KR100945420B1 - Method for manufacturing flood lighting - Google Patents

Abstract

PURPOSE: A method for manufacturing an LED floodlight is provided to easily repair and replace a component of the LED floodlight by modularizing the components of the LED floodlight. CONSTITUTION: A component of an LED floodlight is prepared(S100). A heat sink of a radiation unit is inserted into the opening of a housing of a body(S102). An LED module is inserted into a receiving groove of the heat sink(S104). An LED module and a protective unit are fixed to the heat sink with an adjustment bolt(S106). The fixed height of the adjustment bolt is controlled(S108). The housing and cover of the body are combined(S110). The LED floodlight connects a control module to an LED module and is completed by combining the body with the support unit(S112).

Description

LED floodlight manufacturing method {Method for Manufacturing Flood Lighting}

The present invention relates to a method of manufacturing an LED floodlight for irradiating light of a desired brightness to a relatively wide place installed in the jade, inside and outside, more specifically, the configuration and assembly is simple, and the light emitted from the LED module The present invention relates to a method of manufacturing an LED floodlight that can be emitted without scattering and is simple to disassemble and maintain.

In general, floodlights are installed indoors or outdoors, and are formed to illuminate light having a desired brightness in architectural structures, memorial structures, and various stadiums. In addition, such a floodlight is configured to be able to irradiate relatively high brightness light, and is expensive and complicated. One example of such a conventional floodlight is Utility Model Registration No. 20-289408.

According to the floodlight apparatus equipped with a bulb replacement device of the Utility Model Registration No. 20-289408, as shown in Figure 1, a cylindrical groove 1 formed in a predetermined size is formed at one side end, the cylindrical groove (1) A side reflector 4 having a protrusion 2 formed outwardly along the side) and a male thread 3 formed on an outer circumferential surface of the protrusion 2; A reflection plate 5 in close contact with the side reflection plate 4 and reflecting light; A socket 7 inserted through the cylindrical groove 1 and having a light bulb 6 emitting light; A transparent body (8) for fastening and fixing the upper and lower portions of the side reflector (4) by bolts (8a, 8b) to block the light bulb (6) from the outside; It is composed of an angle adjuster (9) arranged to adjust the angle of the side reflector (4).

According to the configuration as described above it is possible to easily replace the bulb 6 of the light emitter installed in a relatively high place, thereby improving the work productivity, and the hassle of opening and closing the reflector 4 separately when replacing the bulb 6 If not, it is possible to block soot or other contaminants from penetrating into the reflection plate (4).

However, such a conventional light emitter is complicated to assemble and disassemble the respective components, productivity and workability is lowered, manufacturing cost is increased by using expensive lamps, expensive lamps must be replaced in case of lamp failure or failure Therefore, the maintenance cost is increased, and when a part of the light emitted from the light bulb is reflected by the reflected wave, scattering shape is generated and light transmission efficiency is lowered, and when it is installed in a place where sufficient working space is not secured at both sides, It is difficult to repair and replace the lamp or components have a problem.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to simplify the manufacture and assembly, to transmit light emitted from an LED without scattering, to simplify disassembly and maintenance, and to repair component parts. And it is easy to replace and to provide a fast LED floodlight manufacturing method.

In order to achieve the above object, the LED floodlight manufacturing method according to the present invention includes a main body having a housing having an opening formed rearward and a cover for opening and closing the housing, and inserted into the main body to discharge heat to the rear. A heat dissipation member, an LED module installed on the heat dissipation member for emitting light, a protection member for protecting the LED module and preventing scattering of light emitted from the LED module, and fixed to the periphery of the structure or the lighting area. In the LED floodlight manufacturing method consisting of a support member for controlling the angle of the main body and the control module installed inside the support member to control the LED module, the main body, the heat dissipation member, the LED Preparing a module, the protection member, the support member and the control module; Placing a heat dissipation member by inserting a heat dissipation portion of the heat dissipation member into an opening of the housing of the main body so that the heat dissipation portion of the heat dissipation member is exposed to the rear of the housing; Inserting and placing the LED module in the receiving groove of the heat dissipation member installed in the housing of the main body; Arranging each opening of the protection member to be extrapolated to each lens of the LED module installed in the receiving groove of the heat dissipation member, and fixing the protection member and the LED module to the heat dissipation member with an adjustment bolt; Adjusting a fixed height of the adjustment bolt such that the surface of the protective member and the surface of the light emitting part of the lens of the LED module coincide with each other; Combining the housing and the cover of the main body, and fastening the bolts to the fixing holes of the housing and the through holes of the cover to fix the bolts to each other; And connecting the control module to the LED module, fixing the control module to the support member, and closing the support member to complete an LED floodlight.

