CN212344107U - LED shoe lamp with adjustable luminous color - Google Patents

Abstract

The utility model relates to an LED shoe lamp with adjustable luminous color, which comprises a main control PCB board, a key switch, a red LED lamp strip, a yellow LED lamp strip, a green LED lamp strip and an RGB sensor, wherein the main control PCB board is provided with a low-power microprocessor, a lithium battery, a yellow LED driving module, a red LED driving module and a green LED driving module; the lithium battery is electrically connected with the power end of the low-power-consumption microprocessor, the key switch and the RGB sensor are respectively electrically connected with the low-power-consumption microprocessor, the yellow light LED driving module, the red light LED driving module and the green light LED driving module are respectively electrically connected with the low-power-consumption microprocessor, the yellow light LED driving module is electrically connected with the yellow light LED lamp strip, the red light LED driving module is electrically connected with the red light LED lamp strip, and the green light LED driving module is electrically connected with the green light LED lamp strip. The utility model discloses can detect environment background colour to the luminous color of intelligent regulation LED shoes lamp.

Description

LED shoe lamp with adjustable luminous color

Technical Field

The utility model relates to a shoes lamp technical field especially relates to an adjustable luminous color LED shoes lamp.

Background

With the improvement of living standard of people, shoes are no longer just used as wearing articles for protecting feet and facilitating walking, the requirements of people on styles, colors and functions of the shoes are higher and higher, and in recent years, the shoes with shoe lamps occupy a place in the field of shoe sales and are favored by young consumers more and more. The structure of current LED shoe lamp is like the vibration type flash of light LED shoe lamp that 2012's 04 month 01 Chinese patent publication No. CN202647534U discloses, including the lamp plate, locate LED on the lamp plate, locate the lamp plate below and the battery of being connected with the lamp plate and the vibrating switch who is connected with the lamp plate, vibrating switch parallel arrangement is in the top or the below of lamp plate, vibrating switch is parallel with lamp plate, battery and establishes the one side at the battery, it has a concave type hole to open on the lamp plate, vibrating switch parallel welding is on this concave type hole. When people walk, the vibration switch is triggered to be conducted, so that the LED is controlled to light up or twinkle.

The inventor indicates that the vibration type flashing LED shoe lamp has a single function, and an LED on the LED shoe lamp can only be lightened or flashed according to a set program. Many consumers reflect that in the actual use process, when the background color of the environment is the same as the lighting color of the LEDs on the LED shoe lamps, the (lighting color) effect of the LED shoe lamps is not obvious, and if the background color of the environment is red and the lighting color of the LEDs on the LED shoe lamps is red, the color of the LEDs on the LED shoe lamps is not prominent. If the color of the environment background is red, and the LED shoe lamp can control the LED to be lightened to display green according to the color of the environment background, the color of the LED on the LED shoe lamp is prominent. For another example, when the background color of the environment is black, the color of the LED on the LED shoe lamp should be yellow, and so on.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides an adjustable luminous color LED shoes lamp can detect environment background colour to the luminous color of intelligent regulation LED shoes lamp.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an LED shoe lamp with adjustable luminous color comprises a main control PCB board, a key switch, a red LED lamp strip, a yellow LED lamp strip, a green LED lamp strip and an RGB sensor, wherein a low-power-consumption microprocessor, a lithium battery, a yellow LED driving module, a red LED driving module and a green LED driving module are arranged on the main control PCB board;

the LED lamp comprises a lithium battery, a low-power-consumption microprocessor, a key switch, a yellow light LED driving module, a red light LED driving module, a green light LED driving module, a yellow light LED lamp strip, a red light LED lamp driving module, a green light LED lamp strip and a green light LED lamp strip, wherein the lithium battery is electrically connected with a power end of the low-power-consumption microprocessor, the key switch and the RGB sensor are respectively electrically connected with the low-power-consumption microprocessor through wires, the yellow light LED driving module, the red light LED driving module and the green light LED lamp strip are respectively electrically connected with the low-.

Further, still be provided with wireless charging module on the master control PCB board, wireless charging module is connected with the lithium cell electricity.

Furthermore, still be provided with electric quantity detection module on the master control PCB board, electric quantity detection module is connected with the lithium cell electricity, electric quantity detection module is connected with low-power consumption microprocessor electricity.

Further, the RGB sensor employs a TCS3200 color sensor.

By adopting the technical scheme, the beneficial effects of the utility model are that: when the LED shoe lamp with the adjustable luminous color is used, the LED shoe lamp is started up through a switch key, then the RGB sensor firstly detects the background color of the environment and transmits the background color to the low-power-consumption microprocessor, the low-power-consumption microprocessor controls one of a yellow LED lamp strip, a red LED lamp strip or a green LED lamp strip to light up (or flash) according to the detected current background color of the environment, the bright color is required to be in sharp contrast with the current background color of the environment, for example, the background color of the environment is red, and the low-power-consumption microprocessor controls the green LED lamp strip to light up (or flash); and if the environment background color is black, the low-power-consumption microprocessor controls the yellow LED lamp strip to light up (or flash). The low-power microprocessor controls the RGB sensor to detect the background color of the environment at intervals of a certain time (such as 3min), and adjusts one of the yellow LED lamp strip, the red LED lamp strip or the green LED lamp strip to light up (or flash) in real time according to the background color of the environment detected by the RGB sensor. Further, when the electric quantity detection module detects that the electric quantity of the lithium battery is insufficient, the low-power-consumption microprocessor controls the yellow LED lamp strip, the red LED lamp strip and the green LED lamp strip to flicker according to a set sequence (if red, yellow and green in turn flicker circularly), and reminds a user to charge, and the LED shoe lamp with the adjustable luminous color adopts the wireless charging module to wirelessly charge.

