KR20110123573A - Led apparatus of rod shape that use prism-sheet - Google Patents

Abstract

PURPOSE: An LED lighting apparatus of a rod shape is provided to reduce maintenance costs by arranging a constant voltage supply device inside a finishing cap and easily replacing the constant voltage supply device. CONSTITUTION: The outer appearance of a top housing(110) is formed in a half-pipe shape with a predetermined length. The outer tube of a lower housing(120) is formed by connecting with the top Housing. A reflective device(130) is attached to the inner side of the top housing and reflects incident light. A prism sheet(140) is placed in the inner side of the lower housing. An LED light emitting device(150) is composed of a circuit board which is mounted with an LED.

Description

Rod-shaped LED lighting device using prism sheet {LED APPARATUS OF ROD SHAPE THAT USE PRISM-SHEET}

The present invention relates to a lighting device using an LED (light emitting diode) as a light source, and more particularly to an LED lighting device having a rod shape, such as a fluorescent lamp.

Currently, the most widely used indoor lighting device is a fluorescent lamp.

Such fluorescent lamps are more energy efficient than incandescent lamps, and thus are widely used worldwide.

However, although fluorescent lamps have better lighting efficiency than ordinary incandescent lamps, they consume a lot of electricity and consume about 2.1 trillion kWh of electricity worldwide. This represents about 12 to 15% of the total electricity, which generates 1.7 billion tons of CO ₂ annually.

In addition, the fluorescent lamp is manufactured using mercury, and the frequent replacement of the fluorescent lamp is required due to the relatively short life of the lamp to produce a large amount of waste fluorescent lamp, such a waste fluorescent lamp contains mercury to treat the waste fluorescent lamp In addition to the high cost, the environmental pollution problem is serious.

Due to these problems, environmental regulations related to fluorescent lamps are tightening around the world, such as recently, some countries have banned the sale of fluorescent lamps.

Due to such a problem, a lighting device using a light-emitting diode (LED), which is an environmentally friendly light emitting device, has been proposed.

In the case of a lighting device using the LED as a light emitting element, the life of the lamp is much longer than the fluorescent lamp, the energy saving effect is large, and the brightness of the lighting device is also excellent.

If 30% of domestic lighting is replaced by LED lighting by 2015, it is well known that it has an effect of saving about 16 billion kWh of electricity and reducing 6.8 million tons of CO ₂ annually.

Lighting devices using such LEDs are currently replacing many existing lighting devices such as direct lighting, indirect lighting, and the like.

As a representative example, many LED lamps have been manufactured and sold to replace halogen lamps in which nulls are conventionally used as local lighting means.

However, fluorescent lamps, which occupy the largest portion of the lighting device, have not been substantially replaced, and the reason is as follows.

1 shows a conventional fluorescent lamp type LED lighting device, the conventional fluorescent lamp type LED lighting device is significantly more expensive than the fluorescent lamp due to the cost increase according to the number of LEDs used due to the large number of uses of the LED (10) There is a high problem. This price problem is a decisive factor in not replacing the existing fluorescent lamps with LED lighting devices.

In addition, the LED 10 has a high brightness due to the large amount of light generated per unit area, and thus has high brightness and easy lighting for local areas, but it is difficult to implement when even lighting is required in a large space such as a room. In the case of using the chip-shaped LED 20 as a light source, there is a problem that a dark portion is generated near the light incident portion, and in order to solve such a problem, a diffuser plate having a predetermined high opacity ( There is a problem that the light efficiency is lowered by using 30).

In addition, due to the heat generated by the use of a large number of LEDs, the life and performance of the LED is reduced, there is a problem that must be provided with a very efficient heat dissipation means to prevent this, and there is a problem that the cost increases.

In addition, the lifetime of the LED 10 is somewhat different depending on the amount of light, but is about 50,000 hours, the constant voltage supply means (20 / SMPS: switching mode power to convert to a drive power for driving the LED using an external AC power) The supply lasts only about 5,000 hours.

Therefore, the LED lighting device must replace the constant voltage supply means several times.

However, in the conventional fluorescent lamp type LED lighting apparatus as the constant voltage supply means is disposed behind the internal substrate as shown in Figure 1, the replacement of the constant voltage supply means has to disassemble the whole, and thus maintenance is difficult There is a problem that the associated costs increase.

The present invention was devised to solve the problems of the conventional fluorescent lamp type LED lighting device as described above to reduce the number of uses of the LED to reduce the cost, to achieve even lighting in a large space, high light efficiency and smooth heat dissipation It is an object of the present invention to provide a rod-shaped LED lighting device using a prism sheet that is easy to maintain the performance of the lighting device, and further easy to replace the constant voltage supply means.

The present invention has the following technical features as a means for achieving the problem to be solved by the present invention as described above.

