TWM336537U - LED lighting lamp capable of simulating natural light - Google Patents

Description

M336537 VIII. New description: [New technical field] This creation is about a kind of LED lighting, especially a kind of LED lighting that can simulate natural light. [Prior Art] With the trend of increasing quality of life, more and more people will set up water, fish, and water plants at home or on the office table to beautify the indoor environment and make leisure leisure activities. Most of the users will install the equipment on the water, and read the radiation from her county to make the fish, grass, pebbles, ornaments and background more clear and beautiful. Conventional aquarium lighting fixtures are equipped with a neon light in a lamp holder and an electrical component such as a transformer on the side of the lamp holder. When used, the lamp holder is placed directly above the aquarium, and the fluorescent lamp projects the day (four) wire. However, since the light projected by the Japanese and New Zealand is a single-color system, not only the tree is monotonous, but also the effect of natural light cannot be produced. The growth of fish and aquatic plants in the county has led to the growth of fish, water, and slow growth in the water, which lacks vitality. Therefore, how to improve the structure of the aquarium lighting fixtures, so that the light emitted by the aquarium can be approximated by natural light's light through the filaments of the individual filaments, the growth of the aquatic plants, and the color of the fish and the grass itself. Making it more interesting is a problem that needs to be solved. [New content] In view of this, this creation proposes a led illumination lamp that can simulate natural light, including: light board; 5 M336537 complex white light LED, arranged on the light board; complex blue light LED, arranged on the light board; multiple fill light Led, disposed on the light board; and the control module controls the white light, the blue light LED and the fill light LED in a plurality of control modes, and combines the light emitted by the white light LED, the blue light LED and the fill light LED to form a plurality of fused lights. The present invention also proposes an LED illumination lamp capable of simulating natural light, comprising: a light panel; a plurality of white LEDs disposed on the light panel; a plurality of blue LEDs disposed on the light panel; and a control module for controlling the white LEDs in a plurality of control modes With the blue LED, the light emitted by the white LED and the blue LED is combined to form a plurality of fused lights. This creation provides condensed light of approximately different types of natural light, and can project suitable fused light according to the needs of fish and aquatic growth activities, promote fish activity and enhance water photosynthesis, and change fish by different types of fused light. The vividness of the color of the water grass makes the aquaculture more ornamental. The preferred embodiment of the present invention and its effects are described below in conjunction with the drawings. [Embodiment] Please refer to Fig. 1, Fig. 2, and Fig. 3 for a first embodiment of the present invention. Fig. 1 is a block diagram of the structure, Fig. 2 is a perspective view, and Fig. 3 is a plan view. The LED illumination lamp capable of simulating natural light comprises: a light board 10, a plurality of white light LEDs 20, a plurality of blue light LEDs 30, a plurality of complementary light LEDs 40, and a control module 50. The light panel 10 is a rectangular printed circuit board (PCB), and the associated circuit and electrical components are disposed on the light board 10. The plurality of white LEDs 20 are disposed on the light panel 10. The white LEDs 20 have an illumination angle of 120 6 M336537 degrees and emit white light having a wavelength between 400 nm and 800 nm. In addition, the white LED 20 has a color temperature of 5600 K. Simulate and illuminate the intensity through the white light led 20 analog daylight spectrum, giving the aquatic creatures a sun-like visual effect. The plurality of blue LEDs 30 are disposed on the light panel 1 ,, and the blue LEDs 3 发光 have an illumination angle of 12 〇 , and emit blue light having a wavelength of 45 1 1 to 55 〇 11111. Enhance the color and energy intensity of 56〇〇K in the whole spectrum via blue light 1^)30, and simulate the night phase, and its short wavelength to reach the penetration depth. In addition, the soft blue luminous light can promote the biological reproduction in water. The plurality of fill light 1^}40 has a lens structure (1^) disposed on the light panel 1〇, which may be an RGB LED or a red LED, wherein the fill light emitting diode 33 is preferably a red LED The red LED has an illumination angle of 60 degrees and emits red light with a wavelength between 550 rnn and 650 nm. The red light of red LEDs moisturizes aquatic organisms, making them more beautiful and elegant in appearance. Even some aquatic plants or specific fish species must absorb red spectrum when growing or breeding, otherwise they will not grow well or prolong the second generation. The red light of the red LED can also achieve a uniform complementary color absorption