CN113944904A - Easily-disassembled and assembled biological optical lamp and using method thereof - Google Patents

Abstract

The invention discloses a biological optical lamp easy to disassemble and assemble and a using method thereof, wherein the biological optical lamp comprises a bottom plate, a cover plate, a hook, a power supply driver and a lamp panel; step two, assembling a power supply box; step three, assembling the biological optical lamp; step four, installing a biological optical lamp; step five, using a biological optical lamp; compared with the existing biological optical lamp, the detachable biological optical lamp is designed into a detachable structure, the structure is convenient to overhaul and maintain and can quickly dissipate heat, and the structure can be disassembled and packaged, so that the packaging volume is reduced, and the transportation cost is reduced; the section used by the radiator main body can be cut into different lengths according to the requirements so as to meet the requirements of different powers, the manufacturing period of the radiator main body is short, and the delivery requirements of customers can be met; the invention is designed with a superposition grid-connected function, can uniformly adjust the output luminous flux of the bio-optical lamp through a network, reduces the labor cost and improves the efficiency.

Description

Easily-disassembled and assembled biological optical lamp and using method thereof

Technical Field

The invention relates to the technical field of production of biological optical lamps, in particular to a biological optical lamp easy to disassemble and assemble and a using method thereof.

Background

The LED biological optical lamp can be used for plant growth illumination, in order to be used safely, a power box is required to be installed on the biological optical lamp for placing a driving power supply, the power box of the existing LED biological optical lamp and the biological optical lamp are of an integrated structure and cannot be disassembled and assembled, so that the heat of the biological optical lamp can be transferred to electronic components inside the driving power supply, the service life of the driving power supply is influenced, the integrated structure not only can cause poor heat dissipation effect, but also can increase the packaging volume, so that the transportation cost is increased, and meanwhile, the maintenance is not convenient; the radiator of the existing biological optical lamp can not be quickly customized to different lengths according to needs, can not meet the requirements of different powers, and can not meet the requirements of clients on delivery due to the long manufacturing period of customization; when the existing biological optical lamp is used, the output luminous flux needs to be manually adjusted one by one, the labor cost is improved, and the efficiency is reduced.

Disclosure of Invention

The present invention is directed to a bio-optical lamp and a method for using the same, which are easy to assemble and disassemble, so as to solve the problems of the related art.

In order to achieve the purpose, the invention provides the following technical scheme: a biological optical lamp easy to disassemble and assemble comprises a bottom plate, a cover plate, hooks, a power driver, a connecting terminal, a first supporting plate, a first mounting hole, a power input terminal, a second mounting hole, a network terminal, a first buckle hole, a first screw hole, a second supporting plate, a third mounting hole, a power output terminal, a second buckle hole, a second screw hole, a radiator main body, an end cap, a inlaying hole, a connector male head, a plug terminal, a connector female head, a jack, a first clamping block, a second clamping block and a lamp panel, wherein the cover plate is arranged on the outer wall of the top end of the bottom plate, the first supporting plate is fixed on the outer wall of one side of the cover plate through screws, the second supporting plate is fixed on the outer wall of one side of the cover plate through screws, the power driver is distributed and fixed on the outer wall of one side of the bottom plate, connecting terminals are symmetrically fixed on the outer walls of the two sides of the power driver, hooks are symmetrically installed on the outer walls of the two sides of the bottom plate, and a radiator main body is installed on the outer wall of the bottom end of the bottom plate in a distributed mode.

Preferably, a first mounting hole is formed in the outer wall of one side of the first support plate, a power input terminal is mounted on the inner wall of one side of the first mounting hole, a second mounting hole is formed in the outer wall of one side of the first support plate, and a network terminal is mounted on the inner wall of one side of the second mounting hole.

Preferably, a third mounting hole is symmetrically formed in the outer wall of one side of the second support plate, and a power output terminal is mounted on the inner wall of one side of the third mounting hole.

Preferably, a first hanging buckle hole is formed in the outer wall of one side of the first supporting plate, first screw holes are formed in the outer wall of one side of the first supporting plate in a distributed mode, a second hanging buckle hole is formed in the outer wall of one side of the second supporting plate, and second screw holes are formed in the outer wall of one side of the second supporting plate in a distributed mode.