The present invention relates to an LED lighting device, in the fluorescent lamp type LED lighting device that receives the driving power from the constant voltage supply means, the half-pipe shape having a predetermined length in order to achieve a uniform illumination while reducing the number of uses of the LED Upper housing to form an appearance; A lower housing made of a transparent material, forming an appearance by combining with the upper housing in a half pipe shape having a predetermined length; Reflection means attached to an inner surface of the upper housing to reflect incident light; A prism sheet positioned on an inner side of the lower housing and protected by the lower housing, the prism sheet diverging only the above light at a predetermined angle of incidence and reflecting the rest of the light; It is installed at both sides or one side open portion formed by the combination of the upper housing and the lower housing, and provided with a connection terminal connected to the constant voltage supply means on the rear side and mounted on the front surface of the LED connected to the connection terminal LED light emitting means consisting of a circuit board; Side reflecting means for reflecting the incident light when the LED light emitting means is installed in only one open portion, the other open portion; And a closing cap having a power supply terminal connected to the connection terminal in a cap shape to insert and protect both side portions of the LED light emitting means or the side reflecting means.

In addition, for easy replacement of the constant voltage supply means, the constant voltage supply means is located between the LED light emitting means and the closing cap, the input terminal is connected to the power terminal of the closing cap and the output terminal is the LED light emitting means It is connected to the connection terminal of the circuit; characterized in that.

In addition, the reflecting means is an injection molding of a corresponding shape to be coupled to the inner surface of the upper housing to increase the reflectance and to reduce the manufacturing cost, the inner surface is characterized in that the aluminum or magnesium deposition treatment.

In this case, the reflecting means is an injection molded article having an embossed shape on the inner surface;

In addition, in order to discharge heat of the LED, the upper housing is made of aluminum and has a plurality of heat sinks on the outer surface, and the circuit board is a metal substrate made of a metal material, and connects the upper housing and the metal substrate to serve as a heat transfer medium. Side heat dissipation means to the; characterized in that it further comprises.

In addition, the lower housing is characterized in that the diffusion means having a light diffusion function.

In addition, the side reflecting means is an injection molding for high reflectivity, one side facing the LED light emitting means is to be aluminum or magnesium deposition treatment.

At this time, the side reflecting means is that one side is an injection molding protruded in a semi-circular shape;

By means of solving the problems of the present invention as described above, the present invention has the effect of relatively reducing the cost of the lighting device, it is possible to implement an even illuminance in a wide space such as a fluorescent lamp.

In addition, compared with the conventional fluorescent lamp type LED lighting device has a high light efficiency and smooth heat dissipation, it is easy to maintain the performance of the lighting device, it is easy to replace the constant voltage supply means has the effect of reducing the maintenance cost.

Furthermore, there is an effect that can replace the existing fluorescent lamp with an LED lighting device by the above effect, thereby saving energy and preventing environmental pollution.

1 is a view showing a conventional LED lighting device of the fluorescent lamp type,
2 is a view conceptually showing the configuration of a rod-shaped LED lighting apparatus using the prism sheet of the present invention;
3 is a view showing in detail a part of the configuration of the rod-shaped LED lighting apparatus using the prism sheet of the present invention;
4 is a view showing a configuration according to an embodiment of a rod-shaped LED lighting apparatus using the present invention prism sheet,
5 is a view showing an embodiment of the constant voltage supply means of the rod-shaped LED lighting apparatus using the prism sheet of the present invention,
6 is a view for explaining a heat radiation structure of the rod-shaped LED lighting apparatus using the prism sheet of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention with respect to one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

2 is a conceptual view showing the configuration of a rod-shaped LED lighting device using the prism sheet of the present invention is a fluorescent lamp type LED lighting device that emits light by receiving a DC power from the constant pressure supply means 20 The upper housing 110, the lower housing 120, the reflecting means 130, the prism sheet 140, the LED light emitting means 150 and the finishing cap 160 are included in the basic configuration to achieve even illumination. In accordance with the side reflecting means 170.

Through this configuration, the present invention reflects the light emitted from the LED light emitting means 150 using the reflecting means 130 to the side reflecting means 170, and only the light incident at a predetermined angle is the prism. Emitted to the front through the sheet 140 to transform the side-radiation light to the front surface emission to achieve even illumination. Hereinafter, each configuration will be described in detail.

3 shows a detailed configuration of a rod-shaped LED lighting device using the prism sheet of the present invention, the upper housing 110 and the lower housing 120 has a predetermined length to achieve a rod-shaped appearance. It has a half pipe shape.

As such, the upper housing 110 and the lower housing 120 form an appearance similar to a fluorescent lamp by combining, and the upper housing 110 is not particularly limited in material and may be implemented in various materials such as synthetic resin or metal material. It is possible.

