TWM440614U - Radio frequency light adjusting device - Google Patents

Description

M440614 V. New description: [New technical field] The present invention relates to a lighting adjustment device, in particular to a wireless radio frequency lighting adjustment device. [Prior Art] In view of the fact that modern people pay more and more attention to the quality of life, home control systems are becoming more popular and popular, and the most common and most commonly used in home control systems is the dimming controller. It is electrically connected to a light bulb installed in a house for the user to adjust the brightness of the light bulb in the house to increase the brightness of the light bulb during work or reading, and to lower the brightness of the light bulb before going to bed or during sleep. The dimming controller is a dimming circuit connected between the bulb and the AC power source. The dimming circuit generally uses an AC 矽 control fluid (TRIAC) with a conduction angle control circuit and a variable resistor to control the brightness of the light. . Whether using a variable resistor or an AC 矽 control fluid, a knob is often used to allow the user to rotate the knob to adjust the brightness of the ray bulb, and to determine the position of the knob to adjust the resistance value or the AC power voltage to conduct. The phase angle is adjusted to the current or power of the power supply to reflect the brightness that the user wants to adjust. There are more and more types of existing light bulbs. After the introduction of energy-saving light bulbs and LED light bulbs, they have gradually replaced the role of traditional light bulbs, which are equipped with driving circuits, through the dimming controller, according to the brightness control characteristics of each bulb. For proper brightness adjustment control. However, lighting control often has its own limitations. It is limited by the physical switch control and the transmission of infrared signals through the remote control for short-distance control. For example, 3 M440614 How to control long distances through wireless radio and integrate radio frequency devices to regulate lighting changes will be an important application for integrating radio frequency and lighting control in the field. In view of this, a lighting adjustment device for adjusting light changes through a radio frequency method is highly sought by by those skilled in the art. [New content] The main purpose of the present invention is to provide a light adjusting device for adjusting light changes through a wireless radio frequency method. In order to achieve the above object, the present invention provides a radio frequency light adjusting device comprising a radio frequency controller, a radio frequency receiver and a light emitting diode light source module. A radio frequency controller that transmits light control signals through radio waves. The wireless radio frequency receiver receives the light control signal transmitted by the radio wave and outputs a light adjustment signal. The light-emitting diode light source module is electrically connected to the wireless RF receiver, and corresponding light changes are generated according to the light adjustment signal. In order to make the person skilled in the art understand the purpose, features and effects of the present invention, the present invention will be described in detail by the following specific embodiments and the accompanying drawings. [Embodiment] The present invention will be explained below by way of an embodiment relating to a wireless radio frequency light adjusting device. The novel radio frequency light adjusting device comprises a radio frequency controller, a radio frequency receiver and a light emitting diode light source module, and the wireless radio frequency control 4 M440614 device outputs a light control signal, and the wireless radio frequency receiver receives the light control through radio waves. The signal is outputted to the light-emitting diode light source module to control the light-emitting diode light source module to generate corresponding light changes. However, the present invention is not intended to limit any particular environment, application, or particular mode of carrying out the invention. Therefore, the description of the embodiments is merely illustrative of the present invention and is not intended to limit the present invention. It should be noted that in the following embodiments and drawings, components that are not directly related to the present invention have been omitted and are not shown; and for the sake of simplicity, the dimensional relationship between the components is not drawn according to the actual scale. . As shown in the first figure, it is a schematic diagram of the new wireless radio frequency lighting adjustment device. The radio frequency light adjusting device 1 includes a radio frequency controller 10, a radio frequency receiver 12, and a light emitting diode light source module 14. It should be noted that the radio frequency controller 10 and the radio frequency receiver 12 may not include the power module itself, but may be connected to other devices to utilize