TWI311181B - High power led light bar construction - Google Patents

Description

1311181 IX. Description of the invention: [Technical field of the invention] The invention is a L-material ED wire structure, and the main county has the control circuit board and the power de:d module fixed in the accommodating area of the heat-dissipating light bar and the lamp In the front area, the heat source of the power LE:D module does not directly affect the control board, increases the service life of the high-power LE:D strip, and hides various complex electronic crystals on the control board. Because of the high-power LE:D module, the luminous surface called the high-power LE:D module in the front area of the light bar is quite bright and clear, and then borrowed.

The A and B terminal blocks respectively soldered on both ends of the control circuit board enable high-power LED light bars to be connected in series to meet economic costs and are more competitive in the market. [Prior Art] Please refer to the three-dimensional combination diagram of the conventional light strip (9) shown in the ninth figure. The light strip (9) includes a rectangular lamp holder (9〇) having a recess to form a receiving area (Μ). The accommodating area (91) is slidable within the circuit board base (92). The circuit board base (92) is provided with a light emitting diode (94) and various electronic components (95) for controlling the light emitting diode (94), and at both ends there are terminals (93), terminals (93) An outer cover (96) encloses the terminal (93), and the terminal (93) is connectable to the power line (97). With the above-mentioned structural design, installation position, etc.. The following description will understand the lack of it: Disadvantages 1. The circuit board base (92) is directly adhered to the rectangular lamp holder (90), and the light is emitted. The pole body (94) is also directly disposed on the circuit board base (92) and the 1311181 rectangular lamp base (90), thereby causing the heat source generated by the circuit board base (10) and the light emitting body (94), because of direct adhesive contact, It will directly generate the heat of the other, and it will be opened up, causing the instability of the wire (9) and shortening the life. The disadvantage is that the circuit board base (92) is directly adhered to the aluminum base plate of the rectangular lamp holder (9〇), which leads to difficulty in disassembly. If forced to be disassembled, it will affect the light-emitting diode (94) or It is a malfunction of the electronic component (95), which is a major drawback. Disadvantages 3, the light-emitting diode (94) is directly soldered on the circuit board base (92), and the electronic components (95) on the circuit board base (92) will generate light and shadow when lighting, affecting the illumination. The clarity and brightness of the object, and when visually viewing the light-emitting surface of the light strip (9), the image of each electronic component (95) on the circuit board base (92) is clearly seen, and there is no aesthetic appearance. Disadvantages 4. When the plurality of light bars (9) are connected in series, the power lines (97) can only be connected to each other. The power wires (97) are separated from each other between the two light bars (9). And the practicality is greatly reduced. It can be known from the above that the influence of the use is not considered in the design and construction of the component. Moreover, there are many components, which in turn leads to high cost, assembly and maintenance are not easy, and the burden of quality control affects market competitiveness, which does not meet economic cost and aesthetics. Therefore, the inventor of the present invention focused on the above-mentioned various defects, focusing on the components of the 1311181 mutual miscellaneous and shadow (four) 'in particular, based on the two, then consider the convenience of assembly, the simple safety of maintenance, and then cooperate Light strips can be arbitrarily extended in use, which enhances practicability and beauty, making them more competitive in the market. SUMMARY OF THE INVENTION The present invention mainly utilizes a heat-dissipating light strip, the heat-dissipating light strip to form a receiving area and a light strip front area for the control circuit board and the high-power LED module to be respectively fixed therein, and the light strip The front area is connected to at least one through-connection area for fixing the high-power LED module, and is electrically connected to the UD connector on the control circuit board by the electrode pins of the high-power LED module. link. a control circuit board, the control circuit board is also provided with at least one LE:D connection socket corresponding to the high power LED module, so that the LED connection seat and the light bar are arranged when the control circuit board is placed in the accommodating area The through holes on the front area correspond to each other. Moreover, the A and B terminal blocks are respectively soldered at both ends of the control circuit board, and are designed to complement one male and one female, so as to connect another high-power LED light bar in series. [Embodiment] Please refer to the first and second figures, which are mainly three-dimensional exploded view and three-dimensional combination diagram of the present invention. The high-power light strip (1) mainly utilizes a proper length and body-formed loose-shaped strip. (2) The strip (2) forms a closed