Preferably, the top outer wall of the radiator main body is provided with an inlaying hole, the inner wall of one side of the inlaying hole is fixedly connected with a connector male head, the inner wall of the connector male head is fixedly distributed with a plug terminal, the bottom outer wall of the bottom plate is fixedly distributed with a connector female head, the bottom outer wall of the connector female head is provided with a jack, and the plug terminal is inserted into the inner wall of one side of the jack

Preferably, the bottom end outer wall of the bottom plate is fixedly provided with a first clamping block in a distributed mode, the outer wall of the first clamping block is connected with a second clamping block in a clamping mode, and the second clamping block is fixedly connected to the inner wall of the embedding hole.

Preferably, the both ends of radiator main part symmetry fix with screw have the end cap, and fix with screw has the lamp plate on the bottom outer wall of radiator main part.

A use method of a biological optical lamp easy to disassemble and assemble comprises the steps of manufacturing a radiator; step two, assembling a power supply box; step three, assembling the biological optical lamp; step four, installing a biological optical lamp; step five, using a biological optical lamp;

in the first step, aluminum profiles with different lengths are cut according to the requirements of customers, inlaying holes are cut in advance, the male connector and the second fixture block are installed in the inlaying holes, plugs are installed at two ends of the male connector and the second fixture block, and a lamp panel is installed on the bottom surface of the male connector and the second fixture block to obtain the radiator;

in the second step, firstly, a connector female head is installed on a bottom plate, a power supply driver is installed on the bottom plate, the power supply drivers are connected in series through a connecting terminal, a power supply input terminal is installed in a first installation hole, a network terminal is installed in a second installation hole, a power supply output terminal is installed in a third installation hole, the power supply output terminal is installed on the output end of the power supply driver which is connected in series, the power supply input terminal is installed on the input end of the power supply driver which is connected in series, a signal amplifier is connected in series on the power supply driver and is connected with the network terminal, finally, a first support plate and a second support plate are installed on the bottom plate, a cover plate is covered, the first support plate and the second support plate are fixed through screws, and a hook is installed on the bottom plate to obtain a power supply box;

in the third step, the radiator obtained in the first step and the power supply box obtained in the second step are separately and independently packaged, the power supply boxes are conveyed to an installation site, the radiators are installed on the power supply boxes one by one, the male connector is inserted into the female connector, the first clamping block is clamped with the second clamping block, and the assembly of the biological optical lamp is completed;

in the fourth step, firstly, the sling for the biological optical lamp is hung at a required height position, then the power input terminal of the biological optical lamp is connected with an external power supply, and the network terminal is connected with a network cable or an external wireless communication module;

in the fifth step, when the biological optical lamp is used for large-scale plant planting or biological cultivation, the control signal is sent through the monitoring center according to biological requirements in different seasons and different growth stages, the controller receives the control signal and sends a control instruction to the signal amplifier so as to control the illumination intensity and the illumination time.

Preferably, in the first step, the lamp panel is composed of an aluminum substrate, a bio-optical lamp bead, an SMD terminal, a lead-free solder paste and a three-proofing adhesive, the lead-free solder paste is printed on the aluminum substrate, the bio-optical lamp bead is mounted on the surface of the lead-free solder paste, the lead-free solder paste is then soldered to the bio-optical lamp bead, the SMD terminal and the aluminum substrate by reflow soldering, and the three-proofing adhesive is printed after the lighting test is completed, so that the lamp panel is formed.

Compared with the prior art, the invention has the beneficial effects that: compared with the existing biological optical lamp, the detachable biological optical lamp is designed into a detachable structure, the structure is convenient to overhaul and maintain and can quickly dissipate heat, and the structure can be disassembled and packaged, so that the packaging volume is reduced, and the transportation cost is reduced; the section used by the radiator main body can be cut into different lengths according to the requirements so as to meet the requirements of different powers, the manufacturing period of the radiator main body is short, and the delivery requirements of customers can be met; the invention is designed with a superposition grid-connected function, can uniformly adjust the output luminous flux of the bio-optical lamp through a network, reduces the labor cost and improves the efficiency.