effect. I The number of white LEDs 20 is six, the number of blue LEDs is three, the number of fill LEDs is eight, and the plurality of white LEDs, the plurality of blue LEDs, and the plurality of complementary LEDs 40 are arranged at intervals in the light. On the board 10, a plurality of white LEDs 20, a plurality of blue lights, and LEDs 3 are located on the same straight line, and the order is white LED 20, blue LED 30, white LED 20, white LED 20, blue light LHD 30, white light LHD 20, white LED 20, blue LED 30, white LED 20, The plurality of fill LEDs 40 are disposed on the two sides of the straight line. In addition, the partial fill LEDs 40 are disposed between the white LEDs 20 and the blue LEDs 30 in a parent-to-error manner, and the partial fill LEDs 40 are interleaved between the two white LEDs 20 in a staggered manner. 7 M336537 Furthermore, the plurality of white LEDs 20 and the complex blue LEDs arranged on the same line have a pitch of 25 mm (the distance between the center points), and the plurality of fill LEDs 40 on the two sides of the line The vertical spacing between the two is 26_ (the vertical spacing between the center points), and the spacing between the plurality of fill LEDs 40 on the same side of the line is 50 mm (the spacing between the center points). The creation can be a true line mirror, a true level, a plating or a scale plating, such as a square light board, a plurality of white LEDs 20, a plurality of blue LEDs 30, and a plurality of fill light LEDs 40 are coated with a separation layer to isolate the aquarium The water vapor evaporated inside directly contacts the components such as the lamp board, and prevents the water vapor from corroding the components such as the lamp board 10 and causing damage. The control module 50 controls the plurality of white LEDs 2〇, the plurality of blue LEDs 3〇 and the plurality of complementary LEDs 40 in a plurality of control modes, and combines the light emitted by the plurality of white LEDs 20, the plurality of blue LEDs 30 and the plurality of complementary LEDs 40 to form a plurality of fusions. The light, and the different fused light, are similar to different natural light, and can be effectively projected from the top of the aquarium to the bottom of the aquarium. In addition, the control module 50 includes a driving unit 51 and a micro-tool 52. The driving unit 51 is used to set a plurality of white LEDs, a plurality of blue LEDs, and a plurality of complementary LEDs. The control driving unit 51 drives the plurality of white LEDs 20, the plurality of blue LEDs 30, and the plurality of complementary LEDs 4G to emit light, and controls the other units 51 to be between the rehabilitation modules. The microprocessor 52 just described can control the driving unit 5 to switch to the six modes of the first mode, the second mode, the third mode, the fourth mode #, the fifth mode, and the sixth mode, and each The control mode corresponds to a fused light. When the micro (4) 52 control lion unit is in the _ model scale, adjust the brightness of the 8 M336537 white LED 20, the complex blue LED 30 and the complex fill LED 40, and the multiple white LED 20, the complex blue LED 30 and the multiple fill light The brightness of the LED 40 varies linearly with time. For example, the blue LED 30 emits about 1/3 brightness at the beginning, and increases to 2/3 brightness after one hour and increases to full brightness at three hours, after which the brightness of the blue LED 30 begins to gradually decrease 'decrement to 2/ after six hours. 3 brightness, after nine hours, it is reduced to 1/3 brightness, and stops emitting after ten hours; the brightness change of white LED 20 is the same as that of blue LED 30; fill light LED 40 emits about 1/6 brightness at the beginning, and increases to one hour later. 1/3 brightness, and increased to full brightness at three hours, after which the brightness of the blue LED 30 begins to gradually decrease, decrement to 2/3 brightness after six hours' and maintains the same brightness to nine hours, and stops after ten hours. Illumination, which simulates the change in brightness of the daylight from the exit to the fall. Furthermore, the illumination time and brightness of the plurality of white LEDs 20, the plurality of blue LEDs 30, and the plurality of complementary LEDs 40 can be adjusted according to the seasons. When the driving unit 51 is in the second mode, the plurality of white LEDs 2, the plurality of blue LEDs 30, and the plurality of complementary LEDs 40 are simultaneously driven to emit light, thereby simulating the daytime sunshine; when the driving unit 51 is in the third mode, only the driving is performed. The plurality of white LEDs 20 and the plurality of blue LEDs 30 emit light, and do not drive the plurality of fill LEDs to emit light, thereby simulating the illumination conditions required for seawater organisms (including invertebrates, high salinity freshwater organisms); when the drive unit 51 In the four mode, only the plurality of white LEDs 20 and the plurality of complementary LEDs 40 are driven to emit light, and the plurality of blue LEDs 30 are not driven to emit light, thereby simulating the illumination conditions required for freshwater organisms and freshwater