According to the LED floodlight manufacturing method according to the present invention, each component is modularized, so the configuration and assembly is simple, by adjusting the surface of the light emitting portion of each lens of the LED module and the surface of the protective member to match. It is possible to prevent scattering and improve light emitting efficiency, simplify disassembly and maintenance, and improve workability by quickly and easily repairing and replacing components. There is a remarkable effect of improving the performance and productivity.

Hereinafter, a preferred embodiment of the LED floodlight manufacturing method according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an exploded perspective view of the LED floodlight applied to the LED floodlight manufacturing method according to the present invention, Figure 3 is a perspective view showing the assembled LED floodlight of Figure 2, Figure 4 is a line AA of Figure 2 5 is a block diagram illustrating a method of manufacturing an LED floodlight according to the present invention.

First, in FIGS. 2 to 5, the LED floodlight manufacturing method according to the present invention is applied or the LED floodlight manufactured by the manufacturing method according to the present invention is basically a main body 10 having an internal space, The heat dissipation member 20 inserted into the main body 10 to discharge heat generated from the LED module to be described later, and the LED module 30 installed on the heat dissipation member 20 to actually generate light. ), And a protection member 40 for protecting the LED module 30 and preventing scattering of light emitted from the LED module 30, and fixed to the periphery of the structure or an illumination area and the angle of the main body 10. And a control module 60 connected to the LED module 30 so as to control the LED module 30 and being installed inside the support member 50.

The main body 10 has a housing 11 formed in a square or a rectangle. An opening 111 is formed in the housing 11 so that the heat dissipation member 20 can be inserted therein. Fixing holes 112 are formed at inner corners of the housing 11 to fix the cover to be described later using bolts B to be releasable. The through hole 113 is formed in the lower portion of the housing 11 to allow the wire of the LED module 30 to pass through.

In addition, the lower center of the housing 11 is integrally provided with a connecting portion 114 fixed to the support member 50. In particular, the connection portion 114 is formed in a cylindrical shape to adjust the light transmission angle of the main body 10 and is rotatably fixed to the support member (50). In addition, a through hole 115 is formed at an inner upper portion of the connection part 114 to communicate with the through hole 113 of the housing 11 so that a wire connected to the LED module 30 may pass therethrough. Meanwhile, a fastening hole 117 through which the fastening bolt 116 penetrates is formed at the center of the connection part 114 to fix the light transmission angle of the main body 10 to the support member 50. The nut 118 is fastened to the fastening bolt 116.

In addition, the main body 10 includes a cover 12 for opening and closing the housing 11. The cover 12 is provided with a transparent plate 121 for emitting light generated from the LED module 30 to the outside. The transparent plate 121 is formed of transparent glass or transparent synthetic resin material to transmit light without interference. In addition, the corner of the cover 12 corresponds to the fixing hole 112 of the housing 11 to fix the cover 12 to the housing 11 with the bolt B, and the bolt B The fixing pieces 122 are rotatably maintained, respectively. In addition, at the central portion of the inner side of each side of the cover 12, the clasp crystal piece 123 for fixing the heat dissipation member 20 is formed integrally protruding. Of course, the cover 12 has a rectangular transmission hole 124 is formed so that the light is transmitted through the transparent plate 121, the transmission hole 124 is closed by the transparent plate 121. do.

Meanwhile, the heat dissipation member 20 inserted into and coupled to the main body 10 includes a body 21 formed in a quadrangular shape so as to be fixed to the housing 11 of the main body 10. The body 21 has a receiving groove 211 corresponding to the size of the LED module 30 is formed so that the LED module 30 is inserted and fixed. In the center and each corner of the receiving groove 211 is formed a fixing hole 212 formed with a spiral for fixing the LED module 30 and the protective member 40. In addition, a coupling hole 213 may be inserted into the center of each side of the body 21 so as to fix the heat dissipation member 20 by inserting the respective clamping pieces 123 of the cover 12 of the main body 10. ) Is formed. In addition, an installation groove 215 is provided at a periphery of the body 21 so that a packing 214 for dustproof and waterproof with the cover 12 is accommodated and installed when the cover 12 of the main body 10 is closed. Is formed. On the other hand, the through hole 113 and the through hole of the housing 11 of the main body 10 so that the wire of the LED module 30 passes through the lower portion of the receiving groove 211 of the body 21. A through groove 216 is formed in communication with the 115.

