KR20120126286A - Led lamp - Google Patents

Abstract

PURPOSE: LED(Light Emitting Diode) lighting is provided to discharge heat generated from an LED by attaching a sub-heat discharge unit to LED lighting. CONSTITUTION: A heat discharge case(120) includes an inner space where accepts an LED. The heat discharge case discharges heat generated by the LED to the outside. A heat discharge pipe(130) connects to the upper side of the heat discharge case. A power supply unit applies power to the LED accepted in the inside heat discharge pipe. A sub-heat discharge unit(140) discharges heat transmitted from the heat discharge case.

Description

LED lighting lamp {LED LAMP}

The present invention relates to an LED lamp. More specifically, the present invention relates to an LED lamp that blocks the heat and overcurrent applied to the LED so that the LED emits light stably for a long time.

In general, a light emitting diode (LED) has a structure in which an N-type semiconductor crystal in which a majority carrier is electrons and a P-type semiconductor crystal in which a majority carrier is hole are bonded to each other, and electrons and holes injected into the PN junction are recombined. It refers to a semiconductor light emitting device using the natural emission light generated when.

Since such LEDs have high photoelectric conversion efficiency, power consumption of about 5W is very low. In addition, since there is no gas or filament, it is strong against impact and safe, and not only reduces fatigue of the optic nerve but also has a long service life. Furthermore, there is an advantage that the lighting effect of various colors can be produced, and miniaturization is possible by using a small light source.

On the other hand, there are halogen lamps in the interior and exterior light bulbs, which are very large, having a rated power consumption of about 50W, generating excessive heat, and generating a lot of ultraviolet rays. . In addition, since the lighting is a single color can not expect the lighting effect of a variety of colors there is a problem in that the use is limited.

In recent years, LED lamps have been developed to replace halogen lamps, but conventional LED lamps do not exhibit the same illuminance as halogen lamps. LED is a device driven by current, and it is very sensitive to heat, and its life is significantly reduced when overcurrent flows.When the current is applied so that the LED lamp has the same illuminance as a halogen lamp, the LED will be overheated, causing damage or life. This is because it becomes very short.

It is also very important to supply a constant current to the LED because overcurrent flows to the LED, which significantly reduces its lifetime. The supply of constant current can be achieved using commercially available integrated circuit devices, the current most commonly used method of limiting the current using a switching power supply. However, when using this method, the power supply is divided into a part for converting commercial power into a low voltage DC voltage and a part for processing the converted power to achieve current control, thereby requiring various integrated circuits and additional circuits. There is a disadvantage in that it is expensive and large in size. This causes a problem of increasing the size of the LED lamp. In addition, due to the complicated circuits, there are disadvantages such as an increase in defect factors and an increase in production cost.

The present invention has been made to solve the above problems,

A first object of the present invention is to provide an LED lamp that can effectively emit heat generated by the LED and stably emit light with the same illuminance as a halogen lamp.

It is a second object of the present invention to provide an LED lamp which cuts over current applied to the LED and increases the life of the LED.

A third object of the present invention is to provide a LED lamp having a high efficiency, a small size, and a small number of components by constructing a power supply unit for supplying power to the LED in a linear manner.

LED lighting lamp according to an embodiment of the present invention,

An inner space for accommodating the LED, the heat dissipation case dissipating heat generated by the LED to the outside; A heat dissipation pipe connected to an upper portion of the heat dissipation case; A power supply unit accommodated in the heat dissipation pipe to supply power to the LED; And an auxiliary heat dissipation unit attached to an outer circumferential surface of the heat dissipation pipe and dissipating heat transferred from the heat dissipation case to the outside.

The auxiliary heat dissipation unit may include a plurality of heat dissipation plates radially arranged with one side surface attached to an outer circumferential surface portion of the heat dissipation pipe.

The auxiliary heat dissipation unit has a cylindrical shape, the heat dissipation pipe fitting portion sliding in the upper portion of the heat dissipation pipe and in contact with the heat dissipation pipe; And a plurality of heat sinks arranged radially along the outer circumferential surface of the heat dissipation pipe fitting portion.

The distance l between the outer circumferential surface and the inner circumferential surface of the heat dissipation pipe fitting portion may be 3 to 5 mm.

The power supply unit includes a rectifier circuit for rectifying the AC voltage supplied from the outside into a pulse current voltage; A smoothing circuit for smoothing the pulse current voltage to a direct current voltage; And a constant current circuit configured to receive the DC voltage and allow a current having a predetermined magnitude to flow through the LED.

It is preferable that a plurality of grooves are formed on the outer surface of the heat dissipation case.

Preferably, the heat dissipation case, heat dissipation pipe, and auxiliary heat dissipation portion are made of aluminum.