In particular, as shown in the drawing for explaining the heat dissipation structure of the rod-shaped LED lighting device using the prism sheet of the present invention, the upper housing 110 is made of aluminum, and a plurality of heat sinks 115 are provided on the outer surface. It can be formed to have a heat dissipation function.

The plurality of heat sinks 115 may increase the heat dissipation efficiency by increasing the contact area for heat exchange with the atmosphere by increasing the outer diameter area of the upper housing 110.

The lower housing 120 may be implemented in a synthetic resin or glass material by a transparent means.

The lower housing 120 has a main function of protecting the prism sheet 140 together with the appearance of the outer housing 120. If necessary, the lower housing 120 may be formed of a conventional diffuser plate for even luminance of light emitted through the prism sheet 140. It can be made as a diffusion means that is made and the transparency is very high.

The reflecting means 130 is a means attached to the inner surface of the upper housing 110 and reflects the incident light toward the prism sheet 140. In general, the reflecting means 130 is implemented by various means or methods for reflecting light.

Such reflecting means 130 may be a means for reflecting light in general, but the injection molding molded by the injection molding method, by forming a metal surface through the aluminum or magnesium deposition method on the inner surface to achieve a high reflectance It is desirable to have.

That is, in the present invention, a half pipe shape injection molding corresponding to the inner side is formed to couple the reflecting unit 130 to the inner side of the upper housing 110, and aluminum or magnesium deposition is applied to the inner side. It is characterized in that the reflecting means for forming an aluminum or magnesium deposition surface.

In addition, the injection molding is characterized in that it has an embossed shape on the inner surface in order to increase the reflectance.

The prism sheet 140 is positioned on the inner side of the lower housing 120 and is protected by the lower housing 120. The prism sheet 140 emits only light having a predetermined angle of incidence to the front surface and reflects the rest.

That is, the prism sheet 140 obtains light from the LED light emitting means 150 which is a side light source, and condenses the side light emitted from the side through front light through the reflection of the reflecting means 130 to the surface light source of uniform brightness. Transform.

Such a prism sheet 140 is not limited to any specific prism sheet as the conventional prism sheet 140, and various prism sheets can be used.

The LED light emitting means 150, the finishing cap 160 and the side reflecting means is coupled as shown in the figure showing the configuration according to an embodiment of the rod-shaped LED lighting apparatus using the prism sheet of FIG.

The LED light emitting means 150 is installed at both sides or one open portion formed by the combination of the upper housing 110 and the lower housing 120 to provide metering.

The LED light emitting unit 150 is connected to the constant voltage supply means 30 and is provided with a connection terminal 152 on the back and the LED 10 connected to the connection terminal 152 in a circuit on the front It consists of a mounted circuit board.

The LED 10 may use a variety of LEDs, the number of use is preferably one to four.

Such LED light emitting means 150 may be installed only in one open portion as shown in FIG. 4, or may be installed in both open portions.

1 and 4, if only one side of the opening is installed and the other side is not installed, the side opening reflects the light emitted from the LED light emitting means 150 installed on the side of the other side. Join the means 170.

Like the reflecting means 130, the side reflecting means 170 may be a means for reflecting light in general, but may be an injection molding molded through an injection molding method, and the reflecting surface may be an aluminum or magnesium deposition method. The metal surface is formed to have a high reflectance.

In addition, as shown in FIG. 7 an embodiment of the side reflecting means of the rod-shaped LED lighting apparatus using the prism sheet of the present invention through the aluminum or magnesium deposition method on the injection molding 172 protruding in a semicircular shape Metal surfaces are formed to have a relatively higher reflectance.

The closing cap 160 serves to close the open ends of both ends by protecting the LED light emitting means 150 by inserting the both ends of the open portion is inserted into the interior by a predetermined length in a cap shape having an internal space.

It also has a power supply terminal 162 connected to the connection terminal 152. When the constant voltage supply means 20 is external, the connection terminal 152 is connected to the constant voltage supply means 20 to supply driving power such as DC power to the LED light emitting means 150, and the constant voltage When the supply means 20 is inside, it is connected to an external AC power and supplies the external AC power to the constant voltage supply means 20.

That is, Figure 5 as shown in the drawings showing an embodiment of the constant voltage supply means of the rod-shaped LED lighting apparatus using the prism sheet of the present invention, the LED lighting apparatus according to the present invention is a constant voltage supply means inside the closing cap 160 (20) is located, which is for easy replacement of the constant voltage supply means (20).

The constant voltage supply means 20 is located between the LED light emitting means 150 and the closing cap 160, the input terminal receiving the AC power is circuitry with the power terminal 162 of the closing cap 160. Is connected to the output terminal and outputs a DC power circuit is connected to the connection terminal 152 of the LED light emitting means 150, wherein the input terminal and the output terminal of the constant voltage supply means 20 and the power terminal 162 The connection terminal 152 is inserted into a groove shape so that the connection between the above components is made through fitting coupling.