In addition, the heat dissipation member 20 includes a heat dissipation part 22 to dissipate heat generated by the LED module 30 installed in the body 21 to the outside. The heat dissipation unit 22 includes a plurality of heat dissipation fins 221 and a plurality of air passages 222 formed between the heat dissipation fins 221 so as to effectively dissipate heat. In particular, the overall shape formed by each of the heat dissipation fins 221 and the air passage 222 of the heat dissipation part 22 may facilitate the circulation and passage of air for effective heat dissipation. For the sake of beauty, it is preferable to be formed in a semicircle or round shape. That is, the heat dissipation fins 221 positioned at the center of the heat dissipation part 22 where heat generated from the LED module 30 can be concentrated are formed to have the largest cross-sectional area to maximize the heat dissipation area. In proportion to this, each air passage 222 is also preferably formed with the largest volume. In addition, the cross-sectional area of each of the heat dissipation fins 221 toward each side from each of the heat dissipation fins 221 and the air passage 222 in the center for easy access or circulation of air, as well as the overall appearance of the air. Preferably, the volume of the air passage 222 is formed to gradually decrease. According to this structure, the heat dissipation is effectively achieved by a relatively large heat dissipation fin 221 and the air passage 222 in the central portion where heat can be concentrated in the heat dissipation unit 22, and also relatively small heat dissipation fins on both sides ( 221 and the air passage 222 is also effective heat dissipation, while the overall appearance is round or semi-circular to form a beautiful appearance.

In addition, the LED module 30 is installed on the heat dissipation member 20 is basically provided with a printed circuit board, that is, the substrate 31 is installed in the receiving groove 211 of the body 21 of the heat dissipation member 20. do. The substrate 31 is formed of aluminum having excellent thermal conductivity in order to effectively release heat. In addition, a fixing hole 311 is formed at the center and each corner of the substrate 31 to correspond to each of the fixing holes 212 formed in the receiving groove 211 of the heat dissipation member 20. The surface of the substrate 31 is photosensitive in order to easily install components and to improve printing efficiency, and a plurality of light emitting diodes (LEDs) 32 for generating light are appropriately disposed on the surface thereof. Is placed in position. In the present embodiment, 60 LEDs 32 are illustrated as being installed, but the number of installations may be appropriately set according to the capacity or purpose of use of the LED floodlight. Here, each of the LEDs 32 includes a support part 321 fixed to the substrate 31, an installation part 322 protruding in a cylindrical shape in the center of the support part 321, and the installation part 322. It is installed inside and is formed of an LED member 323 for generating light.

In addition, each of the LEDs 32 is provided with a lens 33 formed in the reverse conical or speaker shape for the effective and excellent light emission and diffusion of the LED light. Each of the lenses 32 has a cylindrical fixing portion 331 formed at a lower portion so as to be inserted into the mounting portion 322 of the LED 322, and is integrally formed at an upper portion of the fixing portion 331 and diffuses light. The body portion 332 is formed in an inverted cone shape, and the light emitting portion 333 formed in a circular shape on the upper portion of the body portion 331 to diffuse the emission of light. Each lens 33 is preferably formed of a transparent material having a certain strength.

On the other hand, a plurality of components, that is, a plurality of capacitors 34, a plurality of resistors 35, etc. for smoothing the operation of each of the LEDs 32 are formed on the substrate 31 of the LED module 30. It is installed to be electrically connected to each of the LEDs (32). In addition, a wire 36 connected to the control module 60 is connected to the LEDs 31, the capacitors 34, the plurality of resistors 35, and the like to supply the power and control signals to the substrate 31. It is.

In addition, the protection member 40 for protecting the LED module 30 and preventing light scattering is formed in a rectangular shape so as to be accurately inserted and fixed in the receiving groove 211 of the heat dissipation member 20. The protective member 40 is formed of aluminum having excellent thermal conductivity so as to effectively disperse heat generated from the LED module 30. In the center and each corner of the protective member 40 is formed a fixing hole 41 to which the adjustment bolt (B1) is coupled to be fixed by adjusting the height of the protective member (40). Each of the fixing holes 41 of the fixing holes 212 and the LED module 30 so that the adjustment bolt (B1) can be accurately fixed to the receiving groove 211 of the heat dissipation member (20). Perforations are formed to coincide with the fixing holes 311 of the substrate 31.

