KR101220757B1 - the illumination module for illumination system based on blue-chip and the illumination system therewith - Google Patents

Abstract

The present invention relates to a lighting module for a lighting device based on a blue chip and a lighting device to which the lighting module is applied. A plurality of blue chips are arranged and fixed at a predetermined interval on a front surface of an aluminum substrate, and the blue chip is mixed with gold and silver. It is bonded to the substrate by wires, and the lens is formed in front of the blue chip, between the blue chip and the lens to form a lighting module filled with a yellow phosphor, and applies the lighting module to general lighting, the brightness is excellent, Can provide a good heat dissipation; A battery, a charger capable of charging the battery, a control unit for controlling the overall operation, and a common heat dissipation unit are housed in an aluminum case, and the heat dissipation unit is assembled with a lighting module having the structure described above, and in front of the light module. It is possible to provide an illuminating device having a structure in which a reflector and a reflector are sequentially assembled, thereby providing an illuminating device having a uniform brightness and excellent heat dissipation.

Description

Lighting module for illumination system based on blue-chip and the illumination system therewith}

The present invention relates to a lighting module for a lighting device based on a blue chip and a lighting device to which the lighting module is applied. A plurality of blue chips are arranged and fixed at a predetermined interval on a front surface of an aluminum substrate, and the blue chip is mixed with gold and silver. It is bonded to the substrate by wires, and the lens is formed in front of the blue chip, between the blue chip and the lens to form a lighting module filled with a yellow phosphor, and applies the lighting module to general lighting, the brightness is excellent, Can provide a good heat dissipation; A battery, a charger capable of charging the battery, a control unit for controlling the overall operation, and a common heat dissipation unit are housed in an aluminum case, and the heat dissipation unit is assembled with a lighting module having the structure described above, and in front of the light module. It is possible to provide an illuminating device having a structure in which a reflector and a reflector are sequentially assembled, thereby providing an illuminating device having a uniform brightness and excellent heat dissipation.

In general, when taking a picture, if the light is not sufficient, the light is transmitted to the subject through artificial lighting, and the image taken by the lighting shows various differences depending on the area of the light source, the intensity, and the distance to the subject.

In addition, such a photographic light includes a continuous light of continuous light emission, and a high-speed instant flash light of instantaneous light, the low-speed light lighting, incandescent light, halogen light, fluorescent light There are lights, and a flashing light device includes a speed light (aka strobe).

Previously, if you look at the continuous light in more detail, first, incandescent light (or tungsten light) refers to the light using a tungsten as a filament), the color temperature is about 2800K, has a red light, It is inexpensive and has a soft glow, so it is used to create a warm picture.

In addition, halogen lighting has a filament inside a tube made of crystal (higher melting point than glass), and the inside of the bulb is filled with halogen (gas), which has a longer life than incandescent lamps, and has a color temperature of about 3200K. It has a red glow.

And fluorescent lighting has a color temperature of about 5300K, the overall soft, clean and soft light, does not generate high heat, and has a long feature of the bulb life.

However, the incandescent lamp in the continuous light method described above has a problem that the color temperature is too low, heat generation is severe, energy efficiency is short, the life cycle is short, the replacement cycle is short.

In addition, halogen lamps have a longer life than incandescent lamps, but heat generation is similar to incandescent lamps, and color temperatures are still low as incandescent lamps, and thus, photos are more likely to have a red color.

In addition, the fluorescent light has a high color temperature, but according to the fluctuation of the alternating frequency, it generates about 60 flashes per second.If the shutter speed of the camera is faster than the number of flashes per second, some of the lights fail to receive at the moment of blinking. The lower part of the picture was dark due to lack of light, so a part of the screen did not appear.

In other words, incandescent lamps and halogens are difficult to apply for bright photography due to low color temperature, high heat generation, high energy use, and long time shooting due to heat when the subject is a human. In this case, the problem of insufficient light quantity occurs.

