KR101305542B1 - Optical semiconductor based illuminating apparatus - Google Patents

Abstract

The present invention provides a tilting with fine height adjustment from a structure including a housing in which one or more semiconductor optical devices are disposed and a rail recessed inwardly on at least one outer surface thereof, and a tilting unit coupled to the rail and adjusting the inclination of the housing. The present invention relates to an optical semiconductor-based lighting device that can be adjusted and is easy to install and install.

Description

[0001] OPTICAL SEMICONDUCTOR BASED ILLUMINATING APPARATUS [0002]

The present invention relates to an optical semiconductor-based lighting device, and more particularly, to an optical semiconductor-based lighting device that enables the adjustment of the inclination with fine height adjustment and easy installation and construction.

Optical semiconductors such as LEDs are one of the components that are widely used for lighting recently because of their low power consumption, long service life, excellent durability, and much higher brightness than incandescent and fluorescent lamps.

In particular, the lighting device using the optical semiconductor as a light source is used not only for indoor lighting, but also for outdoor landscape lighting, security lamps, and street lamps, and also for use in factories installed in factories of various manufacturers. It can be called a trend.

Lighting devices using optical semiconductors as a light source generally use brackets as fixing parts for fixing objects such as ceilings, walls, or props, and these brackets are directly fastened with a fixture such as a bolt nut to a housing containing the optical semiconductors. Most of them are fixed.

However, since the conventional bracket is simply fastened only by the fastener as described above, if the fastening force between the fastener and the housing decreases due to the load of the housing after a long time, the bracket cannot perform its original function.

United States Patent Publication US2010 / 0220488 Japanese Laid-Open Patent Publication 2011-70816

The present invention has been invented to improve the above problems, and to provide an optical semiconductor-based lighting device that allows the adjustment of the inclination with fine height adjustment and easy installation and construction.

In order to achieve the above object, the present invention includes a housing in which at least one semiconductor optical device is disposed and a rail recessed inward on at least one outer surface thereof, and a tilting unit coupled to the rail and adjusting the inclination of the housing. It is possible to provide an optical semiconductor-based lighting device characterized in that.

Here, it is preferable that one or more protrusions protruding along the longitudinal direction of the rail is further included on the opposite surface of the rail.

Meanwhile, the tilting unit may further include a head slidingly coupled to the rail formed along at least one outer surface of the housing and connected to the object, and a bracket rotatably coupled to the head and connected to the object.

Here, the tilting unit preferably further includes a fixing piece fixed to the object and a bracket coupled to the fixing piece and connected to the housing.

In this case, the tilting unit preferably includes a bracket for allowing one side to be connected to the object and the other side to the housing to allow tilt rotation of the housing.

The tilting unit may further include a head rotatably coupled to the end of the bracket and connected to the housing, and a fixing piece fixed to the object and coupled to the bracket to allow rotation of the bracket.

The head may further include a groove having a shape corresponding to at least one protruding jaw protruding from the opposite surface of the rail in the longitudinal direction of the rail.

In addition, it is preferable that the tilting unit is further equipped with a vibration absorbing member for absorbing vibration between the fixing piece and the bracket.

On the other hand, it is preferable that the head further comprises a contact piece that rotates in proximity to the bracket.

Here, it is preferable that the contact piece further includes a fastener that is penetrated with the bracket and screwed together.

In addition, it is preferable that the fastener penetrates the central portion between the bracket and the contact piece and further includes an anti-loosening washer having a plurality of torsional blades radially along the edge.

In addition, the bracket is preferably provided with a plurality of rib grooves at regular intervals recessed radially around the fastener so that the twisting edges of the anti-loosening washers are fixed to each other.

In addition, the end of the torsion blade may be manufactured in various shapes such as square, triangle, circle, or oval.

In addition, the term "semiconductor optical element" described in the claims and the detailed description means an element including or using an optical semiconductor such as a light emitting diode chip.

Such a 'semiconductor optical device' is a package level that includes various kinds of optical semiconductors including the light emitting diode chip described above.

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

First, the present invention is coupled to the housing from the structure including a tilting unit that allows adjustment of the inclination of the housing by finely adjusting the height adjustment of the housing relative to the fixed object, it is also possible to adjust the inclination.

In addition, the present invention is a structure in which the head of the tilting unit end and the rail outside the housing are mutually coupled, there is no problem such as weakening the fastening force of the fixture over a long period of time can maintain the durability and easy installation and construction.

In addition, the present invention is the configuration of the head and the bracket constituting the tilting unit, the stone pieces provided on the contact piece of the head end and the ribs provided on the brackets contact each other, thereby limiting the rotated position while rotating the housing at a predetermined angle for a long time elapsed It is also possible to prevent the inclination of the bracket to change.

1 is a perspective view showing the overall structure of an optical semiconductor-based lighting apparatus according to an embodiment of the present invention
2 is an exploded perspective view showing the overall structure of an optical semiconductor-based lighting apparatus according to an embodiment of the present invention
3 and 4 are conceptual views showing the structure of the head and the bracket of the tilting unit, which is the main part of the optical semiconductor-based lighting apparatus according to an embodiment of the present invention, respectively

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

1 is a perspective view showing the overall structure of an optical semiconductor-based lighting apparatus according to an embodiment of the present invention.