In addition, the protection member 40 is formed with a plurality of openings 42 for exposing the lens 33 of each of the LED module 30 to the outside. Each of the openings 42 is formed in a circle having a diameter set so that the light diverging portion 333 of each of the lenses 33 is correctly inserted without a gap.

In addition, the surface of the protective member 40 is preferably smoothly cleaned to diffuse the light emitted from each of the lenses 33 as well as to prevent scattering. In particular, in order to prevent scattering, it is preferable that the surface of the light emitting part 333 of the lens 33 and the surface of the protection member 40 are configured to be matched without a step. It is achieved by adjusting the height of the protective member 40 or the substrate 31 of the LED module 30 using B1).

On the other hand, the support member 50 on which the main body 10 is supported has a connection portion 51 to which the connection portion 114 of the main body 10 is rotatably coupled. The connection part 51 has a flange part 511 formed to be rotatably inserted in the front and rear directions to the connection part 114. In addition, a fixed shaft 512 protrudes downward from the lower portion of the connection part 51 so as to be integrally rotatably coupled to the mounting portion described later. The through hole 513 is formed in the longitudinal direction so that the wire 36 of the LED module 30 passes through the fixed shaft 512 to be connected to the control module. In addition, the connection portion 51 corresponds to the fastening hole 117 of the connecting portion 114 so that the fastening bolt 116 of the main body 10 is fastened to the fastening nut 118 is installed A ball 514 is formed.

The connecting portion 51 is rotatably coupled to the mounting portion 52 by the fixed shaft 512. In addition, a plurality of fixing holes 521 are formed at a proper position of the mounting portion 52 so as to be coupled by a bolt B2 to a supporting portion to be described later.

In addition, the entirety of the inner periphery of the mounting portion 52 is provided with a packing 53 for dustproof and waterproof.

In addition, the support member 50 has a support portion 54 which is actually arranged or fixed in the installation area. The support part 54 is formed in a cylindrical shape having a sufficient installation space so that the control module 60 can be stably embedded therein. The support part 54 is provided with a fixing hole 541 corresponding to each of the fixing holes 521 of the mounting part 52 so that the mounting part 52 may be fixed by the bolt B2. In addition, the lower surface of the support portion 54 is formed with an insertion hole 542 is inserted into the cable terminal connected to the control module 60.

On the other hand, the control module 60 is connected to the LED module 30 is configured to receive power from the outside to control the LED module 30. The control module 60 is configured in the form of a DC-AC converter called, for example, SMPS. Of course, the control module 60 is a substrate 61 fixed to the inside of the mounting portion of the support member 50, and various components installed on the substrate 61 to control the LED module 30, that is, A capacitor 62, a resistor 63, a diode 64, and the like, and a cable 65 drawn from the outside to supply power to each of the components 62, 63 and 64. Of course, the end of the cable 65 is provided with a terminal 651 to be inserted into the insertion hole 542 formed in the support portion 54.

Hereinafter, a method of manufacturing the LED floodlight configured as described above will be described in detail with reference to FIGS. 5 and 2 to 4.