the power of other devices to provide the required power; or the radio frequency controller 10 The wireless RF receiver 12 itself has a power module to provide its own required power. In the present diagram, the radio frequency controller 10 φ and the radio frequency receiver 12 are in the form of a self-contained power module. The radio frequency controller 10 includes a power module 101. The power module 101 is used to provide the required power of the radio frequency controller 10. The rated voltage is 3.6V~2.5V, and the rated current does not exceed 3mA. The radio frequency controller 10 transmits the light control signal 102 through radio waves, wherein the radio wave operates at a frequency of 433.92 MHz or 315 MHz. The radio frequency receiver 12 includes a power module 121. The power module 121 converts alternating current into direct current, and can convert 110V or 200V mains into desired direct current. Among them, the rated voltage of DC is 3V~5V, the rated current is not more than 5 M440614, and 5mA. In other words, the power module 121 has the function of rectification and transformation, which can rectify the AC power of 110V or 200V of general commercial power. The DC power source is converted into a low voltage of 3V to 5V required for the semiconductor to provide a Light-Emitting Diode (LED) light source module 14. The radio frequency receiver 12 receives the light control signal 102 transmitted by the radio frequency controller 10 through the radio wave, and outputs the light adjustment signal 122 in response to the light control signal 102. The radio frequency receiver 12 can be an independent receiving device or integrated in the LED light source module 14. The radio frequency receiver 12 is configured to receive the light control signal 102 from the radio frequency controller 10 and output the light. The signal 122 is adjusted to adjust the light change of the LED light source module 14. The light-emitting diode light source module 14 includes one or more light-emitting diodes, and the light-emitting diode light source module 14 is composed of at least one light pipe or a light bulb. In addition, the LED light source module 14 is electrically connected to the radio frequency receiver 12 to respond to the light adjustment signal 122 of the radio frequency receiver 12 and generate corresponding light changes. As shown in the second figure, it is an embodiment of the new wireless radio frequency lighting adjustment device. In this embodiment, the radio frequency controller 10 is mounted on the mobile phone 2, and is mounted on the mobile phone 2 in the form of a mobile phone charm. However, the embodiment is not limited to mobile phone charms, and the hand-held charm is only one of the embodiments in which the radio frequency controller 10 is applicable. The radio frequency controller 10 can also be a separate control device, or built into the mobile device, or even integrated into the car key to regulate the light source. If a separate control device is used, the radio frequency controller 10 can adopt its own power supply mode; if it is built in other mobile devices or integrated into a car key, the radio frequency controller 10 can be powered by the 6 M440614 power supply. Or use the power of other devices to provide the power required by itself. In the present embodiment, the radio frequency controller ίο is installed on the mobile phone 2 in a mobile phone pendant type. When the light control is to be performed, the radio frequency controller 10 on the mobile phone 2 will control the light signal 102 by wireless. The electric wave is sent out to control the light change of the light-emitting diode light source module 14. That is to say, the radio frequency controller 10 has a small volume and can be hung on the mobile phone 2 like a charm. When lighting control is required, the user can use the radio frequency controller 10 to perform light source regulation. The descriptions of the radio frequency controller 10, the radio frequency receiver 12, and the LED module 14 can be combined. Referring to the first figure, the radio frequency controller 10 includes a power module 101, and the power module 101 is provided. The required power of the radio frequency controller 10 is rated at 3.6V~2.5V and the rated current does not exceed 3mA. The radio frequency controller 10 transmits the light control signal 102 through radio waves, wherein the radio wave operates at a frequency of 433.92 MHz or 315 MHz. In this embodiment, the radio frequency receiver 12 is integrated in the LED sub-light source module 14, and is not shown in the figure. The radio frequency receiver 12 includes a power module 121. The power module 121 converts alternating current into direct current, and can convert 110V or 200V mains into desired direct current. Among them, the rated voltage of the direct current is 3V~5V, and the rated current does not exceed 5mA. That is to say, the power module 121 has the functions of rectification and voltage transformation, and can rectify the general-purpose AC power source 110V or 200V into a DC power source, and convert it into a low voltage of 3V~5V required by the semiconductor to provide the light-emitting two. The polar body light source module 14 is used. The radio frequency receiver 12 receives the light control signal 102 transmitted by the radio frequency controller 10 through the radio wave, and outputs a light tone according to the light control signal 102. 