aquatic plants; when the driving unit 51 is in the fifth mode At the same time, only the plurality of blue LEDs 3 〇 are driven to emit light, and the plurality of white LEDs 20 and the plurality of complementary LEDs 40 are not driven to emit light, thereby simulating the night illumination; when the driving unit 51 is in the sixth mode, the driving plural is stopped at the same time. White LED2〇, complex blue 9 M336537 LED30 and multiple fill LED40 light. Please refer to FIG. 4 for a block diagram of the second embodiment of the present invention. The creation may further include a switch 60 and a memory 70, wherein the switch 6 is for the user to control the drive unit 51 to switch the control mode, and the memory 70 stores the control mode switched by the drive unit 51, and restarts when the power is turned off. At this time, the control mode of the driving unit 51 before the power-off is read from the memory 7 ,, and the plurality of white LEDs 2 复, the plurality of blue lights, and the plurality of complementary light LEDs 40 are driven according to the control mode. Please refer to FIG. 5 for a perspective view of a third embodiment of the present invention. The creation can further include a lamp holder 80 and a cross frame 81. The bottom surface of the lamp holder 80 can be used to install the light board 1〇, and the two ends of the lamp holder 80 respectively span the frame 81 so as to straddle the aquarium. The user can switch the control mode via the switch switch 60 to project the fused light corresponding to the control mode to the aquarium. Please refer to FIG. 6 and FIG. 7 for the fourth embodiment of the present invention. FIG. 6 is a structural block diagram, and FIG. 7 is a perspective view. The LED lighting of the present invention which can simulate natural light can also set only a plurality of white LEDs 20 and a plurality of blue LEDs 30 without setting a plurality of complementary LEDs 40. The plurality of white LEDs 20 and the plurality of blue LEDs 30 are controlled in a complex numerical control mode via the control module 5, and the light emitted by the two is combined to form a plurality of fused lights. The driving unit 51 of the control module 5 is configured to set the working current required by the plurality of white LEDs and the plurality of blue LEDs, and the microprocessor 52 of the control module 5 is configured to control the driving unit 51 to drive the plurality of white LEDs 20 and the plurality of blue lights. At least one of the LEDs 30 emits light, and the control drive unit 51 switches between the complex control modes. The microprocessor 52 can control the driving unit 51 to switch to the first mode, the second mode, the third mode M336537, the fourth core mode and the fifth mode, and each of the five control modes, and each of the control modes corresponds to a fuse light. The first mode is to adjust the redundancy of the complex white light and the complex blue light LED3 with time, and the brightness of the plurality of white LEDs 20 and the complex blue LEDs 30 are linearly changed; the first mode is to drive the Wei domain LED 2G and reduce the Wei Led3g illuminates; 帛3 mode system•, drives multiple white LED2G illumination, but does not drive multiple blue LED3G illumination; the fourth mode... drives multiple blue LED3〇 illumination, but does not drive multiple white LED2〇 illumination; when the fifth mode At the same time, the driving of the plurality of white LEDs 20 and the plurality of blue LEDs 30 are stopped. In this embodiment, the switch 60 and the memory 70 are also provided. The switch 60 can be used by the user to control the drive unit 51 to switch the control mode, and the memory 7 〇 stores the control mode switched by the drive unit 51. When restarting, the control mode of the driving unit 51 before the power-off is read from the memory 7〇, and the plurality of white LEDs 2 and the plurality of blue LEDs 30 are driven to emit light according to the control mode. This creation provides different types of natural light fusion light with different control modes, and can project suitable fusion light according to the needs of fish and aquatic growth activities, promote fish activity and enhance aquatic grass to accelerate photosynthesis. For example, users can simulate in the first mode. The brightness of sunlight from sunrise to sunset is changed, providing a more suitable growth and breeding environment for fish and aquatic plants, and the aquaculture can be diversified by changing the color of the fish and the color of the grass itself by other control modes. More ornamental. Furthermore, the LED lighting that simulates natural light in this creation does not generate uv light when it is illuminated, so it will not cause harm to the user if it is irradiated to the user for a long time. While the technical content of the present invention has been disclosed above in the preferred embodiments, it is not intended to limit the present invention, and any person skilled in the art will be able to make some modifications and 11 M336537 retouching without departing from the spirit of the present invention. Within the scope of this creation, the scope of protection of this creation is subject to the definition of the scope of the patent application.