Therefore, in order to solve the above problems, a plurality of blue chips are arranged and fixed at predetermined intervals on the front surface of an aluminum substrate, and the blue chips are bonded to the substrate by a wire mixed with gold and silver, and a lens is formed in front of the blue chips. Thus, between the blue chip and the lens constitute a lighting module of a structure filled with a yellow phosphor, and the lighting module is applied to general lighting, to provide excellent brightness and excellent heat dissipation.

In addition, a battery, a charger capable of charging the battery, a control unit for controlling the overall operation, and a common heat dissipation unit are accommodated in an aluminum case, and the lighting module having the structure described above is assembled to the heat dissipation unit, and the illumination A lighting device having a structure in which a reflector and a reflector are sequentially assembled at the front of the module is configured to provide a lighting device having a uniform brightness and excellent heat dissipation.

As described above, in the present invention, a plurality of blue chips are arranged and fixed at a predetermined interval on the front surface of an aluminum substrate, and the blue chips are bonded to the substrate by a wire mixed with gold and silver, and a lens is formed in front of the blue chips, and the blue chips and the lenses are In between, a lighting module having a structure filled with yellow phosphor is formed, and the lighting module is applied to general lighting, so that the brightness is excellent and the heat dissipation is excellent.

In addition, a battery, a charger capable of charging the battery, a control unit for controlling the overall operation, and a common heat dissipation unit are accommodated in an aluminum case, and the lighting module having the structure described above is assembled to the heat dissipation unit, and the illumination A lighting device having a structure in which a reflector and a reflector are sequentially assembled at the front of the module is configured to provide a lighting device having a uniform brightness and excellent heat dissipation.

1 is a perspective view of a lighting device to which a lighting module is applied according to the present invention;
2 is an exploded perspective view of a lighting device to which a lighting module is applied according to the present invention;
3 is an exploded perspective view of the lighting module according to the present invention;
4 is a side sectional view of a lighting device to which a lighting module is applied according to the present invention;
5 is an enlarged view of a portion A;

The present invention relates to a lighting module for a lighting device based on a blue chip and a lighting device to which the lighting module is applied. A plurality of blue chips are arranged and fixed at a predetermined interval on a front surface of an aluminum substrate, and the blue chip is mixed with gold and silver. It is bonded to the substrate by wires, and the lens is formed in front of the blue chip, between the blue chip and the lens to form a lighting module filled with a yellow phosphor, and applies the lighting module to general lighting, the brightness is excellent, Can provide a good heat dissipation; A battery, a charger capable of charging the battery, a control unit for controlling the overall operation, and a common heat dissipation unit are housed in an aluminum case, and the heat dissipation unit is assembled with a lighting module having the structure described above, and in front of the light module. It is possible to provide an illuminating device having a structure in which a reflector and a reflector are sequentially assembled, thereby providing an illuminating device having a uniform brightness and excellent heat dissipation.

The present invention relates to a lighting module for a lighting device based on a blue chip and a lighting device to which the lighting module is applied. The lighting module will be described first as follows.

First, the lighting module 100 is composed of a substrate 110, a blue chip 120, a lens sphere 131, the complementary film 140, as shown in Figure 3, first, the blue chip 120 is an LED (LED) , Which refers to a basic element constituting a light emitting diode (LED), and generally, a white LED having various colors forms a white LED by applying a yellow phosphor to the blue chip 120. Refers to the non-phosphor coating, the blue chip 120 has a small size, has a high brightness.

Next, the substrate 110 has a structure in which the blue chip 120 is assembled, and has a circuit for the operation of the blue chip 120, and the front surface is arranged in the arrangement structure of the blue chip 120 for fixing the lens 133. The auxiliary frame 111 according to the structure is integrally protruded, and the substrate 110 uses a general resin substrate 110 or an aluminum substrate 110 made of aluminum.

