TWM346250U - Light-emitting fan device - Google Patents

Description

M346250 VIII. New Description: [New Technology Field] This creation is about a luminescent fan device, especially for a color that can be displayed by a light-emitting diode located on the illuminable fan device. An illuminable fan device that recognizes a range of rotational speeds of the illuminable fan device and a method of controlling the same. [New content] φ Therefore, the purpose of the present invention is to provide a illuminating fan device that can recognize the rotational speed range of the illuminable fan device by the color displayed by the illuminating diode on the illuminating fan device. In order to achieve the above object, the present invention provides an illuminating fan device comprising a fan speed control element, a fan element, a speed detecting and color control 70 piece and a plurality of light emitting diodes. The fan speed control element controls the speed of the fan element. After detecting the rotation speed of the fan element, the rotation speed detecting and color control components control the light emitting diodes to display different speed ranges of the illuminating fan device in different colors. The user will conveniently recognize the different rotational speed ranges of the illuminable fan device in the colors displayed by the LEDs. [Embodiment] Please refer to the first figure, which is a front view of the illuminable fan unit. The illuminable fan unit includes a fan speed control element 1 (not shown), a fan unit 20, a rotation speed detecting and color control unit 3, and a plurality of light emitting diodes 40. The connection actuation relationship of the above components will be described in detail later. M346250 Referring to the second figure, a block diagram of a preferred embodiment of the present invention is shown. The illuminable fan device according to the present invention comprises a fan speed control element 10, a fan element 20, a rotation speed detecting and color control element 3, and a plurality of light emitting diodes 4'. The fan element 2 is electrically connected to the fan speed control unit 10 and the rotation speed detecting color control element 30. The rotation speed detecting and the coloring element 3 are electrically connected to the light emitting diodes 4〇 to control the light emitting state of the light emitting diodes 40, such as light emitting or not, or luminous color. See below for details). The operation of the fan speed control element 10 includes a conventional fan speed control method, such as changing the fan speed by using a variable resistance knob, controlling the fan speed by using pulse width modulation, PWM, and using thermal The electronic components automatically control the fan speed, as well as programmatically control the fan speed. The fan element 20 is a conventional fan, including a blade, a rotary pump, and a λ λ·# special and can be controlled by the 5 hai fan speed control element 10 to change its ♦ rotational speed, since this part is a conventional technique. Therefore, it is not mentioned here. . First, in the fan rotational speed control element 10, the user selects the fan rotational speed control mode, and after the illuminating fan device is activated, the rotational speed of the fan element 20 is controlled by the two selected fan rotational speed control modes. Then, after the rotational speed detecting and color control component 30 detects the rotational speed of the fan component 20, the light emitting diodes 40 are controlled to display different rotational speed ranges of the illuminable fan device in different colors. The illuminating colors of the illuminating diodes 40 are different for different rotational speed ranges of the illuminable fan device. In combination with the above-mentioned various methods of the fan 6 M346250 speed control component 1G, the following examples are respectively described as follows: (1) Using a variable resistance knob to change the fan speed: First, the user will use "(for example, a personal computer) and the illuminable The fan device is activated. When the system of the present example is at a low temperature, the user reduces the rotation speed of the fan element 2 to the rotation speed per minute by using the variable resistance to rpm (R(10) M nsPerMi峨', the rotation speed _ and the color After detecting the rotation speed of the fan element 2, the control element 30 controls the light-emitting diodes to display green; when the system of the present example raises the temperature, the user raises the height by using the variable resistance knob. The fan component 2 rotates to the speed, and the rotation detecting and color control component 30 detects the rotation speed of the fan component 2, and controls the LEDs 4G to appear blue; when the system of the example is raised again ^ The user then adjusts the speed of the fan element 2 to 1500 RPM by using the variable resistance knob, and the speed detecting and color control unit (4) detects the rotation speed of the fan element 20, and then controls the The light-emitting diode is brightly colored. Thus, the user can know the change of the rotational speed of the light-emitting diode device by the color change of the light-emitting diodes 4. (2) Xiang pulse width modulation control fan speed: first difference The user will activate the system and the illuminable fan device. When the system of this example is low: it will provide a 25% duty cycle pulse width modulation signal to control the fan 20 speed to _匪, after detecting the rotation speed of the color control element 3〇BH fan element 20, the light-emitting diodes 4〇 are controlled to be green, and when the system of the example is raised in temperature, it will provide 5〇% work. The peripheral pulse width modulation signal is used to control the fan element 2 〇 rotational speed to 12 〇〇 Rm, and the rotation speed detecting and color control component 30 detects the rotational speed of the fan element 2 () 7 M346250 and then controls the illuminating The diode 40 is blue; when the system of the present example is further raised in temperature, it will provide a pulse width modulation signal of 100% working cycle to control the speed of the fan element 20 to 1500 RPM, which is detected and colored. After the control component 30 detects the rotational speed of the fan component 20 The light-emitting diodes 40 are controlled to be red. Thus, the user can know the change of the rotational speed of the light-emitting fan device by the color change of the light-emitting diodes 4. (3) Automatically controlling the fan speed by using the thermal electronic components. First, the user activates the system to be used and the illuminating fan device. When the thermal electronic component located on the illuminable fan device detects that the system of the present example is at 25 C, the fan component 20 will control the rotational speed. Up to 8〇〇RpM, after the rotation speed detecting and color control component 30 detects the rotation speed of the fan component 2, the light emitting body 40 is controlled to be green; when the thermal electronic component detects the system of the example At 35 ° C, the fan element 20 will control the rotational speed to 12 〇〇 RpM, and after the rotational speed detecting and color control component 30 detects the rotational speed of the fan component 2, the light-emitting diodes 40 are controlled to be blue; When the thermal electronic component detects the system of the present example at 45t, the fan component 2〇 will control the rotational speed to 1500RPM. After the rotational speed detecting and color control component detects the rotational speed of the fan component, the control is performed. Light diode 4 () appears red. Thus using = the change in the rotational speed of the illuminating fan device can be known from the color change of the illuminating diodes 4G. / 4) Using the programmatic control of the fan speed: First the user will want to use the tether: ϋ: the illuminating fan unit is activated. When the system of the present example controls the speed of the fan element 2 to 800 RPM at a low temperature, the speed detecting and color control element 3G controls the speed of the fan element 2G, and controls the light-emitting diodes of 8 M346250. 4G is green; when the system of the present example is raised in temperature, it will privately control the speed of the fan element 2 to 丨2〇〇RpM, and the rotation detecting and color control component 30 detects the fan element 2 After the rotation speed, the light-emitting diodes 40 are controlled to be blue; when the system of the present example is further raised in temperature, it will programmatically control the speed of the fan element 2 to 15 〇〇 RpM, which is detected and controlled by color. After the component 3 detects the rotational speed of the fan element 2G, the illumination is controlled: the polar body 40 is red. Thus, the user can know the change in the rotational speed of the illuminating fan device by the color change of the illuminating diodes 40. See the third picture for the swallowing month, which is the block diagram of the speed detection and color control components of the creation. The speed detection and color control component 30 includes a rotational speed detection early 32, a color control unit 34 and a memory 36. The color control unit 34 is electrically connected to the rotation speed detecting unit 32 and the memory %. As described above, the rotation speed detecting and color control element 3 is electrically connected to the fan element, such as the light-emitting body: the pole body 4G, so the rotation speed unit is electrically connected to the fan element 2G; the color Control unit 34 is electrically coupled to the pole body 40. When the rotation speed detecting unit 32 detects the fan element 2: speed, the speed of the color control unit 34 is notified, and the color control unit corrects the electrical connection to the memory 36 to perform related message processing, and then controls the This is the first diode 4G color. For example, in the above-mentioned memory%, a comparison table between the fan rotation speed and the color of the LED body 40 can be stored, so that after the color control 7034 knows the fan rotation speed, the reference table is referred to to control the light-emitting diodes 40. colour. Furthermore, the memory brother can be integrated into the rotational speed detecting unit 32 or the color control unit 34 to reduce the cost. 9 M346250 In the heart, when Zhiben's creation has industrial applicability, the structure of this creation has not been seen in the similar product J^2 Fuhe creation patent application requirements, and the application of the patent law 2 [simplified description] application. Figure f is a front view of the illuminable fan unit of the creation. The figure is a block diagram of a preferred embodiment of the creation. [:: Block diagram for speed detection and color control components for 2). L main 7L parts symbol description] Where: fan speed control component 10 fan component 20 rotation speed detection unit 32, fan detection and color control component 30 #光二极管4〇 $忆体36 color control unit 34