According to the present invention, a housing 100 having one or more semiconductor optical devices (hereinafter, not shown) is disposed, and fixed to an object (hereinafter, not shown) and coupled to at least one side of the housing 100, and a housing for the object. It can be seen that the structure including the tilting unit 200 to allow the tilt control of the (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.

For reference, FIG. 2 is an exploded perspective view showing the overall structure of the optical semiconductor-based lighting apparatus according to an embodiment of the present invention, Figure 3 and Figure 4 is a main part of the optical semiconductor-based lighting apparatus according to an embodiment of the present invention Conceptual diagram showing the structure of the head and the bracket of the tilting unit, respectively.

First, the housing 100 includes a semiconductor optical element that acts as a light source as described above, and provides a space in which the tilting unit 200 is coupled, and includes an outer cylinder 110 in which a shade 112 is formed at a lower side thereof. You can see that it is a configuration.

At least one outer surface of the outer cylinder 110 may be recessed inward to form a rail 120 to which the tilting unit 200 is coupled along the vertical length direction.

Rail 120 may be referred to as a technical means to finely adjust the position where the tilting unit 200 is coupled.

That is, the worker may determine the appropriate fixing position according to the structure and position of the object by moving the tilting unit 200 along the forming direction of the rail 120.

Here, when the rail 120 is coupled with the tilting unit 200, the rail 120 may maintain a firm fastening state against the shear stress between the housing 100 and the tilting unit 200. Preferably, at least one protruding jaw 122 protruding along the length direction is further included.

On the other hand, the tilting unit 200 is to be coupled to the housing 100 as described above to enable the inclination adjustment of the housing 100 with respect to the object, referring to Figure 2 is slidingly coupled to the rail 120 It can be seen that the structure includes a head 210 connected to the object.

Here, the head 210 preferably further includes a groove 212 having a shape corresponding to one or more protruding jaws 122 protruding from the opposite surface of the rail 120 along the longitudinal direction of the rail 120. .

The head 210 is provided with a removable cover 211 to the outside, and the cover 211 is removed from the head 210 and the fasteners 215 such as bolts are fixed to the desired position of the rail 120 after The cover 211 may be closed.

Therefore, since the binding site is not exposed, the appearance is also neat.

At this time, the tilting unit 200 is further rotatably coupled by the fastener 223 including the head 210 and the bolt, connected to the object, and further includes a bracket 220 allowing the tilting rotation of the housing 100. It can be seen that the structure to include.

In addition, the tilting unit 200 may be fixed to the object and may further include a fixing piece 230 connected to the housing 100 and the bracket 220.

That is, the bracket 220 has a structure in which the support pieces 224 are formed to extend from both sides of the first connection piece 222 connected to the fixing piece 230 to allow the rotation operation of the head 210.

The fixing piece 230 has a structure in which extension pieces 232 fixed to the object are respectively formed from both sides of the second connection piece 234 connected to the first connection piece 222.

Therefore, the bracket 220 may be coupled to allow the rotation operation with respect to the second connecting piece 234 of the fixed piece 230 fixed to the object.

That is, the worker 100 is placed in a state in which the support piece 224 extending from the first connection piece 222 of the bracket 220 is slightly rotated from the arrangement structure as shown with respect to the second connection piece 234. When it is necessary to install the bracket 220 is rotated relative to the second connecting piece 234 and the first connecting piece 222 of the bracket 220 and the second connecting piece 234 of the fixing piece 230 mutually fixed It is also possible to carry out the work.

Meanwhile, the tilting unit 200 further includes a vibration absorbing member 240 for absorbing vibration between the fixing piece 230 and the bracket 220 to absorb various kinds of vibrations according to the installation environment in which the housing 100 is mounted. Alternatively, the dispersion may be prevented from directly transmitting shocks to various electrical parts inside the housing 100 and the housing 100 itself.

The dust absorbing member 240 may use elastic rubber, synthetic rubber, synthetic resin, and the like, and any structure and component capable of absorbing or dispersing vibration and shock such as a leaf spring and a coil spring to allow elastic deformation may be replaced. Of course it is possible.

In addition, it is preferable that the head 210 further includes a contact piece 214 that approaches and rotates the bracket 220 as shown in FIGS. 3 and 4.

Here, the contact piece 214 is as described above is further provided with a fastener 223 that is penetrated and mutually screwed with the bracket 220, the fastener 223 is initially the operator to the housing 100 When adjusting the inclination of the housing 100 is provided for allowing the rotation relative to the bracket 220, and then fixed.

That is, it is preferable to have a means for allowing the rotation of the contact piece 214 and the bracket 220 but limiting the rotational position, which is the housing 100 is fixed to the bracket 220 is factory In the case of a high output lighting device such as a weight, it is a problem that the position and range in which the light is irradiated may change while the inclination of the housing 100 is initially set when a long time elapses.