Due to the configuration as described above, the LED lamp according to an embodiment of the present invention has the following effects.

(1) By attaching an auxiliary heat dissipation part to the LED lamp, it effectively emits heat generated from the LED, so it can stably emit light with the same illuminance as the halogen lamp.

(2) It cuts over current applied to LED and increases the life of LED.

(3) By constructing a power supply unit for supplying power to the LED in a linear manner, high efficiency, small size, and a small number of components can be used.

1 is a top perspective view of an LED lamp according to an embodiment of the present invention.
2 is a bottom perspective view of an LED lamp according to an embodiment of the present invention.
3 is a view showing a state in which the LED is accommodated in the internal space in FIG.
4 is a block diagram showing a configuration of a power supply unit in the LED lamp according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail through exemplary embodiments with reference to the accompanying drawings, and the present invention is not limited thereto. In addition, detailed descriptions of well-known functions and configurations that may blur the gist of the present invention will be omitted.

1 is a perspective view of an LED lamp according to an embodiment of the present invention.

Referring to FIG. 1, an LED lamp according to an embodiment of the present invention includes a heat dissipation case 120, a heat dissipation pipe 130, and an auxiliary heat dissipation unit 140.

An inner space 129 for accommodating the LED 110 is formed in the heat dissipation case 120. The LED 110 accommodated in the heat dissipation case 120 may be an LED module connected in series to a PCB, and stably operates even when an LED 110 requiring power consumption of about the same illuminance as a halogen lamp is used. can do.

2 is a bottom perspective view of the LED lamp according to an embodiment of the present invention, Figure 3 is a view showing a state in which the LED 110 is accommodated in the inner space 129 of the heat dissipation case 120 in FIG. A bracket for fixing the LED 110 may be positioned below the heat dissipation case 120.

As discussed above, since the LED 110 is very sensitive to heat, it is important to efficiently dissipate heat generated by the LED 110. Therefore, it is preferable that a plurality of grooves 127 are formed on the outer surface of the heat dissipation case 120 of the LED lamp according to the embodiment of the present invention. As a result, while the cross-sectional area of the heat dissipation case 120 is wider, heat dissipation is more effectively performed. The plurality of grooves 127 may be formed in a horizontal direction, a vertical direction, or other various forms of the heat dissipation case 120.

The heat dissipation pipe 130 is connected to the upper portion of the heat dissipation case 120 to receive heat from the heat dissipation case 120. The heat dissipation pipe 130 has a tubular shape, and a power supply unit 150 for applying power to the LED 110 is located in the interior 135 of the heat dissipation pipe 130.

The auxiliary heat dissipation unit 140 is attached to the outer circumferential surface of the heat dissipation pipe 130. In order for LED lighting to replace halogen lamps, they must have the same illuminance as halogen lamps and must not be damaged by overheating. Therefore, the auxiliary heat dissipation unit 140 is provided as a configuration for preventing overheating by the LED 110. The auxiliary heat dissipation unit 140 receives heat that the heat dissipation case 120 does not completely discharge through the heat dissipation pipe 130, and discharges the heat to the outside. As shown in FIG. 1, the auxiliary heat dissipation unit 140 is slid from the top of the heat dissipation pipe 130 to contact the heat dissipation pipe 130 and the outer circumferential surfaces of the heat dissipation pipe fitting 143 and the heat dissipation pipe fitting 143. A plurality of heat sinks 145 arranged radially along the. The cross-sectional area of the auxiliary heat dissipating unit 140 is increased by the plurality of heat dissipating plates 145 to more effectively achieve heat dissipation of the LED 110.

Since the auxiliary heat dissipation unit 140 is configured to slide in contact with the heat dissipation pipe 130, the auxiliary heat dissipation unit 140 may be selectively coupled or separated according to the surrounding heat dissipation environment of the LED lamp. That is, when the ambient temperature is low, the auxiliary heat dissipation unit 140 may be separated. When the ambient temperature is relatively high, the auxiliary heat dissipation unit 140 may be combined to increase the heat dissipation efficiency. In addition, it is also possible to combine the auxiliary radiator 140 of a suitable size according to the power consumption of the LED used. In the case of using a large power consumption LED, it is possible to combine the auxiliary heat dissipation unit 140 of a large size, and in the case of using a small power consumption LED can be combined the auxiliary heat dissipation unit 140 of a small size.

The distance l between the outer circumferential surface and the inner circumferential surface of the heat dissipation pipe fitting portion 143 is preferably 3 to 5 mm. If the distance l is smaller than 3mm, heat dissipation efficiency is decreased because heat transmitted from the LED cannot be conducted to the auxiliary heat dissipation unit 140. If the distance l is larger than 5mm, the cost of manufacturing the auxiliary heat dissipation unit 140 is greatly increased. Because.