Drawings

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic perspective view of a power driver according to the present invention;

FIG. 3 is a perspective view of the heat sink body according to the present invention;

FIG. 4 is an enlarged view of the structure of the area A in FIG. 3;

FIG. 5 is a perspective view of a first support plate according to the present invention;

FIG. 6 is a perspective view of a second supporting plate according to the present invention;

FIG. 7 is a schematic perspective cut-away view of the base plate of the present invention;

FIG. 8 is a schematic view of a three-dimensional structure of the lamp panel according to the present invention;

FIG. 9 is a flow chart of a method of the present invention;

in the figure: 1. a base plate; 2. a cover plate; 3. hooking; 4. a power supply driver; 5. a connection terminal; 6. a first support plate; 7. a first mounting hole; 8. a power input terminal; 9. a second mounting hole; 10. a network terminal; 11. a first hanging buckle hole; 12. a first screw hole; 13. a second support plate; 14. a third mounting hole; 15. a power supply output terminal; 16. a second hanging buckle hole; 17. a second screw hole; 18. a heat sink body; 19. a plug; 20. inlaying a hole; 21. a connector male; 22. plugging terminals; 23. a connector female; 24. a jack; 25. a first clamping block; 26. a second fixture block; 27. and a lamp panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an embodiment of the present invention: a biological optical lamp easy to disassemble and assemble comprises a bottom plate 1, a cover plate 2, a hook 3, a power supply driver 4, a connecting terminal 5, a first supporting plate 6, a first mounting hole 7, a power supply input terminal 8, a second mounting hole 9, a network terminal 10, a first buckle hole 11, a first screw hole 12, a second supporting plate 13, a third mounting hole 14, a power supply output terminal 15, a second buckle hole 16, a second screw hole 17, a radiator main body 18, a plug 19, an embedding hole 20, a connector male head 21, a plug terminal 22, a connector female head 23, a jack 24, a first clamping block 25, a second clamping block 26 and a lamp panel 27, wherein the cover plate 2 is arranged on the outer wall of the top end of the bottom plate 1, the first supporting plate 6 is fixed on the outer wall of one side of the cover plate 2 through screws, the first supporting plate 6 is fixed on the outer wall of one side of the bottom plate 1 through screws, the second supporting plate 13 is fixed on the outer wall of one side of the cover plate 2 through screws, the second supporting plate 13 is fixed on the outer wall of one side of the bottom plate 1 through screws, a power driver 4 is distributed and fixed on the outer wall of the top end of the bottom plate 1, connecting terminals 5 are symmetrically fixed on the outer walls of two sides of the power driver 4, hooks 3 are symmetrically mounted on the outer walls of two sides of the bottom plate 1, and a radiator main body 18 is distributed and mounted on the outer wall of the bottom end of the bottom plate 1; a first mounting hole 7 is formed in the outer wall of one side of the first support plate 6, a power input terminal 8 is mounted on the inner wall of one side of the first mounting hole 7, a second mounting hole 9 is formed in the outer wall of one side of the first support plate 6, a network terminal 10 is mounted on the inner wall of one side of the second mounting hole 9, the power input terminal 8 is used for being connected with an external power supply, and the network terminal 10 is used for being connected with a network; a third mounting hole 14 is symmetrically formed in the outer wall of one side of the second support plate 13, a power output terminal 15 is mounted on the inner wall of one side of the third mounting hole 14, and the power output terminal 15 is used for being connected with a connector female head 23; a first hanging and buckling hole 11 is formed in the outer wall of one side of the first supporting plate 6, a first screw hole 12 is distributed in the outer wall of one side of the first supporting plate 6, a second hanging and buckling hole 16 is formed in the outer wall of one side of the second supporting plate 13, a second screw hole 17 is distributed in the outer wall of one side of the second supporting plate 13, the first hanging and buckling hole 11 and the second hanging and buckling hole 16 are used for installing a sling, and the first screw hole 12 and the second screw hole 17 are used for installing screws; the top end outer wall of the radiator main body 18 is provided with an embedding hole 20, the inner wall of one side of the embedding hole 20 is fixedly connected with a connector male head 21, the inner wall of the connector male head 21 is fixedly distributed with a plug terminal 22, the outer wall of the bottom end of the bottom plate 1 is fixedly distributed with a connector female head 23, the outer wall of the bottom end of the connector female head 23 is fixedly distributed with a jack 24, the plug terminal 22 is plugged in the inner wall of one side of the jack 24, and the connector male head 21 and the connector female head 23 are used for conducting a circuit; a first fixture block 25 is distributed and fixed on the outer wall of the bottom end of the bottom plate 1, a second fixture block 26 is connected to the outer wall of the first fixture block 25 in a clamping manner, the second fixture block 26 is fixedly connected to the inner wall of the embedding hole 20, and the bottom plate 1 and the radiator main body 18 can be quickly fixed through clamping of the first fixture block 25 and the second fixture block 26; plugs 19 are symmetrically fixed to two ends of the radiator main body 18 through screws, a lamp plate 27 is fixed to the outer wall of the bottom end of the radiator main body 18 through screws, the plugs 19 are used for improving the attractiveness of the radiator main body 18, and the lamp plate 27 is used for converting electric energy into light energy.