7 M440614 section signal 122 » In this embodiment, the light emitting diode light source The module 14 includes three light emitting diode sources 'LEDs 142, 142 and 143, respectively. The light-emitting diode light source module 14 is composed of at least one light pipe or a light bulb, and the type thereof is not used to limit the light-emitting diode light source module 14 'other modules that can be used as the light-emitting diode light source. It is the scope of the novel. It should be added that the color of the light source of the light-emitting diode light source module 14 can be a single color light-emitting diode (red, green, blue), a white light-emitting diode, or even a color light-emitting diode. The LED light source module 14 is electrically connected to the wireless RF receiver 12, wherein the wireless RF receiver 12 is integrated into and electrically connected to the LED array 14 and the LED body module 14 and respond to the light adjustment signal 122 ' to produce the corresponding light changes. Wherein, the 'light change includes causing the light-emitting diode light sources 141, 142' 143 to be freely changed, only the single-light-emitting diode light source 141 is illuminated, or the light-emitting diode light source 14 142, 143 are simultaneously illuminated, etc. 4 Or produce a light change such as the color of the light-emitting diode. As shown in the second figure, another embodiment of the novel radio frequency light adjusting device is described in the following description. The same as the foregoing embodiment will not be described in the embodiment, and only the differences are explained. The difference between the present embodiment and the previous embodiment is that the radio frequency control (4) 1 () of the embodiment is integrated in the control device 3 (so ~ t ) 'the control device 3 can be a smart phone or a tablet computer, etc. Etc., and the light-emitting diode light source module is 'light bulb 34'. The control device 3 transmits a signal through the radio wave to achieve the light adjustment of the bulb 34. 8 M440614 The features and spirit of the novel features are more clearly described in the detailed description of the preferred embodiments of the present invention, and are not intended to limit the scope of the invention. On the contrary, the intention is to cover various modifications and equivalent arrangements within the scope of the claimed invention. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic diagram of a radio frequency light adjusting device; the second figure is an embodiment of a radio frequency light adjusting device; and the third figure is another embodiment of a radio frequency light adjusting device. . [Main component symbol description] 1 : Wireless RF light adjustment device 12 : Wireless RF receiver 101 : Power module 121 : Power module 2 : Mobile phone ίο : Radio frequency controller 14 : Light-emitting diode light source module 102 : Light Control signal 122: light adjustment signal 3: control device 34: bulbs 141, 142, 143: light emitting diode light source 9

Claims (1)

M440614 VI. Patent Application Range: 1. A radio frequency light adjustment device comprising: a radio frequency controller that transmits a light control signal through radio waves; a radio frequency radio receiver that receives the radio frequency receiver The light control signal transmitted by the radio wave outputs a light adjustment signal; and the light emitting diode light source module is electrically connected to the wireless RF receiver, and the light signal is adjusted according to Φ, and corresponding light changes are generated. 2. The radio frequency light adjustment device according to claim 1, wherein the radio frequency controller comprises a power module, and the power module has a rated voltage of 3.6V to 2.5V. 3. For the radio frequency light adjustment device described in claim 2, the rated current of the radio frequency controller power module is not more than 3 mA. 4. The radio frequency light adjusting device according to claim 1, wherein the operating frequency of the radio wave is 433.92 MHz or 315 MHz. # 5. The radio frequency light adjustment device according to claim 1, wherein the radio frequency receiver comprises a power module, and the power module converts the alternating current into direct current. 6. The radio frequency lighting regulator of claim 5, wherein the DC voltage is rated at 3 V to 5 V. 7. For the radio frequency light adjustment device described in claim 6, the rated current of the DC current is not more than 5 mA. 8. The radio frequency light adjusting device according to claim 1, wherein the light emitting diode light source module is composed of at least one light pipe. 10 Μ 44Ό 614 ο 9. The radio frequency light adjusting device according to claim 1, wherein the light emitting diode light source module is composed of at least one light bulb.