12 M336537 [Simple description of the drawing] Fig. 1 is a block diagram showing the structure of the LED lighting lamp of the first embodiment. Fig. 2 is a perspective view showing the LED lighting lamp of the first embodiment of the present invention. Fig. 3 is a plan view showing the LED lighting lamp of the first embodiment of the present invention. Fig. 4 is a block diagram showing the structure of the LED lighting lamp of the second embodiment of the present invention. Fig. 5 is a perspective view showing the LED lighting lamp of the third embodiment of the present invention. Fig. 6 is a block diagram showing the structure of an LED illumination lamp according to a fourth embodiment of the present invention. Fig. 7 is a perspective view showing the LED lighting lamp of the fourth embodiment of the present invention. [Main component symbol description] 10..............light board

20...................white LED

30..............Blue LED

40 · ............. Filling LED 50 .......... · ·••Control Module 51 ............. .Drive unit 52 ..............Microprocessor 60..............Toggle switch 70........... ...memory 80 ..............lamp holder 81 ..............span 13

Claims (1)

M336537 IX. Patent application scope: A kind of LED illumination lamp that can simulate natural light, comprising: a light board; a plurality of white light LEDs disposed on the light board; a plurality of blue LEDs disposed on the light board; a plurality of complementary light LEDs, And the control module controls the white LEDs, the blue LEDs, and the fill LEDs in a plurality of control modes, and combines the white LEDs, the blue LEDs, and the fill LEDs The emitted light forms a plurality of fused lights. 2. The LED illumination lamp of claim 1, wherein the control module comprises a driving unit for setting the working currents of the white LEDs, the blue LEDs and the complementary LEDs. 3. The LED lighting device of claim 2, wherein the control module comprises a microprocessor for controlling the driving unit to drive the white LEDs, the blue LEDs, and the complementary LEDs. _ people shine. 4. The LED lighting of claim 3, wherein the microprocessor controls the driving unit to switch between the control modes. 5. The LED illuminator capable of simulating natural light according to claim 4, wherein the control modes comprise a first mode, and the driving unit adjusts the white light L] ED over time in the first mode, the blue LEDs And the brightness of the fill LEDs. 6. The LH3 illuminator capable of simulating natural light according to claim 5, wherein the brightness of the white LEDs, the M336537 blue LEDs, and the fill LEDs varies linearly. 7. The LED illumination lamp of claim 4, wherein the control modes comprise a second mode, wherein the driving unit simultaneously drives the white LEDs, the blue LEDs, and the complements in the second mode. The light LED illuminates. 8. The LED illumination lamp of claim 4, wherein the control modes comprise a second mode, wherein the driving unit drives the white LEDs in the third mode, and the blue LEDs emit light. 9. The LED illumination lamp of claim 4, wherein the control modes comprise a fourth mode, wherein the driving unit drives the white LEDs in the fourth mode, and the complementary LEDs emit light. 10. The LED illuminator of claim 4, wherein the control modes comprise a fifth mode, and the driving unit drives the blue LEDs to illuminate in the fifth mode. 11. The LED lighting device of claim 4, wherein the control modes include a first mode, and the driving stops driving the white LEDs, the blue LEDs, and the plurality of modes simultaneously in the sixth mode. Fill light led light. 12. The LED illuminator for simulating natural light according to claim 4, further comprising: a switch for controlling the drive unit to switch the control mode. 13. The LED illuminator for simulating natural light according to claim 4, further comprising: a memory for storing the control mode switched by the driving unit. 14. The led illumination lamp of claim 1 which simulates natural light, wherein each of the control modes corresponds to one of the fused lights. 15 M336537 15 The led illumination lamp of claim 1, wherein the white LEDs, the blue LEDs, and the fill LEDs are disposed on the panel in a spaced manner. 