In the LED lamp according to another embodiment of the present invention, the plurality of heat sinks 145 may be arranged radially around the outer peripheral surface portion of the heat dissipation pipe 130. That is, the plurality of heat sinks 145 may be directly attached to the heat dissipation pipe 130.

Preferably, the heat dissipation case 120, the heat dissipation pipe 130, and the auxiliary heat dissipation part 140 are made of aluminum having excellent heat transfer.

4 is a block diagram showing the configuration of the power supply unit 150 in the LED lamp according to an embodiment of the present invention.

When an overcurrent flows through the LED 110, it is very important to supply a constant current to the LED 110 because problems such as overheating or shortening of life may occur. Therefore, the power supply unit 150 of the LED lamp according to the embodiment of the present invention includes a rectifier circuit 152, a smoothing circuit 154 and a constant current circuit 156.

Since the LED 110 operates at a DC voltage, first, the rectifier circuit 152 rectifies the AC voltage supplied from the outside into a pulse current voltage. The alternating voltage can be supplied from a halogen power supply (AC 12V). The rectifier circuit 152 may be used a variety of known rectifier circuit 152, it is preferable that the rectifier circuit is a bridge diode rectifier circuit.

The AC voltage passing through the rectifier circuit 152 is changed into a pulse current voltage, and since there is a large ripple in the pulse current voltage, a smoothing circuit 154 for removing the ripple is required. The smoothing circuit 154 may be a capacitor, or a capacitor and an inductor. The pulsed voltage passes through the smoothing circuit 154 and is converted into a DC voltage.

The AC voltage applied from the outside is not a voltage of a predetermined magnitude, but a voltage of various magnitudes in which the intensity of the voltage changes, which may be caused by a lightning strike or a system abnormality. If an alternating voltage of various magnitudes passes through the rectifier circuit 152 and the smoothing circuit 154, a different magnitude of direct current voltage is applied to the LED 110, and a direct current of varying magnitude flows through the LED 110.

Therefore, the LED lamp according to an embodiment of the present invention includes a constant current circuit 156 for supplying a predetermined amount of current to the LED 110 irrespective of the alternating voltage of various sizes. Thereby, the constant current can be efficiently supplied to the LED 110. The constant current circuit 156 may include a regulator element.

As mentioned above, although this invention was demonstrated to the said Example, this invention is not limited to this. It will be understood by those skilled in the art that modifications and variations may be made without departing from the spirit and scope of the invention, and that such modifications and variations are also contemplated by the present invention.

110: LED
120: heat dissipation case
127: multiple homes
129: interior space
130: heat dissipation pipe
135: inside of heat dissipation pipe
140: auxiliary heat sink
143: heat dissipation pipe fitting
145: plurality of heat sinks
150: power supply
152: rectifier circuit
154: smoothing circuit
156: constant current circuit

Claims (7)

An inner space for accommodating the LED, the heat dissipation case dissipating heat generated by the LED to the outside;
A heat dissipation pipe connected to an upper portion of the heat dissipation case;
A power supply unit accommodated in the heat dissipation pipe to supply power to the LED; And
And an auxiliary heat dissipation unit attached to an outer circumferential surface of the heat dissipation pipe and dissipating heat transferred from the heat dissipation case to the outside.
The method of claim 1, wherein the auxiliary heat dissipation unit,
One side is attached to the outer circumferential surface portion of the heat dissipation pipe LED lighting, characterized in that it comprises a plurality of heat dissipation arranged radially.
The method of claim 1, wherein the auxiliary heat dissipation unit,
A cylindrical shape, comprising: a heat dissipation pipe fitting portion sliding in an upper portion of the heat dissipation pipe and in contact with the heat dissipation pipe; And
LED lighting, characterized in that it comprises a plurality of heat sinks arranged radially along the outer circumferential surface of the heat dissipation pipe fitting.
The distance l between the outer circumferential surface and the inner circumferential surface of the heat dissipation pipe fitting portion,
LED illuminator, characterized in that 3 to 5mm.
The method of claim 1, wherein the power supply unit,
A rectifier circuit for rectifying the AC voltage supplied from the outside into the pulse current voltage;
A smoothing circuit for smoothing the pulse current voltage to a direct current voltage; And
LED lighting, characterized in that it comprises a constant current circuit for receiving a DC voltage to flow a current of a predetermined magnitude in the LED.
According to claim 1, wherein the outer surface of the heat dissipation case,
LED lighting, characterized in that a plurality of grooves are formed.
The heat dissipation case, the heat dissipation pipe, and the auxiliary heat dissipation unit,
LED lighting, characterized in that made of aluminum.

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