In addition, the lens unit 130 is composed of a lens sphere 131 and a lens 133, the lens sphere 131 is a plate-shaped to be fitted to the auxiliary frame 111, the through-hole diffusion hole 132 is In the structure formed in plural, the diffusion hole 132 is formed in a structure that becomes wider from one surface to the other surface, the inner surface of the diffusion hole 132 is a reflective surface formed by a silver coating, for reference, the diffusion hole The position of 132 is formed at the same position as that of the blue chip 120 installed on the substrate 110.

On the other hand, the lens 133 preferably goes simultaneously with the focus lens function with the diffusion lens function.

And the complementary color film 140 is a film having a complementary color for the color applied when the color emitted by the illumination module 100 according to the present invention is a color other than white, the addition of the complementary film 140 The lighting module 100 emits white light.

Thus, as shown in FIG. 5, an adhesive is applied to the inside of the auxiliary frame 111 of the substrate 110 having the above-described structure, and the blue chips 120 are arranged and arranged at regular intervals, and the blue chips are formed on the front surface of the substrate 110. Although wire 120 is bonded to the substrate 110, the wire used for such wire bonding generally uses a gold wire (gold thread), but a composite wire (gold and silver composite room) nano-mixed gold and silver When using, the conductivity can be improved than when using the gold wire, and because it minimizes the resistance to maximize the luminous effect, it is also excellent heat generation.

On the other hand, the substrate 110 is formed in a plate shape, a plurality of blue chips 120 fixed to the substrate 110 is fixed at a predetermined interval, the interval between which the blue chip 120 is fixed has a interval of 1.5 ~ 2mm. The blue chips are preferably arranged in such a way that the blue chips having a higher wavelength band and the blue chips having a lower wavelength band are adjacent to each other (arranged so that blue chips having different wavelength bands are adjacent to each other), and also arranged in a circle, a square, a pentagon, and a polygon. When the arrangement of the blue chips 120 is circular, the arrangement distance of the blue chips 120 has 20 to 120 mm depending on the power consumption and the use structure.

And while assembling the lens sphere 130 described above into the auxiliary frame 11, while assembling the narrow side of the diffusion hole 132 toward the blue chip 120, the position of the diffusion hole 132 and the blue chip 120 Are assembled to be the same, and each of the diffusion holes 132 is filled with a yellow phosphor (not shown), a curing agent is applied, and then all the lenses 133 are assembled to each of the diffusion holes 132. When the complementary color film 140 is fixed to the front of the completed lens sphere 130, the lighting module 100 is assembled.

The blue chip 120, the lens unit 130, and the complementary color film 140 are sequentially assembled to the substrate 110, and the lighting module 100 is configured to illuminate a photo. It may be variously applied to a device, other broadcast lighting device, or other lighting.

Next, the lighting device to which the above-described lighting module 100 is applied will be described.

Lighting device according to the present invention, the case 200, the charging control unit 300, the heat dissipation unit 400, the lighting module 100, the diffusion filter 500, the reflector 600, the finishing cover 700 and the reflector ( 800).

First, as shown in Figures 2 and 4, the case 200 is composed of a main body 210, the back cover 220, the main body 210 is penetrated to the left and right, which can accommodate the inside In order to have a space, the cross section of the main body 210 has a circular or polygonal shape, and a plurality of female screws 210a for fixing are formed on the front surface of the main body 210.

As shown in FIG. 4, the back cover 220 is assembled to one end of the main body 210, and the back cover 220 completely blocks one surface of the main body 210. On and off switch 221 to adjust the brightness, adjustable volume 222 (generally configured in the form of a dial), an externally powered socket (not shown) Consists of.