Claims (1)

M346250 IX. Patent application scope: 1. An illuminating fan device comprising a fan component; a fan speed control component electrically connected to the fan component and capable of controlling a rotational speed of the fan component; a plurality of light emitting diodes; And a rotation speed detecting and color control component electrically connected to the fan component and the light emitting diodes, wherein the rotation speed detecting and color control component can measure the rotation speed of the fan component, and control the majority according to the rotation speed The illuminating state of the illuminating two. 2. The illuminating fan device of claim 1, wherein the rotation speed detecting and color control component comprises: ~ a rotation speed detecting unit capable of detecting the rotation speed; and a color control unit capable of controlling according to the rotation speed The light-emitting state of the majority of the light-emitting diodes. & 1. The illuminating fan device of claim 2, wherein the rotation speed detecting and color control component further comprises: X-d memory, electrically connected to the color control unit, and storing the rotational speed to the light-emitting two A comparison table of polar body light states. 4. The illuminating fan device of claim 3, wherein the plurality of light emitting diodes comprise red, blue and green light emitting diodes. The light-emitting fan device of claim 4, wherein the color control unit drives the green emitter to emit light when the rotational speed is below 800 RPM. — M346250 6 — The illuminating fan device of claim 4, wherein the color control unit drives the blue light emitting diode to emit light when the rotational speed is 800 RPM to 1200 RPM. 7. The illuminating fan device of claim 4, wherein the color control unit drives the red diode to emit light when the rotational speed is 15 GGRPM. , το π household application scope of the patent range of the first item of the illuminating fan device fan speed control component system 1 9 · If you apply for the brakes > 1, a 纟吏 resistance knob to change the fan speed. The fan speed control component 2 of the first item of the illuminable fan device, wherein the ια is as claimed in the patent garden. The fan speed control element is an illuminable fan unit of the item 1, wherein the fan speed is controlled. 'Use a thermal electronic component to detect the ambient temperature to 12