Referring to fig. 9, an embodiment of the present invention: a use method of a biological optical lamp easy to disassemble and assemble comprises the steps of manufacturing a radiator; step two, assembling a power supply box; step three, assembling the biological optical lamp; step four, installing a biological optical lamp; step five, using a biological optical lamp;

in the first step, aluminum profiles with different lengths are cut according to customer requirements, a mounting hole 20 is cut in advance, a connector male head 21 and a second fixture block 26 are mounted in the mounting hole 20, plugs 19 are mounted at two ends of the connector male head, a lamp panel 27 is mounted on the bottom surface of the connector male head, a radiator is obtained, the lamp panel 27 is composed of an aluminum substrate, a biological optical lamp bead, an SMD terminal, lead-free tin paste and three-proofing glue, the lead-free tin paste is printed on the aluminum substrate, the biological optical lamp bead is mounted on the surface of the lead-free tin paste, the lead-free tin paste is then welded through reflow soldering, the biological optical lamp bead, the SMD terminal and the aluminum substrate are soldered, and the lamp panel 27 is formed by printing the three-proofing glue after lighting tests are finished;

in the second step, firstly, the female connector 23 is installed on the bottom plate 1, the power drivers 4 are connected in series through the connecting terminal 5, the power input terminal 8 is installed in the first installing hole 7, the network terminal 10 is installed in the second installing hole 9, the power output terminal 15 is installed in the third installing hole 14, the power output terminal 15 is installed on the output end of the power driver 4 which is connected in series, the power input terminal 8 is installed on the input end of the power driver 4 which is connected in series, the power driver 4 is connected in series with the signal amplifier, the signal amplifier is connected with the network terminal 10, finally, the first supporting plate 6 and the second supporting plate 13 are installed on the bottom plate 1, the cover plate 2 is covered and fixed with the first supporting plate 6 and the second supporting plate 13 through screws, the hook 3 is installed on the bottom plate 1, obtaining a power supply box;

in the third step, the radiator obtained in the first step and the power supply box obtained in the second step are separately and independently packaged, the power supply boxes are conveyed to an installation site, the radiators are installed on the power supply boxes one by one, the male connector 21 is inserted into the female connector 23, and the first fixture block 25 is clamped with the second fixture block 26 to complete the assembly of the biological optical lamp;

in the fourth step, firstly, the sling for the biological optical lamp is hung at a required height position, then the power input terminal 8 of the biological optical lamp is connected with an external power supply, and the network terminal 10 is connected with a network cable or an external wireless communication module;

in the fifth step, when the biological optical lamp is used for large-scale plant planting or biological cultivation, the control signal is sent through the monitoring center according to biological requirements in different seasons and different growth stages, the controller receives the control signal and sends a control instruction to the signal amplifier so as to control the illumination intensity and the illumination time.