Thus, the case 200 has a structure in which the back cover 220 is fixed to one end of the main body 210. (If a plurality of female screws are formed on the back of the main body and a fixing hole penetrated through the back cover is formed, the screw Can be fixed to the back cover)

In addition, the case 200 further comprises a hanger 230 having a structure capable of lifting, fixing, or hanging the case 200, but is configured in a conventional hanger 230 structure, but is simply a general handle. As shown in FIGS. 1 and 4, the hanger 230 has a support 231 fixed to both sides of the main body 210 (left and right in the vertical direction along the longitudinal direction of the main body). ) And the connection part 232 to which the end of the support part 231 is connected are configured in an integrated structure.

Meanwhile, the fixing of the support part 231 of the hanger 230 and the main body 210 is completely fixed, or the fixing of the support part 231 and the main body 210 of the hanger 230 is hinged, It is possible to adjust the angle of the main body 210 with respect to the hanger 230, the support portion 231 is further provided with a separate fixing means (for example, bolts), and the main body 210 by the fixing means 231a It is possible to fix the hanger 230 at a specific angle.

 Furthermore, a fixing fixture 233 protruding in the center of the connecting portion 232 is further configured, and a cylindrical fixing groove 233a is formed at the bottom of the fixing fixture 233, and a fixing groove 233a is formed at the side of the fixing groove 233a. Consists of a structure in which the female screw (233b) is formed to continue, it is possible to fix the lighting device according to the present invention to a separate stand, stand (not shown) as a fixing groove 233a of the fixture 233 configured in the hanger 230 It is inserted into the upper end of the) and is configured to insert a separate screw (not shown) (for example, a bolt) by the female screw 233b to fix.

In addition, the hanger 230 may be configured in various structures having a general lighting device.

Next, the charging control unit 300, as shown in Figure 4, is composed of a battery 310 and the control unit 320, the battery 310 is composed of a rechargeable battery that receives the external power to charge the electricity, the control unit 320 is composed of a charger (charger) for charging the battery 310 and a control system for controlling the light emission of the charging and lighting module 100, these batteries 310 and the control unit 320 is a pair Are assembled to be contacted by the terminals 311 and 321.

And the heat dissipation unit 400 is composed of a cooling cooler 410, the heat dissipation block 420, as shown in Figures 2 and 4, the cooling cooler 410 is to use a general cooling cooler 410. For example, it is preferable to use a SynJet product of Nuventix company, but in addition, the cooling cooler 410 may apply a heat pipe cooling structure, a heat pipe cooling structure of a natural cooling method. The cooling cooler 410 may use power and non-power, depending on the type. In the case of a power product, the cooling cooler 410 is a structure in which power is supplied from the battery 310. In the foregoing, the cooling cooler 410 has a female screw 410a. Form a plurality.

In addition, the heat dissipation block 420 is composed of a block 421 and the inlet discharge portion 422, the block 421 is a general cylindrical structure, the block 421 has a plurality of through holes 421b through The fixing hole 421b is assembled with a screw 421c (eg, a bolt or other screw) at a position coinciding with the female thread 410a of the cooling cooler 410. ) And the cooling cooler 410 are integrated.

And the inlet discharge portion 422 has a structure for accommodating the block 421 to be assembled with the above-described lighting module 100, a plate-shaped heat sink 422a having a receiving portion (not shown) through a circular hole in the center The spacer ring 422b has a structure in which the spacer ring 422b is arranged at regular intervals, and the spacer ring 422b has a predetermined thickness. Thus, the plurality of heat sinks 422a maintain a constant distance by the spacer ring 422b. While constructing the inlet and outlet portion 422 of an integrated structure, and obtains the heat radiation block 420 in the structure of the block 421 is assembled to the center of the inlet and outlet portion 422, that is, the receiving portion of the heat sink 422a. In the heat sink 422a, a plurality of penetrating fixing holes 422a 'are formed, and the fixing holes 422a' are made to coincide with the arrangement position of the female screw 210a of the main body 210.