In view of the above, the contact piece 214 has a plurality of protrusions 213 projecting at equal intervals around the fastener 223, that is, along the edge of the communication hole 210 ′ through which the fastener 223 passes. Is provided, it is preferable that such a projection piece 213 is fixed to the release preventing washer 216 between the support pieces 224 of the bracket 220.

The anti-loosening washer 216 corresponds to the edge of each of the communication hole 210 'of the contact piece 214 and the communication hole 224' of the support piece 224 through which the fastener 223 penetrates at the center thereof. The torsion blade 216 'is radially formed. Specifically, the torsion blade 216' is radially twisted along the edge of a flat washer having a hole in the center.

Thus, the stone piece 213 is locked between the torsion blade 216 'and the adjacent torsion blade 216' so that the contact piece 214 does not cause deformation of the inclination angle set at the time of initial work with respect to the support piece 224. do.

In this case, the support piece 224 of the bracket 220 is radially recessed along the fastener 223, that is, along the edge of the communication hole 224 ′ through which the fastener 223 penetrates to prevent loosening washer 216. It is preferable that a plurality of comb-shaped rib grooves 225 each having a torsional edge 216 'of each of the plurality of torsion blades 216' are provided at equal intervals.

In addition, although the end shape of the torsion blade 216 'is not particularly illustrated, any shape may be used as long as it is a shape that can be locked to the rib groove 225, for example, various shapes such as square, triangle, circle, or oval. Of course, it can be manufactured in a shape.

Therefore, the operator penetrates the fastener 223 through the support piece 224 and the contact piece 214, and after placing the anti-loosening washer 216 between the contact piece 214 and the support piece 224, After the washer 217 ′ and the nut 217 are temporarily fastened to the ends of the sphere 223, the head 210 is fixed by slidingly coupling the head 210 to the rail 120, and then the inclination of the housing 100 is adjusted. 217 is firmly fixed to the end of the fastener 223 is all the work is complete.

In addition, although not specifically illustrated in the support piece 224, a pin capable of protruding and recessing toward the contact piece 214 is provided to rotate the nut 217 in one direction using a tool such as a wrench. In the process of fixing to the 223, the end of the pin is caught by the stone piece 213, the deformation and application of preventing the contact piece 214 from running in conjunction with the rotation of the nut 217 is also possible, of course.

That is, the protrusion piece 213 may serve as a ratchet wheel with respect to the pin, and the pin may serve as a ratchet pin with respect to the protrusion piece 213 while not allowing reverse rotation according to one direction rotation.

As described above, it can be seen that the present invention has a basic technical idea to provide an optical semiconductor-based lighting device that enables the adjustment of the inclination with fine height adjustment and easy installation and construction.

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 ... housing 200 ... tilting unit

Claims (15)

A housing in which one or more semiconductor optical devices are disposed and a rail recessed inward on at least one outer surface thereof; And
And a tilting unit coupled to the rail and adjusting the inclination of the housing.
The tilting unit includes:
A head slidingly coupled to a rail formed along at least one outer surface of the housing and connected to an object, and a bracket connected to the housing,
The head has a contact piece that rotates in proximity to the bracket,
The contact piece includes a fastener penetrating and screwed to the bracket,
The contact piece is provided with a plurality of protrusions projecting about the fasteners in contact with the bracket at equal intervals,
Between the bracket and the contact piece is provided with an anti-loosening washer through which the fastener penetrates a central portion and a plurality of torsional blades are radially formed along an edge thereof.
The bracket is an optical semiconductor-based lighting device, characterized in that provided with a plurality of rib grooves are radially recessed around the fastener and the torsion blades of the anti-loosening washer are fixed at equal intervals.
The method according to claim 1,
Opposite side of the rail is an optical semiconductor-based illumination device, characterized in that it further comprises one or more protruding projections protruding along the longitudinal direction of the rail.
delete The method according to claim 1,
The tilting unit includes:
Further comprising a fixing piece fixed to the object,
And the bracket is coupled to the fixing piece and connected to the housing.
The method according to claim 1,
The tilting unit includes:
One side is connected to the object and the other side is connected to the housing, the optical semiconductor-based lighting device comprising a bracket for allowing the tilting of the housing.
The method according to claim 1,
The tilting unit includes:
The optical semiconductor-based lighting device further comprises a bracket rotatably coupled to the head and connected to the object.
The method according to claim 1,
In the head,
And a groove having a shape corresponding to at least one protruding jaw protruding from the opposite surface of the rail along the longitudinal direction of the rail.
The method according to claim 5,
The tilting unit includes:
A head rotatably coupled to an end of the bracket and connected to the housing;
And a fixing piece fixed to the object and coupled to the bracket to allow rotation of the bracket.
delete The method of claim 4,
The tilting unit includes:
And a vibration absorbing member for absorbing vibration between the fixing piece and the bracket.
delete delete delete delete The method according to claim 1,
An end portion of the twisting blade is an optical semiconductor-based lighting device, characterized in that the rectangular, triangular, circular, or oval.

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