First, the operator prepares the body 10, the heat dissipation member 20, the LED module 30, the protection member 40, the support member 50 and the control module 60 (S100). Here, the main body 10 has a rectangular housing 11, an opening 111 is formed in the housing 11, and fixing holes 112 are formed in the inner corners of the housing 11, respectively. The through-hole 113 is formed in the lower surface of the housing 11, the connecting portion 114 is integrally formed in the lower center of the housing 11, the inner upper portion of the connecting portion 114 The through hole 115 is formed in communication with the through hole 113 of the housing 11, the fastening hole 117 through which the fastening bolt 116 is formed in the center of the connection portion 114, In addition, the main body 10 is provided with a cover 12 for opening and closing the housing 11, the cover 12 is provided with a transparent plate 121, the corner of the cover 12, the housing Corresponding to the fixing hole 112 of the (11) and the fixing piece 122 is formed to hold the bolt (B) rotatably, respectively It was, and each side of the inner side-chain jeongpyeon 123 has a central portion of the cover 12 are formed to project integrally. And the heat dissipation member 20 is provided with a body 21 and the heat dissipation portion 22, the receiving body 211 is formed in the body 21, the center and each of the receiving grooves 211 A fixing hole 212 is formed at the corner, and a coupling hole 213 is formed at the center of each side of the body 21, and a packing 214 for dustproofing and waterproofing is provided at the periphery of the body 21. The installation groove 215 is installed is formed, the through groove 216 is formed in the lower portion of the receiving groove 211 of the body 21, the heat dissipation portion 22 can effectively dissipate heat. It is composed of a plurality of heat dissipation fins 221 and a plurality of air passages 222 formed between each of the heat dissipation fins 221. In addition, the LED module 30 is provided with a substrate 31, the LED 32 and the lens 33, the substrate 31 is formed of aluminum, the center and each corner of the substrate 31 A fixing hole 311 is formed, and each of the LEDs 32 includes a support part 321 fixed to the substrate 31, an installation part 322 protruding cylindrically in the center of the support part 321, and It is installed inside the mounting portion 322 and is formed of an LED member 323 for generating light practically, each of the lenses 32 to be inserted into the mounting portion 322 of the LED 322 Cylindrical fixed portion 331 formed in the body, the body portion 332 formed integrally with the upper portion of the fixing portion 331 formed in an inverted cone shape for the diffusion of light, and the body portion 331 for the diffusion emission of light It is formed as a light emitting portion 333 formed in a circular shape on the top of the. In addition, a fixing hole 41 is formed at the center and each corner of the protective member 40, and the protective member 40 exposes each of the lenses 33 of the LED module 30 to the outside. A plurality of openings 42 are formed. The support member 50 is provided with a connecting portion 51, the connecting portion 51 is provided with a flange portion 511, a fixed shaft 512 protrudes downward from the lower portion of the connecting portion 51, A through hole 513 is formed in the fixed shaft 512, a fastening hole 514 is formed at the center of one side of the connection part 51, and a plurality of fixing holes 521 at a proper position of the mounting part 52. Is formed, and the packing 53 is provided for dust and water resistance throughout the inner periphery of the mounting portion 52, and the supporting member 50 also includes a supporting portion 54, and the supporting portion 54 The fixing hole 541 is formed in the lower surface of the support portion 54, the insertion hole 542 is formed. The control module 60 is composed of a DC-transducer type called, for example, SMPS, and also includes a substrate 61, a capacitor 62, a resistor 63, a diode 64, and the like. And a cable 65 drawn from the outside to supply power, and an end of the cable 65 is provided with a connection terminal 651.

When the components are prepared as described above, the heat dissipation part 22 of the heat dissipation member 20 is inserted into the opening 111 of the housing 11 of the main body 10 so as to insert the body 21 of the heat dissipation member 20. ) Is installed in the housing 11 of the main body 10 (S102).

Next, the LED module 30 is inserted into and disposed in the receiving groove 211 of the heat dissipation member 20 installed in the housing 11 of the main body 10 (S104). Before and after the LED module 30 arrangement step (S104) includes the step of coupling the lens 33 to each of the LED 32 of the LED module 30. Of course, when the lens 33 is coupled to each of the LEDs 32 of the LED module 30, the lens 33 coupling step may be omitted.

Thereafter, each opening 42 of the protective member 40 is extrapolated to each lens 33 of the LED module 30 installed in the receiving groove 211 of the heat dissipation member 20, and the adjustment ball The protection member 40 and the LED module 30 is fixed to the heat dissipation member 20 with a screw (B1) (S106).

Next, the fixed height of the adjustment bolt (B1) is adjusted so that the surface of the protective member 40 and the surface of the light emitting portion 333 of the lens 33 of the LED module 30 is matched (S108). .

The packing 212 is inserted into the installation groove 215 of the heat dissipation member 20, the housing 11 of the main body 10 and the cover 12 are coupled to each other, and then the bolt B is attached to the housing. The fixing hole 112 and the through hole 122 of the cover 12 are fastened to each other (S110). Here, each of the locking piece 123 of the cover 12 of the main body 10 is inserted into each of the coupling holes 213 formed in the body 21 of the heat dissipation member 20, thereby the main body The heat dissipation member 20 is simply coupled to 10 at the same time.

Thereafter, the control module 60 is connected to the LED module 30, the connection part 51 of the support member 50 is coupled to the connection part 114 of the main body 10, and the control module 60. ) Is fixed to the support member 50 and then closes the support member 50 to complete the LED floodlight (S112). Here, the wire 36 connected to the LED module 30 is a through hole 216 of the heat dissipation member 20, a through hole 113 of the housing 11 of the main body 10, and the main body 10. Through the through hole 115 of the connection portion 114, the through hole 513 of the fixed shaft 512 of the support member 50 is extended without exposure to the outside is connected to the control module 60.