In addition, a spaced ring 422b is further configured on the front surface of the heat dissipation block 420, and as shown in FIGS. 2, 4, and 5, a transparent and heat-resistant material (for example, tempered glass and tempered plastic) The transparent base plate 423 is integrated, the transparent base plate 423 is a plate-like, a structure formed with a plurality of through holes 423a, the fixing hole 423a previously formed in the transparent base plate 423 ) Is configured to coincide with the arrangement position of the female screw 210a of the main body 210 and the positioning position of the fixing hole 422a 'of the heat sink 422a.

Thus, the cooling unit 410 and the heat dissipation block 420 constitutes the heat dissipation unit 400, and since the lighting module 100 is the structure described above, a separate description will be omitted, but the heat dissipation block before the lighting module 100 It is fixed to one surface of the block 421 of 420, a plurality of fixing holes (110a) penetrated along the edge of the substrate 110 of the lighting module 100, and the previous screw 412a is formed in the block 421 A plurality of lights are formed, and the fixing holes 110a of the lighting module 100 and the female screw 412a of the block 421 are matched to each other, and the lighting module (for example, bolts and other screws) is used. 100 is fixed to the block 421, the heat radiation block 420 is a structure protected by the transparent base plate 423 described above.

For reference, when assembling the block 421 and the cooling cooler 410, it is preferable to apply thermal grease to minimize the heat transfer to the surface where the block 421 and the cooling cooler 410 abut. In addition, when assembling the block 421 and the lighting module 100, it is preferable to apply thermal grease to the surface where the block 421 and the lighting module 100 abut to minimize heat transfer.

Next, as shown in FIGS. 2 and 5, the diffusion filter 500 and the filter gasket 510 are configured. The diffusion filter 500 is a filter that smoothly blurs the entire scene by finely blurring the filter. The gasket 510 has the same diameter as the diffusion filter 500, the center has the same structure as the diameter of the lens unit 130 of the illumination module 100 or larger than the diameter of the illumination module 100, and a metal such as aluminum Manufactured to facilitate heat generation of the heat dissipation unit 400, the filter gasket 510 is assembled to the diffusion filter 500, the double-sided tape is attached to both sides of the filter gasket 510, first, the filter gasket 510 ) And the filter gasket 510 to which the diffusion filter 500 is assembled are attached to the transparent base plate 423, overlapping the diffusion filter 500 and the center of the illumination module 100. Attach to match.

In addition, as shown in Figures 2 and 4, the reflecting mirror 600 is a hollow cylindrical shape, one surface is open structure, integrally projecting the projection 610 protruding outward along the edge of the open end. It is a formed structure, the open side is composed of the opposite side of the transparent, the inner peripheral surface of the inner excluding the transparent portion to form a reflective surface by the silver coating.

2 and 4, the closing cover 700 is configured in a structure penetrating left and right, one end forms an inner protrusion 710 protruding inward, the other end is protruded inward The seating portion 712 and the fixing portion 711 protruding outward are integrally formed to form a seating groove 712a along the inner edge of the seating portion 712, and the seating groove 712a has already been described. It is a structure that can be mounted on the edge of the reflector 600, and also, the fixing portion 711 is formed through a plurality of fixing holes 711a, the position of the fixing hole 711a is the position of the main body 210 It is configured to match the arrangement of the female screw 210a and the arrangement of the fixing holes 422a 'of the heat sink 422a.

On the other hand, it is preferable to fix the reflector 600 with the finishing cover 700, for example, the fixing method, for example, a plurality of penetrating fixing holes (not shown) formed in the protrusion 610 of the reflector 600 In addition, a plurality of female screws (not shown) are formed in the seating groove 712a of the closing cover 700, and the reflector 600 and the closing cover 700 are assembled to finish the protrusion 610 of the reflector 600. While seating in the seating groove 712a of the cover 700, the fixing hole of the protrusion 610 and the female screw of the fixing part 711 are matched, and a screw (for example, a bolt and other screws) is used. The reflector 600 may be fixed to the finish cover 700, and the method of fixing the reflector 600 to the finish cover 700 may include various methods in addition to fixing the screw.