Based on the above, the invention has the advantages that when the invention is used for biological illumination, equipment is firstly assembled, aluminum profiles with different lengths can be cut according to requirements, the inlaying hole 20 is cut in advance, the connector male head 21 and the second fixture block 26 are installed in the inlaying hole 20, the plugs 19 are installed at two ends, and the lamp panel 27 is installed at the bottom surface, so that the assembly of the radiator is completed; installing a female connector 23 on a bottom plate 1, installing a power driver 4 on the bottom plate 1, connecting the power drivers 4 in series through a connecting terminal 5, installing a power input terminal 8 in a first installing hole 7, installing a network terminal 10 in a second installing hole 9, installing a power output terminal 15 in a third installing hole 14, installing a power output terminal 15 on an output end of the power driver 4 which is connected in series, installing the power input terminal 8 on an input end of the power driver 4 which is connected in series, a signal amplifier is connected in series with the power driver 4 and is connected with the network terminal 10, and finally the first support plate 6 and the second support plate 13 are mounted on the bottom plate 1, the cover plate 2 is covered, the power supply box is fixed with a first supporting plate 6 and a second supporting plate 13 through screws, and a hook 3 is arranged on a bottom plate 1 to complete the assembly of the power supply box; installing the radiators on the power supply box one by one, inserting the male connector 21 into the female connector 23, and clamping the first clamping block 25 and the second clamping block 26 to complete the assembly of the biological optical lamp; the biological optical lamp is hung at a required height position through a first hanging buckle hole 11 and a second hanging buckle hole 16 by using a sling, a power input terminal 8 of the biological optical lamp is connected with an external power supply, a network terminal 10 is connected with a network cable or an external wireless communication module, a control signal is sent through a monitoring center, a controller receives the control signal and sends a control command to a signal amplifier so as to control the illumination intensity and the illumination time, wherein the transverse section of a radiator main body 18 is in an I shape, the bottom surface of the I shape is a plane with the thickness of about 4mm, two sides of the plane are respectively provided with a rib with the radian of 60 degrees and form the illumination angle of 130 degrees with the bottom surface, the back surface of the plane is respectively provided with an arc rib, the thickness of the arc rib is 2mm, the back surface of the plane is provided with regular straight ribs, three plugging terminals 22 are respectively provided with a live wire, A neutral wire and a ground wire.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a biological optical lamp of easy dismouting, including bottom plate (1), apron (2), couple (3), power driver (4), connecting terminal (5), first backup pad (6), first mounting hole (7), power input terminal (8), second mounting hole (9), network terminal (10), first knot hole (11) of hanging, first screw hole (12), second backup pad (13), third mounting hole (14), power output terminal (15), second knot hole (16) of hanging, second screw hole (17), radiator main part (18), end cap (19), inlay hole (20), connector public head (21), plug terminal (22), connector female head (23), jack (24), first fixture block (25), second fixture block (26) and lamp plate (27), its characterized in that: be provided with apron (2) on the top outer wall of bottom plate (1), the fix with screw has first backup pad (6) on one side outer wall of apron (2), and on one side outer wall of first backup pad (6) fix with screw bottom plate (1), the fix with screw has second backup pad (13) on one side outer wall of apron (2), and on one side outer wall of second backup pad (13) fix with screw bottom plate (1), it is fixed with power driver (4) to distribute on the top outer wall of bottom plate (1), the symmetry is fixed with connecting terminal (5) on the both sides outer wall of power driver (4), couple (3) are installed to the symmetry on the both sides outer wall of bottom plate (1), radiator main part (18) are installed to the distribution on the bottom outer wall of bottom plate (1).

2. An easily disassembled and assembled bio-optical lamp as claimed in claim 1, wherein: the power supply support device is characterized in that a first mounting hole (7) is formed in the outer wall of one side of the first support plate (6), a power supply input terminal (8) is mounted on the inner wall of one side of the first mounting hole (7), a second mounting hole (9) is formed in the outer wall of one side of the first support plate (6), and a network terminal (10) is mounted on the inner wall of one side of the second mounting hole (9).

3. An easily disassembled and assembled bio-optical lamp as claimed in claim 1, wherein: and a third mounting hole (14) is symmetrically formed in the outer wall of one side of the second support plate (13), and a power output terminal (15) is mounted on the inner wall of one side of the third mounting hole (14).

4. An easily disassembled and assembled bio-optical lamp as claimed in claim 1, wherein: seted up first string knot hole (11) on one side outer wall of first backup pad (6), distributed on one side outer wall of first backup pad (6) and seted up first screw hole (12), seted up second string knot hole (16) on one side outer wall of second backup pad (13), distributed on one side outer wall of second backup pad (13) and seted up second screw hole (17).

