the semiconductor optical element 401 in an AC direct type without the power supply device is integrated.

Therefore, since the AC and DC converting apparatuses such as the conventional lighting apparatuses and the power supply apparatuses which occupy a large volume or load can be completely omitted, the space occupied by the unnecessary constituent components can be reduced by the housing 300 The installation space 310 can be replaced.

Further, the light modulation unit 100 is disposed below the substrate 410 so as not to interfere with smooth operation.

However, it is needless to say that the light modulation unit 100 is not necessarily disposed below the substrate 410, and the light modulation unit 100 may be disposed above the substrate 410 as the case may be.

The light modulation unit 100 is a structure for varying the light flux of the semiconductor optical device 401 and includes a variable resistance unit 110 and a key unit 120 as described above.

More specifically, the variable resistor unit 110 is electrically connected to the light emitting module 400 and the socket base 301, and by adjusting the resistance value by dialing, the power consumption required for operating the semiconductor optical device 401 So that it can be varied.

The key unit 120 is coupled to the end of the rotary shaft 111 of the variable resistance unit 110 which is rotating in the forward and reverse directions and mechanically connected to the light control unit 100.

More specifically, the key portion 120 may have a structure including a fastening pattern 122 in which a plurality of mountains and valleys are repeated along an outer peripheral surface of a key body 121 having a cylindrical shape, It is also possible to selectively use a structure including a fastening step 123 that is cut out from the upper surface of the base plate 121 in the vertical direction.

That is, the key unit 120 is connected to the dimming control unit 200 to be described later so that the rotational force of the dimming control unit 200 in the forward and reverse directions is accurately transmitted to the rotating shaft 111 of the dimming unit 100 The present invention is not limited to the above two embodiments, and various applications and modifications may be possible.

In the meantime, according to the present invention, the light control unit 200, which is disposed between the optical member 500 disposed on the upper side of the housing 300 and the housing 300 and connected to the light control unit 100, .

Specifically, the light control unit 200 is for mechanically controlling the light flux of the light modulation unit 100, that is, the control operation of varying the light flux of the semiconductor optical element 401 in accordance with the forward and reverse rotations, 210 and the pivot bar 220. As shown in FIG.

The adjustment member 210 is a ring-shaped member disposed between the lower end edge of the optical member 500 and the upper edge of the housing 300 to rotate in the forward and reverse directions.

The rotation bar 220 extends from one side of the adjustment member 210 toward the center of the adjustment member 210 and is connected to the light modulation unit 100.

Here, the outer surface of the adjusting member 210 is provided with a graduation mark or a light flux step by step so that the change of the light flux of the semiconductor optical device 401 according to the rotation direction can be grasped visually with reference to a point where the extension of the turning bar 220 starts. It is needless to say that it is also possible to form recognition means 211 such as a number which can be recognized as a number.

At this time, the light control unit 200 may be formed such that the guide groove 201 is recessed so that the adjustment member 210 is seated along the outer peripheral surface of the lower end of the optical member 500.

The light control unit 200 may further include a rotating slit 202 having a predetermined length that passes through the outer peripheral surface of the lower end of the optical member 500 and reciprocates the rotating bar 220.

The dimming control unit 200 may further include a rotation cutout 203 having a predetermined length cut along the lower end edge of the optical member 500 so that the rotation bar 220 reciprocates.

The optical member 500 extends from the lower end of the optical member 500 to form the guide groove 201 and the rotation slit 202 and the rotation cutout 203 and has an edge at the upper portion of the first housing 300 It is preferable to further include a fastening ring portion 510 to be fixed.

The housing 300 is formed on the upper surface 304 of the housing 300 for smooth operation of the dimming control unit 200 and rotates about the rotation of the dimming control unit 200 coupled to the outer peripheral surface of the ring- It is preferable to further form a rotation stepped portion 520 that provides a space in which the bar 220 rotates.

The edge of the substrate 410 is seated on the upper surface of the rotation step unit 520 to secure the mounting space of the light control unit 100 and the space required for the rotation of the light control unit 200, .

At this time, the rotation stepped portion 520 forms a cut-away portion as shown in an enlarged plan view as viewed from a point B of FIG. 2, and the length (l) of the cutout portion of the rotation step portion 520 is larger than the length The rotation range of the rotation bar 220 can be naturally restricted by providing the rotation angle corresponding to the length of the rotation cutout 203. [

The dimming control unit 200 includes a coupling head 220 formed on an end of the rotation bar 220 and having a coupling groove (not shown) corresponding to the shape of the key portion 120 provided at the upper end of the dimming unit 100, (222).

Here, the shape of the fastening groove should be formed so as to correspond to the shape of the various key portions 120 as described above, provided that the pivoting bar 220 does not hang against the key portion 120 of the light modulation unit 100 Of course.

Although the dimming control unit 200 is detachably coupled to the coupling ring 510 of the optical member 500 in the present invention, the dimming control unit 200 is not necessarily limited to such a structure, As shown in FIG.

That is, the user may directly grasp the optical member 500 connected to the light modulation unit 100 and rotate the light in the forward and reverse directions to vary the light flux.

Such a variable operation of the luminous flux may be useful when it is necessary to perform the operation while the power supply of the illumination apparatus is turned off.

In the case of an ordinary incandescent lamp, the degree of heat generation of the bulb portion corresponding to the optical member is significant, so that an image is formed when the bulb portion contacts the bare hand. However, in the case of the illumination device employing the semiconductor optical element, Heat resistance and durability are superior to that of general incandescent bulb.