Finally, as shown in Figures 1 and 4, the reflector 800 has a structure that reflects light at an appropriate angle (generally, the inner surface of the reflector is composed of silver or white), both sides of which penetrate through Structure, which forms a fitting portion 801 that protrudes into a structure that can be fitted to the outer circumference of the reflector 600 in advance, and the shape of the reflector 800 has various side cross-sections depending on the type of light irradiation. As shown in Fig. 4, the representative structure is formed to have a structure that becomes wider from the light source (light module) toward the outside.

The case 200, the charge control unit 300, the heat dissipation unit 400, the transparent base plate 423, the lighting module 100, the diffusion filter 500, the reflector 600, the finishing cover 700, Looking at the assembly structure of the lighting device consisting of a reflector (800).

First, as shown in Figure 4, the charging control unit 300 is assembled into the case 200, the end is assembled so as to contact the back cover 220, the power to the socket configured in the back cover 220 The battery 310 may be supplied to charge the battery 310, the on / off of the switch 221 of the back cover 220 may be adjusted, and the brightness of the illumination may be adjusted by the variable volume 222. will be.

The heat dissipation unit 400 is assembled to the front of the main body 210 in which the charge control unit 300 is assembled. As shown in FIGS. 2 and 4, the cooling cooler 410 is opposite to the back cover 220. The heat dissipation block 420 is positioned at the end of the main body 210 in a state in which the assembled end surface of the cooling cooler 410 coincides with the end surface of the main body 210, while being assembled toward the open main body 210. The base plate 423 and the lighting module 100 are fixed to be located in front of the main body 210 in which the heat dissipation block 420 is assembled, and the filter gasket (the upper surface of the transparent base plate 423 of the heat dissipation block 420) is exposed. 510 and a diffusion filter 500, and each of the finishing cover 700 assembled with the reflector 600 toward the diffusion filter 500, and then the fixing hole 711a of the finishing cover 700, Match the fixing holes 423a of the transparent base plate 423 and the fixing holes 422a ′ of the heat sink 422a with the female threads 210a of the main body 210, and then the screws 711b (for example, bolts, Other By fastening using a screw), the heat dissipation block 420, the transparent base plate 423, and the closing cover 700 are integrally fixed to the main body 210, and the reflector 800 toward the assembled closing cover 700. The fitting portion 801 is inserted into the outer circumference of the reflecting mirror 600, thereby completing the lighting apparatus having the structure as shown in FIG.

The lighting device configured as described above is installed through the hanger 230 where lighting is required, and supplies power to the socket of the back cover 220, or the blue chip of the lighting module 100 by the charged battery 310 ( The light of 120 is emitted to supply light, and the light softens the light while passing through the diffusion lens, and reflects the light to the outside through the reflector 600, and at an appropriate angle according to the type of the reflector 800. It has the characteristic of transmitting light.

In addition, the light by the lighting device has a different color temperature according to the wavelength characteristics of the blue chip 120, even if the lighting device generates a yellow ring (yellow ring) according to the wavelength characteristics and combination of the blue chip, the lighting module The complementary color film 140 of 100 has a characteristic of supplying white light, and also easily emits heat generated by the heat dissipation unit 400, and further, the aluminum material of the lighting module 100, The heat dissipation is excellent by silver bonding, and the heat dissipation is excellent by the case 200 made of aluminum.