accommodating area (21) and an open light strip front area (22) for respectively controlling the circuit board (3) and the high power LED module (4) It is fixed inside, and a plurality of heat-dissipating fins (strong) are opened on both ends of the heat-dissipating light bar (2), thereby forming a β-reconciliation of political heat, and the design of the heat dissipation can enhance the high-power LED module (4) ) 1311181 ... The heat source spreads. At least one coupling zone (27) is provided on the surface of the front side of the light bar (22), the coupling zone (27) is slidable for the high-power LED module (4), and the center of the coupling zone (27) is opened. There is a through hole (24) through which the electrode pin (40) and the LED connector (32) are inserted. The control circuit board (3) is respectively soldered with various electronic crystals, at least one LED connector (32), and a, β terminal block (30), _ (31) ' at the left and right ends, and their LED connections The seat (32) corresponds to the through hole (24) in the front area (22) of the light bar, and then the A and B terminal blocks (3〇) and (31) are complementary to each other. The two high-power LED strips (丨) are conveniently used in series (as shown in the third figure), and the A terminal block (3〇) and the B terminal block (31) each have a pin of a parallel power supply electrode. Further, the A terminal block (3〇) and the B terminal block (31) have pins for controlling the signal electrodes in addition to the pins including the parallel power supply electrodes. • The inner end faces of the valley area (21) are provided with two flanges corresponding to each other to form a circuit board slide (25), which can be used for the control circuit board (8) to slide in and position. Furthermore, the through hole (24) is formed in the front area (22) of the light bar, and the electrode pin (40) and the LED connector (32) extending at the bottom of the same power LED module (4) are mutually plugged. The high-power (10) module (4) can be completely fixed in the junction area (27) of the heat-dissipating light bar (2), and the transparent lamp cover (8) is also equal in length to the 1311181 heat-dissipating light bar (2). The strip (2) on the front side of the strip (22) is used to protect the high power LED module (4). The side cover (60) having the same shape as the cross section of the heat-dissipating light strip (2), the side cover (60) is provided with a through hole (62) at a suitable position to provide a power terminal for the power supply line (67). (66) Insert to facilitate the connection of the power supply. And a side cover (6〇) extending outwardly from the other end with a connecting post (61). The lateral length of the connecting post (61) can be fastened to the heat dissipating fins (23) at both ends of the heat dissipating strip (2). In the gap, the side cover (60) and the heat-dissipating light bar (2) are easily fixed. Further, a waterproof gasket (65) is disposed between the side cover (60) on both sides of the heat-dissipating light strip (2) and the heat-dissipating light strip (2), and the side cover (60) can be inserted through the side cover (60). ) The screw hole (63) ' is locked in the screw hole (26) of the heat-dissipating light bar of the heat-dissipating light bar (2) to fix the side cover (6〇), the waterproof gasket (65) and the heat-dissipating light bar ( 2). The fixed side cover (6〇) and the heat-dissipating light strip (2) are used to achieve the waterproof function of the connection interface between the woven fabric (10) and the heat-dissipating light strip (2).第六 Refer to the sixth, seventh, and eighth diagrams, which is a high-power LED chip (41) configuration of the high-power Lf:D module (4) of the present invention. Please refer to the sixth figure, the high-power LED module. (4), which may be composed of a high power (10) wafer (41). The electrodes of the high power LED chip (41) are respectively connected to the corresponding electrode pins (10) by metal wires (42). Furthermore, as shown in the seventh figure, two or more high-power LED chips (4) are connected in series, and similarly, two or more power LED chips (41) may be connected in parallel (not shown). Further, 1311181, if two or more different wavelengths, that is, two or more high-power LED chips (41) of different light colors are used, and the high-power LED chips (41) are separately controlled, as shown in the eighth figure, The high-power LE:D wafers (41) of different light colors are respectively connected to the corresponding electrode pins (4〇) by metal wires (42). Referring to the fourth and fifth figures, another embodiment of the present invention, wherein the diameter of the coupling area (27) on the front side (22) of the light bar is appropriately larger than that of the high power LED module (4). Diameter, and the inner circumference of the coupling area (27) is an inner design of the screw (52). Thus, the distance between the two diameters can be screwed to the outer circumference of the circumference with the external thread (54). A transparent lamp cover (51) or a reflector cover (53), it can be seen that the transparent lamp cover (6) (as shown in the figure), the transparent lamp cover (51) or the reflector cover (53) (as shown in FIG. 4) of the present invention can be Use according to actual needs. In addition, a focusing lens (55) can be used above the reflective lamp cover (53) to achieve a more concentrated and bright light. Further, a waterproof mattress (56) can be placed at the