However, even if the degree of heat generation is lower than that of a general incandescent lamp, it is preferable that the power is turned off when the operation of the light control unit 200 is performed for safety.

3, the dimming unit 100 and the dimming control unit 200 may be coupled to each other.

The dimming control unit 200 includes a turning bar 220 extending from one side of the adjusting member 210 toward the socket base 301 and connected to the dimming unit 100, The first bar 220a and the second bar 220b.

The first bar 220a extends from one side of the regulating member 210 toward the center of the regulating member 210. [

The second bar 220b extends from the end of the first bar 220a toward the socket base 301 and is connected to the light control unit 100. [

One end of the light control unit 200 is pivotally coupled to the end of the pivot bar 220 and the other end of the light control unit 200 is pivotally connected to the pivot shaft 111 of the light control unit 100, As shown in FIG.

The first bar 220a of the dimming control unit 200 passes through the rotating slit 202 or the rotating cutout 203 formed in the fastening ring portion 510 of the optical member 500, The dimming control of the light modulation unit 100 can be implemented while reciprocating the light source 202 or the rotary cutout 203 by a predetermined length.

The dimming control unit 200 is mounted on the housing base 302 disposed between the heat sink 303 and the socket base 301 constituting the upper side of the housing 300 as shown in FIG. 4, in addition to the above- Or the housing base 302 itself may be connected to the light control unit 100 so as to be capable of rotating forward and backward.

As described above, according to the present invention, it is a basic technical idea to provide a light semiconductor illuminating device that provides a light dimming function to a light illuminating device of a bulb type using an optical semiconductor as a light source, so that a dimming effect can be obtained inexpensively in any environment .

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

100 ... dimming unit
200 ... dimming control unit
300 ... housing
301 ... socket base
400 ... light emitting module
401 ... semiconductor optical device
500 ... optical member

Claims (16)

A housing having a socket base at a lower portion thereof;
A light emitting module disposed on the upper portion of the housing and including at least one semiconductor optical device in an AC direct drive system;
An optical member disposed on the upper side of the housing; And
And a light modulation unit provided in the housing, for varying the light flux of the semiconductor optical device.
The method according to claim 1,
The light modulation unit includes:
A variable resistor unit electrically connected to the light emitting module and the socket base,
And a key portion coupled to an end portion of the rotary shaft of the variable resistance portion that is rotated in the forward and reverse directions and connected to the light control unit.
The method according to claim 1,
In the optical semiconductor lighting device,
Further comprising a dimming control unit disposed between the optical member and the housing, the dimming control unit being connected to the dimming unit to perform forward and reverse rotations.
The method according to claim 1,
In the optical semiconductor lighting device,
And a dimming control unit connected to the dimming unit and capable of forward and reverse rotation,
Wherein the light control unit is integrally formed with the optical member.
The method according to claim 1,
In the optical semiconductor lighting device,
Further comprising a dimming control unit mounted on a housing base disposed between the heat sink and the socket base constituting the upper side of the housing and connected to the dimming unit to be able to rotate forward and backward.
The method of claim 3,
The dimming control unit includes:
A ring-shaped adjusting member disposed between the lower end edge of the optical member and the upper edge of the housing,
And a turning bar extending from one side of the adjusting member toward the center of the adjusting member and connected to the light control unit.
The method according to claim 1,
Wherein the optical member comprises:
A guide groove recessed in such a manner as to allow the adjustment member to be seated along an outer peripheral surface of a lower end portion of the optical member,
Further comprising a rotating slit having a predetermined length passing through an outer peripheral surface of a lower end of the optical member and reciprocating the rotating bar.
The method according to claim 1,
Wherein the optical member comprises:
A guide groove recessed in such a manner as to allow the adjustment member to be seated along an outer peripheral surface of a lower end portion of the optical member,
Further comprising a turning cutout cut along the lower edge of the optical member and having a predetermined length to which the turning bar reciprocates.
The method of claim 3,
The dimming control unit includes:
A ring-shaped adjusting member disposed between the lower end edge of the optical member and the upper edge of the housing,
And a turning bar extending from one side of the adjusting member toward the socket base side and connected to the light control unit.
The method according to claim 1,
In the optical semiconductor lighting device,
A fastening ring portion extending from a lower end of the optical member and having an edge fixed to an upper portion of the first housing,
Further comprising a turning stepped portion formed on an upper surface of the housing and providing a space in which a turning bar of the dimming control unit coupled to an outer circumferential surface of the fastening ring portion rotates.
The method according to claim 1,
The light emitting module includes:
A substrate disposed on the housing, on which the semiconductor optical device is disposed,
And an AC direct drive IC disposed on the substrate,
Wherein the light modulation unit is disposed below the substrate.
The method of claim 3,
The dimming control unit includes:
Further comprising a coupling head formed at an end of the pivot bar and having a coupling groove corresponding to a shape of a key portion provided at an upper end of the light modulation unit.
The method of claim 12,
The key unit includes:
A cylindrical key body,
And a fastening pattern in which a plurality of ridges and valleys are repeated along an outer circumferential surface of the key body.
The method of claim 12,
The key unit includes:
A cylindrical key body,
And a fastening step cut out from the upper surface of the key body in the vertical direction.
The method of claim 9,
The above-
A first bar extending from one side of the regulating member toward the center of the regulating member,
And a second bar extending from the end of the first bar toward the socket base side and connected to the light control unit.
The method of claim 9,
The dimming control unit includes:
Wherein one end portion is rotatably coupled to the end portion of the rotation bar and the other end portion is coupled to the rotation axis of the dimming unit.

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