100: lighting module 110: substrate
120: blue chip 130: lens unit
140: complementary film 200: case
300: charging unit 310: battery
400: heat dissipation part 500: diffusion filter
600: Reflector 700: Finish Cover
800: reflector

Claims (7)

delete In the form of a disc, fixing holes are provided at regular intervals along the outer edge, and an auxiliary frame having a protruding structure for assembling the lens unit is provided inside the fixing hole. A substrate provided with a blue chip which is fixed and maintains a distance of 1.5 to 2 mm from each other,
It has a penetrating form that is widened toward the outside, and has a lens sphere having a structure in which a plurality of diffuser holes having a reflective surface are formed therein, each of which is filled with a yellow phosphor, The lens unit is provided with a lens in the diffusion hole,
Each of the complementary films having the same size as the lens unit is provided,
By assembling the lens unit into the auxiliary frame of the substrate so that the position of the blue chip installed on the substrate and the position of the diffusion hole and the lens are the same, and the complementary film is sequentially installed on the lens unit,
The lighting module consists of a diffuser hole where the phosphor is placed in front of the blue chip on the substrate, and a structure where the lens and the complementary film match.
Lighting module for lighting devices based on blue chips, characterized by easy light emission and uniform diffusion.
The method of claim 2,
Blue chips arranged on a substrate and neighboring each other are configured to have different wavelength bands,
The substrate is made of aluminum material, the blue chip arranged on the substrate is bonded by a composite wire mixed with silver and gold,
Lighting module for lighting device based on blue chip, characterized by excellent heat conductivity and heat dissipation.
delete A charging module capable of charging a battery and a control unit for controlling an operation, a battery previously charged and supplied by a charger to a case are housed in a case, and a lighting module that emits light by being supplied with the battery, the lighting module of In a general lighting device comprising a heat dissipation unit for heat radiation and a reflector reflecting light of the lighting module,
The lighting module, in the form of a disc, is provided with a fixing hole on the outer edge, the auxiliary frame for assembling the lens unit is provided in the inner side, the inner side of the auxiliary shape to maintain a space of 1.5 ~ 2mm from each other in the circular or polygonal And a lens sphere having a structure in which a plurality of diffuser holes having a reflective surface are formed in the substrate having a plurality of arrayed and fixed blue chips and having a penetrating shape widening toward the outside. Each diffuser hole filled with a yellow phosphor and filled with a phosphor is provided with a lens unit with a lens and a complementary film having the same size as the lens unit, and the location of the blue chip, the diffusion hole, and the lens installed on the substrate. Assemble the lens unit inside the frame so that the lens has the same position, and the light is based on the blue chip with the complementary film installed on the lens unit. The lighting module for the device is applied,
The case is made of aluminum material having excellent heat dissipation,
The heat dissipation part made of aluminum material has a cooling cooler assembled in the case and a form continuously connected to the cooling cooler, and a plurality of heat sinks are arranged at regular intervals by a spaced ring, and the inflow and outflow The heat dissipation unit is composed of a heat dissipation block composed of blocks assembled inside the unit,
The lighting module is installed in front of the block, the separation ring and the transparent base plate is further fixed to the front of the inlet and discharge portion corresponding to the front of the lighting module,
The front of the transparent base plate, and further comprising a reflector and a finish cover structure surrounding the outer surface of the reflector, the reflector is sandwiched between the reflector and the finish cover. Configured to be assembled,
Lighting device based on a blue chip based lighting module, which is characterized by effective heat dissipation by the heat dissipation unit, and easy light emission and uniform diffusion.
6. The method of claim 5,
On the transparent base plate provided on the front surface of the heat dissipation unit, a filter gasket having a ring structure and an diffusion filter having an aluminum material are sequentially attached,
A lighting device with a lighting module based on a blue chip, characterized by providing a soft light by a diffusion filter.
The method according to claim 5 or 6,
The back cover of the case back of the lighting device further comprises a switch for adjusting the on and off, a variable volume for adjusting the brightness, an externally powered socket,
The case is further provided with a hanger of the hinge type coupled to the main body, the hinge further comprises a fixing means, by which the main body 210 can be adjusted at a specific angle around the hanger by the fixing means and at the same time lighting To facilitate the fixing and installation of the device,
Lighting device with a lighting module based on blue chip, characterized by the brightness control of lighting and easy fixing and installation of lighting devices.

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