bottom of the coupling area (27), • the screw can be tightened by the transparent lamp cover (51) or the reflector cover (53) so that the water does not screw the gap Infiltrating, thereby achieving the waterproof function of the connection area of the junction area (27) and the transparent lamp cover (51) or the reflector cover (53). Please refer to the fifth figure for a combination of a focusing lens (55), a reflector cover (53), a waterproof 0-type gasket (56) and a high-power LED core assembly (4) in a heat-dissipating light strip (2). As described above, the present invention has the following advantages: Advantages, because the control circuit board (3) slides into the circuit board slide 1311181 · '. , control circuit board (3) - the upper and lower sides are not in contact with the heat-dissipating light bar (2), so the heat source can be fully dissipated by the upper and lower spaces, so under the long-term use 'because of the high-power LED mode The heat generated by the group (4) does not affect the control circuit board (3), and the heat source generated by the various electronic chips on the control circuit board (3) does not directly affect the high-power LED module (4) ), the high power consumption of the LED module (4) and the control circuit board (3) can be fully ensured without affecting each other. Advantages 1. The two-power LED module (4) is connected to the LED connector (32) by the electrode pins (4〇) extended at the bottom, and is independently inserted, so when one of the high-power LED modules When group (4) loses its proper brightness, simply remove the damaged high-power Lf:D module (4) 'Replace the new one without replacing the entire control board (3) 'Easy Dress up, in line with economic costs. • Advantages 3. If the control circuit board (7) is damaged, it is only necessary to remove the high-power WD module (4) and the side cover (6〇) first to easily remove the control circuit board (3). The control circuit board (3) slides into the circuit board slide (25) of the heat-dissipating light bar (2), adopts a movable design, and is not adhered or locked by other substances, which makes maintenance easier. Fast. Advantages 4. The south power LED module (4) is separated from the control circuit 11 1311181 two-way board (3) by the light strip front area (22), and is hidden by the various electronic chips on the control circuit board (3) during illumination. In the accommodating area (21), therefore, various kinds of electronic crystals are not produced, the shadows are paid (10) clear and brightness, and when visually visualizing the light-emitting surface of the high-power LE:D light strip (丨), You will see the high-power LED mode! and (4) the simple brightness, and will not see the image of the various electronic chips on the control board (3), it has the illumination aesthetics (as shown in the second figure). I Advantages 5. The control circuit board (3) is soldered with A and B terminal blocks (30) and (31). The B terminal block (31) can be combined with another high-power LED light bar (ΌA terminal block ( 7〇) mutual connection (no gap Φ connection 'such as the third riding show'', and each of the complex high-turn LED wires (7) are tightly joined to the situation where the electric powerless project is suddenly out, which is very beautiful. Especially when one of the high-power Led strips (7) needs to be replaced, it is only necessary to disconnect the high-power Led strips (7) connected at both ends, which is quite simple and greatly improved in practicality. It is to be understood that the present invention considers the heat conduction between the two components, such as the heat source and the high-power LED module on the control circuit board (3), regardless of the design of the components and the mutual configuration. 4) The heat of the light source will not be affected by each other, in order to increase the service life. At the same time, after the control circuit board (3) is installed, it is a suspended design, which can fully and quickly dissipate heat from the upper and lower spaces to extend the control circuit. The service life of the board (3). In addition, the use of the creation 12.1311181 ... effect And the secret 'installation is the mosquito market age, but the 'invented high power (10) module (4) and the control circuit board (3) adopting independent air and rushing will not affect the clarity and brightness of the illuminated object. It is even more difficult to see the images of various electronic chips on the control circuit board (3). In particular, as long as one of the high-power LED modules (4) loses its proper brightness, it only needs to directly remove the damage. Turn the LED to do (4), replace the new one, without replacing the entire control circuit board (3), simple replacement, in line with economic costs, make the invention more competitive in the market, characterized by [Simplified description] Figure: is a schematic exploded view of the high-power LED strip of the present invention. Figure 2 is a schematic diagram of the three-dimensional combination of the high-power strips of the present invention. The third figure is a schematic diagram of the high-power LED strips connected in series. Figure 4 is a perspective exploded view of another embodiment of the south power LED strip of the present invention. Fig. 5 is a cross-sectional view showing another embodiment of the high power led_ of the present invention. Power LE: D module structure Fig. 7 is a bottom view of the high-power LED guard of the present invention. The eighth figure is the three bottom view of the high-power LED persuasive structure of the present invention. The ninth picture is a three-dimensional combination of the conventional light strips. Schematic. [Main component symbol description] (1) High-power LED light bar (2) Heat-dissipating light bar 13 1311181