16. The LED lighting of claim 15 which simulates natural light, wherein the white LEDs and the blue LEDs are on the same line. 17. The LED illumination lamp of claim 16 which can simulate natural light, wherein the fill light LEDs are located on two sides of the straight line. 18. The LED illumination lamp of claim 17, wherein at least one of the fill LEDs is located between the white LED and the blue LED. 19. The LED illuminator of claim 17 which simulates natural light, wherein at least one of the fill LEDs is located between the white LEDs. 2 For example, the led light of the natural light can be simulated, wherein the white light emits white light with a wavelength between 400 nm and 800 nm. 21. The LED lighting of claim 1 which can simulate natural light, wherein the color temperature of the white LEDs is 5600K. 22. The LED light for simulating natural light, such as the blue light led, emits blue light having a wavelength between 450 nm and 550 nm. 23. The LED illumination lamp of claim 1 can simulate natural light, wherein the fill light 1^〇 is 1^ twisted LED ° 24, such as the request item 丨 can simulate natural light LED illumination, wherein the fill light led For the red LED ° 25, such as clearing item 24 can simulate the natural light of the led illumination, wherein the red LED emits M336537 red light with a wavelength between 550 nm and 650 nm. 26 27 28 29 30 31 32 The LED illumination of claim 24, which simulates natural light, wherein the red light has a lens structure (Lens). An LED illumination lamp capable of simulating natural light, comprising: a light panel; a plurality of white LEDs disposed on the light panel; a plurality of blue LEDs disposed on the light panel; and a control module controlling the plurality of control modes The white LED and the blue LEDs combine the white LEDs with the light emitted by the blue LEDs to form a plurality of fused lights. The LED illumination lamp of claim 27, wherein the control module comprises a driving unit for setting the working currents of the white LEDs and the blue LEDs. The LED illumination lamp of claim 28, wherein the control module comprises a microprocessor for controlling the driving unit to drive the white LEDs, and at least one of the blue LEDs emits light. The LED illumination lamp of claim 29, wherein the microprocessor controls the drive unit to switch between the control modes. The LED illumination lamp of claim 30, wherein the control modes comprise a first mode, wherein the driving unit adjusts the brightness of the white LEDs and the blue LEDs over time in the first mode. The LED illumination lamp of claim 31 can simulate natural light, wherein the brightness of the white LEDs and the 17 M336537 blue LEDs changes linearly. 33. The LED illuminator of claim 30, wherein the control modes comprise a second mode, wherein the driving unit drives the white LEDs in the third mode, and the blue LEDs emit light. 34. The LED illumination of claim 30, wherein the control modes comprise a third mode, and the driving unit drives the white LEDs to emit light in the fourth mode. 35. The LED illuminator of claim 30, wherein the control modes comprise a fourth mode, and the driving unit drives the blue LEDs to emit light in the fifth mode. 36. The LED illuminator of claim 30, wherein the control mode comprises a fifth chess pattern, wherein the driving stops in the sixth mode and simultaneously stops driving the white LEDs, and the blue LEDs emit light. 37. The LED illuminator capable of simulating natural light according to claim 30, further comprising: a switch for controlling the driving unit to switch the control mode. 38. The LED illuminator capable of simulating natural light according to claim 30, further comprising: a memory for storing the control mode switched by the driving unit. • 39. If the illumination of the natural light can be simulated as in claim 27, each of the control pairs should have one of the fused lights. The LED illumination lamp of claim 27, wherein the white light LEDs are disposed on the light panel in a spaced relationship with the blue light LEDs. 41. The LHD illuminator of claim 40, which is capable of simulating natural light, wherein the white LEDs are on the same line as the blue LEDs. 18 M336537 42. The LED illumination of claim 27, wherein the white LED emits white light having a wavelength between 400 nm and 800 nm. 43. The LKD illumination lamp of claim 27 which can simulate natural light, wherein the color temperature of the white LEDs is 5600K. 44. The LED illumination lamp of claim 27, which is capable of simulating natural light, wherein the blue light emits blue light having a wavelength between 450 nm and 550 nm. 19