As such, the closing cap 160 and the LED light emitting means 150 are connected to the constant voltage supply means 20 by fitting coupling, so that when the replacement of the constant voltage supply means 20 is required, the user may receive the closing cap ( Removing the 160 and removing the constant voltage supply means 20 in a pulled out form can be replaced by inserting a new constant voltage supply means 20.

In addition, the present invention as shown in Figure 6 for explaining the heat dissipation structure of the rod-shaped LED lighting device using the prism sheet of the present invention, a configuration for emitting heat generated in the LED light emitting means 150 to the outside As described above, the upper housing 110 is made of aluminum, and forms a plurality of heat sinks 115 on the outer surface exposed to the outside atmosphere. Such heat sinks 115 increase the area in contact with the air, that is, the heat dissipation area. .

At the same time, the circuit board of the LED light emitting means 150 is a metal substrate made of a metal material, which is intended to transfer heat generated from the LED 10 to the outside.

In addition, the upper housing 110 and the metal substrate has a side heat dissipation means 180 that serves as a heat transfer medium.

The side heat dissipation means 180 is made of a metal material having high thermal conductivity, and has a structure in contact with the metal substrate and the upper housing 110 as shown in FIG. 6.

Due to the combination of the configuration, the heat generated from the LED 10 is transferred to the metal substrate, and then the metal substrate heat exchanges with the side heat dissipation means 180 in contact with the metal substrate, and then the side heat dissipation means 180. The heat exchange with the upper housing 110 in contact with the side heat radiation means 180. Heat generated in the LED 10 through such a heat exchange process is finally discharged to the outside through the heat sink 115 of the upper housing 110.

In the above, the present invention has been described based on the preferred embodiments, but the technical idea of the present invention is not limited thereto, and modifications or changes can be made within the scope of the claims. It will be apparent to those skilled in the art, and such modifications and variations will belong to the appended claims.

10: LED (light emitting diode)
20: switching mode power supply (SMPS)
30: diffuser plate with high opacity
110: upper housing
115: heat sink
120: lower housing
130: reflecting means
140: Prism Sheet
150: LED light emitting means
160: finishing cap
170: reflecting means
180: side heat radiation means

Claims (8)

In the fluorescent lamp type LED lighting device that receives the driving power from the constant voltage supply means for emitting light,
An upper housing forming an exterior in a half pipe shape having a predetermined length;
A lower housing made of a transparent material, forming an appearance by combining with the upper housing in a half pipe shape having a predetermined length;
Reflection means attached to an inner surface of the upper housing to reflect incident light;
A prism sheet positioned on an inner side of the lower housing and protected by the lower housing, the prism sheet diverging only the above light at a predetermined angle of incidence and reflecting the rest of the light;
It is installed at both sides or one side open portion formed by the combination of the upper housing and the lower housing, and provided with a connection terminal connected to the constant voltage supply means on the rear side and mounted on the front surface of the LED connected to the connection terminal LED light emitting means consisting of a circuit board;
Side reflecting means for reflecting the incident light when the LED light emitting means is installed in only one open portion, the other open portion; And
The rod-shaped LED using the prism sheet further comprises a; a cap having a power terminal connected to the connection terminal in a cap shape to insert and protect both sides coupled to the LED light emitting means or the side reflecting means Lighting device. The method of claim 1, wherein the constant voltage supply means
Located between the LED light emitting means and the closing cap, the input terminal is connected to the power terminal of the closing cap and the output terminal is connected to the connection terminal of the LED light emitting means and the prism sheet, characterized in that Rod-shaped LED lighting device using. The method of claim 1, wherein the reflecting means
Rod-shaped LED lighting apparatus using a prism sheet, characterized in that the injection molding of a shape corresponding to the inner side of the upper housing to the aluminum or magnesium deposition treatment. The method of claim 3, wherein the reflecting means
The rod-shaped LED lighting apparatus using a prism sheet, characterized in that the injection molding having an embossed shape on the inner surface. The method of claim 1,
The upper housing has a plurality of heat sinks on the outer surface of the aluminum material, the circuit board is a metal substrate of a metal material, the side heat dissipation means that serves as a heat transfer medium by connecting the upper housing and the metal substrate; A rod-shaped LED lighting device using a prism sheet, characterized in that. The method of claim 1, wherein the lower housing
The rod-shaped LED lighting apparatus using a prism sheet, characterized in that the diffusion means having a light diffusion function. The method of claim 1, wherein the side reflecting means
The rod-shaped LED lighting device using a prism sheet, characterized in that the injection molding is one side toward the LED light emitting means is subjected to aluminum or magnesium deposition treatment. The method of claim 7, wherein the side reflecting means
The rod-shaped LED lighting device using a prism sheet, characterized in that the one side surface is an injection molding protruded in a semi-circular shape.

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