Drawings

Fig. 1 is a circuit connection block diagram of the present invention.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1, the present embodiment provides an adjustable luminous color LED shoe lamp, which includes a main control PCB board 1, a key switch 2, an RGB sensor 3, a yellow LED strip 4, a red LED strip 5 and a green LED strip 6. In this embodiment, the RGB sensor 3 is a TCS3200 color sensor. The main control PCB board 1 is provided with a low-power consumption microprocessor 11, a lithium battery 12, a wireless charging module 13, an electric quantity detection module 14, a yellow light LED driving module 15, a red light LED driving module 16 and a green light LED driving module 17. In this embodiment, preferably, the low power consumption microprocessor 11 adopts an MSP430F169 ultra-low power consumption MCU. All the electronic components and the circuit module are existing equipment.

The lithium battery 12 is electrically connected with the wireless charging module 13, and the lithium battery 12 is charged through the wireless charging module 13. The electric quantity detection module 14 is electrically connected with the lithium battery 12, the electric quantity detection module 14 is electrically connected with the low-power-consumption microprocessor 11, the electric quantity detection module 14 detects the real-time electric quantity of the lithium battery 12 and transmits the real-time electric quantity to the low-power-consumption microprocessor 11, and the technology is the prior known technology and is not described in detail herein. The lithium battery 12 is electrically connected to a power supply terminal of the low power consumption microprocessor 11. The key switch 2 and the RGB sensor 3 are respectively and electrically connected with the low-power microprocessor 11 through wires (not shown in the figure), the LED shoe lamp with the adjustable luminous color is turned on and turned off through the switch key 2 when in use, and the background color of the current environment is detected through the RGB sensor 3. The yellow light LED driving module 15, the red light LED driving module 16 and the green light LED driving module 17 are respectively electrically connected with the low-power consumption microprocessor 11. The yellow light LED driving module 15 is electrically connected with the yellow light LED lamp strip 4, and the yellow light LED lamp strip 4 is driven to light up (or twinkle) by the yellow light LED driving module 15; the red light LED driving module 16 is electrically connected with the red light LED lamp strip 5, and the red light LED lamp strip 5 is driven to light (or flash) through the red light LED driving module 16; the green light LED driving module 17 is electrically connected with the green light LED strip 6, and the green light LED strip 6 is driven to light (or twinkle) through the green light LED driving module 17.

The low-power-consumption microprocessor 11 controls one of the yellow LED lamp strip 4, the red LED lamp strip 5 or the green LED lamp strip 6 to light up (or flash) according to the current environment background color detected by the RGB sensor 3, and the lit color should be in sharp contrast with the current environment background color, for example, if the environment background color is red, the low-power-consumption microprocessor 11 controls the green LED lamp strip 6 to light up (or flash); for another example, if the background color of the environment is black, the low power consumption microprocessor 11 controls the yellow LED strip 4 to light up (or flash), and this embodiment only exemplifies the above two cases. Then, the low-power microprocessor 11 controls the RGB sensor 3 to detect the background color of the environment at intervals of a certain time (e.g., 3min), the low-power microprocessor 11 adjusts one of the yellow LED strip 4, the red LED strip 5, or the green LED strip 6 to light up (or flash) according to the background color of the environment detected by the RGB sensor 3 in real time, and the color of the specifically lit LED strip (the yellow LED strip 4, the red LED strip 5, or the green LED strip 6) should be clearly contrasted with the background color of the current environment.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (4)

1. The utility model provides an adjustable luminous color LED shoe lamp which characterized in that: the LED lamp comprises a main control PCB board, a key switch, a red LED lamp strip, a yellow LED lamp strip, a green LED lamp strip and an RGB sensor, wherein a low-power-consumption microprocessor, a lithium battery, a yellow LED driving module, a red LED driving module and a green LED driving module are arranged on the main control PCB board;

the LED lamp comprises a lithium battery, a low-power-consumption microprocessor, a key switch, a yellow light LED driving module, a red light LED driving module, a green light LED driving module, a yellow light LED lamp strip, a red light LED lamp driving module, a green light LED lamp strip and a green light LED lamp strip, wherein the lithium battery is electrically connected with a power end of the low-power-consumption microprocessor, the key switch and the RGB sensor are respectively electrically connected with the low-power-consumption microprocessor through wires, the yellow light LED driving module, the red light LED driving module and the green light LED lamp strip are respectively electrically connected with the low-.

2. The LED shoe lamp with adjustable luminous color of claim 1, wherein: the main control PCB board is also provided with a wireless charging module, and the wireless charging module is electrically connected with the lithium battery.

3. The LED shoe lamp with adjustable luminous color of claim 2, wherein: the main control PCB board is also provided with an electric quantity detection module, the electric quantity detection module is electrically connected with the lithium battery, and the electric quantity detection module is electrically connected with the low-power-consumption microprocessor.

4. An LED shoe lamp with adjustable luminous color as claimed in claim 1, 2 or 3, wherein: the RGB sensor adopts a TCS3200 color sensor.

Images