5. An easily disassembled and assembled bio-optical lamp as claimed in claim 1, wherein: the radiator comprises a radiator main body (18) and is characterized in that an inlaying hole (20) is formed in the outer wall of the top end of the radiator main body (18), a connector male head (21) is fixedly connected to the inner wall of one side of the inlaying hole (20), plug terminals (22) are fixedly distributed on the inner wall of the connector male head (21), a connector female head (23) is fixedly distributed on the outer wall of the bottom end of a bottom plate (1), jacks (24) are formed in the outer wall of the bottom end of the connector female head (23), and the plug terminals (22) are inserted into the inner wall of one side of the jacks (24).

6. An easily disassembled and assembled bio-optical lamp as claimed in claim 1, wherein: the bottom end outer wall of the bottom plate (1) is fixedly provided with a first clamping block (25), the outer wall of the first clamping block (25) is connected with a second clamping block (26) in a clamping mode, and the second clamping block (26) is fixedly connected to the inner wall of the embedding hole (20).

7. An easily disassembled and assembled bio-optical lamp as claimed in claim 1, wherein: symmetrical screws at two ends of the radiator main body (18) are fixed with plugs (19), and screws on the outer wall of the bottom end of the radiator main body (18) are fixed with lamp panels (27).

8. A use method of a biological optical lamp easy to disassemble and assemble comprises the steps of manufacturing a radiator; step two, assembling a power supply box; step three, assembling the biological optical lamp; step four, installing a biological optical lamp; step five, using a biological optical lamp; the method is characterized in that:

in the first step, aluminum profiles with different lengths are cut according to the requirements of customers, inlaying holes (20) are cut in advance, a connector male head (21) and a second fixture block (26) are installed in the inlaying holes (20), plugs (19) are installed at two ends of the connector male head, and a lamp panel (27) is installed on the bottom surface of the connector male head to obtain the radiator;

in the second step, firstly, the female connector head (23) is installed on the bottom plate (1), the power drivers (4) are connected in series through the connecting terminals (5), the power input terminal (8) is installed in the first installation hole (7), the network terminal (10) is installed in the second installation hole (9), the power output terminal (15) is installed in the third installation hole (14), the power output terminal (15) is installed on the output end of the power drivers (4) which are connected in series, the power input terminal (8) is installed on the input end of the power drivers (4) which are connected in series, the signal amplifier is connected in series on the power drivers (4) and is connected with the network terminal (10), and finally, the first supporting plate (6) and the second supporting plate (13) are installed on the bottom plate (1), covering the cover plate (2), fixing the cover plate with the first supporting plate (6) and the second supporting plate (13) through screws, and installing the hook (3) on the bottom plate (1) to obtain a power supply box;

in the third step, the radiator obtained in the first step and the power supply box obtained in the second step are separately and independently packaged, the power supply boxes are conveyed to an installation site, the radiators are installed on the power supply boxes one by one, the male connector head (21) is inserted into the female connector head (23), and the first clamping block (25) is clamped with the second clamping block (26) to complete the assembly of the biological optical lamp;

in the fourth step, firstly, the sling for the biological optical lamp is hung at a required height position, then the power input terminal (8) of the biological optical lamp is connected with an external power supply, and the network terminal (10) is connected with a network cable or an external wireless communication module;

in the fifth step, when the biological optical lamp is used for large-scale plant planting or biological cultivation, the control signal is sent through the monitoring center according to biological requirements in different seasons and different growth stages, the controller receives the control signal and sends a control instruction to the signal amplifier so as to control the illumination intensity and the illumination time.

9. The use method of an easily detachable bio-optical lamp according to claim 8, wherein: in the first step, the lamp panel (27) is composed of an aluminum substrate, a bio-optical lamp bead, an SMD terminal, a lead-free solder paste and a three-proofing adhesive, the lead-free solder paste is printed on the aluminum substrate, the bio-optical lamp bead is pasted on the surface of the lead-free solder paste, then the lead-free solder paste, the bio-optical lamp bead, the SMD terminal and the aluminum substrate are welded through a reflow solder, and the lamp panel (27) is formed by printing the three-proofing adhesive after the lighting test is finished.

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