(21) accommodating area (23) heat sink fin (25) circuit board slide (27) joint area (30) A terminal block (32) LED connector (40) electrode pin (42) metal wire (51) Transparent lamp cover (53) Reflective lamp cover (55) Focusing lens (60) Side cover (62) Connection hole (64) Side cover screw (66) Power terminal (7) High-power LED light bar (9) Light bar (91) Setting area (93) terminal (95) electronic component (97) power supply line (22) light strip front area (24) through through hole (26) heat dissipation light bar screw hole (3) control circuit board (31) B terminal block ( 4) High power LED module (41) High power LE1D chip (52) Internal screw (54) External screw (56) Waterproof 0 type gasket (6) Transparent lamp cover (61) Connecting column (63) Screw hole (65) Waterproof Gasket (6 7 ) Power Cord (70) A Terminal Block (90) Rectangular Lamp Holder (92) Circuit Board Base (94) Light Emitting Diode (96) Cover 14

Claims (1)

1,311181 1 , X. Patent application scope: A high-power LED light bar structure, the high-power LED light bar comprises a high-power LE:D module, a heat-dissipating light bar and a control circuit board, wherein: the high The power LED module includes at least one high-power LED: D chip, and the positive and negative electrodes of the high-power LED chip are connected to the corresponding electrode pins; the front side of the light bar of the heat-dissipating light bar can be set at least one high The power Lm) module is disposed thereon, and the front side of the light bar directly below the high power le:d module is disposed between the accommodating area and the through hole, so that the high power LED mode and the electrode pin of the group are arranged. #形成through the through hole, electrically connected to the control circuit board; 5Hai control circuit board, is disposed in the accommodating area inside the heat-dissipating light bar, and has the power electrode respectively electrically connected to the power source to make the high-turning die _ _ The board is powered by the power supply. 〃 2. As stated in the patent application, the high-power (10) light bar structure described in item J, wherein a plurality of heat-dissipating fins extend outside the heat-dissipating light strip. People 3. If you apply for a patent scope! Item or the high-power L-strip structure of the second item, wherein the two ends of the heat-dissipating light strip are respectively provided with side covers, and the side cover is provided with a plurality of connecting posts for connecting the heat-dissipating fins In the gap, the side cover is fixed. 4. For example, she applies the high-power (10) light strip structure described in item 3, wherein a waterproof sheet is placed between the side cover and the heat-dissipating light strip on both end faces of the heat-dissipating light strip, and the side cover screw is touched. With fixed side cover, waterproof cymbal and loose track light strip. ° 5. According to the high-power light bar structure described in claim 1 or 2, 15 1311181, wherein the front side of the light bar of the heat-dissipating light bar is connected with a high-power LED module. The diameter of the zone may be appropriately larger than the diameter of the high-power LE:D module, and an internal screw is provided, and a transparent lampshade is provided with a relatively external screw so that the transparent lampshade can be rotated to the high-power LED module. Above. 6. The high-power LED light strip structure according to claim 1 or 2, wherein the front side of the light strip of the heat-dissipating light strip is connected with a high-power LED module, and the joint area is The diameter can be appropriately larger than the diameter of the high-power LED module, and is set to an internal screw, and a reflector cover has a relatively external screw, so that the reflector can be screwed to the top of the high-power LED module, and the reflector cover A focusing lens can be added to the front. 7. The high-power LED strip structure according to claim 1 or 2, wherein two sides of the inner end of the accommodating area of the heat-dissipating strip are provided with two card grooves to form a circuit board slippery Road 'This board slide is available for the control board to slide in and position. 8. If the scope of the patent is claimed! The high power LED strip structure of item 2, wherein the high power (10) chip of the high power LED module is composed of at least two high power LED chips of different wavelengths. 9. For the high-power LE]) wire structure described in the scope of the patent or the second item, wherein the control circuit board is provided with an A terminal block and a B terminal block before and after, and is a male-female joint complementary The design is convenient for the two high-power light bars to be connected in series, and the A terminal block and the b terminal block each have a pin of a parallel power supply electrode. 1〇. The high-power (10) light bar structure according to claim 9 of the patent scope, wherein the 16 (7 1 1311181 control circuit board, the A terminal block and the B terminal block have pins other than the parallel power supply electrodes) Also contains a pin for the control signal electrode. 17