Of course, the LED floodlight assembled as described above may be installed in the structure or the lighting area to transmit the corresponding structure or lighting area. That is, when the LED floodlight is installed and assembled as described above, and the power is supplied to the control module 60, the LED module 30 is operated according to the control of the control module 60 to each of the Light is generated by the LED member 323 of the LED 32 and transmitted through the light emitting part 333 of the lens 33 and the transparent plate 121 of the cover 12 of the main body 10. Light can be transmitted to the structure or lighting area.

On the other hand, the height of the surface of the protective member 40 is adjusted to match the surface of the light emitting portion 333 of the lens 33, so that the light emitted from the light emitting portion 333 is emitted without scattering and always It is possible to provide uniform light.

In addition, most of the heat generated from the LED module 30 is transmitted to the plurality of heat dissipation fins 221 located at the rear of the heat dissipation member 20, and the heat transmitted in this way is between each of the heat dissipation fins 221. The air is cooled or discharged to the outside by the air passing through or circulated through each of the air passages 222, thereby effectively dissipating heat.

Therefore, the configuration and assembly of the respective components constituting the LED floodlight according to the present invention is simple and easy, the height of the protection member can be adjusted to prevent light scattering, and the housing and cover of the main body can be quickly and It can be easily separated and combined to facilitate maintenance and maintenance.

1 is an exploded perspective view of a floodlight fixture equipped with a bulb replacement device of the Utility Model Registration No. 20-289408.

Figure 2 is an exploded perspective view showing the LED floodlight to which the manufacturing method according to the present invention is applied.

3 is a perspective view showing a state in which the LED floodlight of Figure 2 is assembled.

4 is a cross-sectional view taken along the line A-A of FIG.

Figure 5 is a block diagram showing a LED floodlight manufacturing method according to the invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: main body 20: heat dissipation member

30: LED module 40: protective member

50: support member 60: control module

Claims (5)

A main body 10 having a housing 11 having an opening 111 formed therein and a cover 12 for opening and closing the housing 11, and inserted into the main body 10 to discharge heat to the rear. The heat dissipation member 20, the LED module 30 installed on the heat dissipation member 20, and the LED module 30 to protect the LED module 30 and scatter the light emitted from the LED module 30. Protective member 40 for preventing, the support member 50 is fixed to the periphery of the structure or the lighting area to adjust the light transmission angle of the main body 10 and the support to control the LED module 30 In the LED floodlight manufacturing method consisting of a control module 60 installed inside the member 50, Preparing the main body (10), the heat dissipation member (20), the LED module (30), the protection member (40), the support member (50) and the control module (60); The heat radiation portion 22 of the heat radiation member 20 in the opening 111 of the housing 11 of the main body 10 so that the heat radiation portion 22 of the heat radiation member 20 is exposed to the rear of the housing 11. Inserting and arranging (S102); Inserting the LED module 30 into the receiving groove 211 of the heat dissipation member 20 installed in the housing 11 of the main body 10 (S104); Arranged so that each opening 42 of the protection member 40 is extrapolated to each lens 33 of the LED module 30 installed in the receiving groove 211 of the heat dissipation member 20, the adjustment bolt (B1) Fixing the protective member (40) and the LED module (30) to the heat dissipation member (20) (S106); Adjusting the fixed height of the adjusting bolt B1 such that the surface of the protection member 40 and the surface of the light emitting part 333 of the lens 33 of the LED module 30 coincide with each other (S108); After the housing 11 and the cover 12 of the main body 10 are coupled, the bolt B is fastened to the fixing hole 112 of the housing 11 and the through hole 122 of the cover 12. Fixing to each other (S110); Connecting the control module 60 to the LED module 30, fixing the control module 60 to the support member 50, and then closing the support member 50 to complete the LED floodlight. (S112) includes: The wire 36 connected to the LED module 30 includes a through hole 216 of the heat dissipation member 20, a through hole 113 of the housing 11 of the main body 10, and the main body so as to be shielded from the outside. LED floodlight, characterized in that connected to the control module 60 through the through hole 115 of the connection portion 114 of the connection portion (10), the through hole 513 of the fixed shaft 512 of the support member (50). And the like manufacturing method. 2. The method of claim 1, further comprising coupling the lens 33 to each LED 32 of the LED module 30 before and after inserting the LED module 30. LED floodlight manufacturing method. The method of claim 1, wherein the housing (11) of the main body 10 and the fixing step (S110) of the cover 12 and the heat dissipation member 20 is in the installation groove 215 of the heat dissipation member 20 LED floodlight manufacturing method comprising the step of inserting the packing (212). delete delete

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