CN113119856A - Luminous automobile pedal pad - Google Patents

Abstract

The invention provides a luminous automobile pedal pad, which comprises a pedal pad body. The foot pad body comprises a light-emitting device and a control unit. The control unit comprises a memory, a controller and a controller area network transceiver. The memory stores a light-emitting state list of the light-emitting device, wherein the light-emitting state list stores a plurality of light-emitting states and a plurality of codes corresponding to the light-emitting states. The controller is used for controlling the light-emitting state of the light-emitting device according to the codes. The controller area network transceiver is used for receiving a vehicle control signal and transmitting the vehicle control signal to the controller. The controller analyzes the vehicle control signal to obtain a first code, compares the first code with the plurality of codes in the light-emitting state list, and controls the light-emitting device to generate a corresponding light-emitting state according to the first code.

Description

Luminous automobile pedal pad

Technical Field

The invention relates to a foot mat, in particular to a luminous automobile foot mat.

Background

The general foot mat is mainly applied to environmental space conversion, such as entering into the vehicle from the outside. The purpose of the foot mat is mainly to keep the interior of the vehicle clean without dirtying the environment in the vehicle and to prevent the interior of the vehicle from becoming dirty due to being stepped on.

Further, publication No. TWM427302 discloses a foot mat for a vehicle, in which light emitting diodes are installed, and which has the effects of keeping the interior of the vehicle clean and illuminating. However, despite the improvements made to vehicle foot mats, they are still limited to lighting applications.

In view of further improvement in the application of the foot mat, the inventors of the present invention have made conceptions and studies on the light-emitting foot mat to increase the application of the foot mat and improve it.

Disclosure of Invention

The present invention is directed to a light-emitting automotive foot mat that solves at least one of the problems set forth above.

The invention provides a luminous automobile pedal pad which comprises a pedal pad body, wherein the pedal pad body comprises a luminous device arranged at the edge of the pedal pad body. A control unit is installed in the pedal pad body. The control unit comprises a memory, and a light-emitting state list of the light-emitting device is stored in the memory, wherein the light-emitting state list stores a plurality of light-emitting states and a plurality of codes corresponding to the light-emitting states. The controller is connected with the light-emitting device and the memory and is used for controlling the light-emitting state of the light-emitting device according to the codes. And the controller area network transmitting and receiving device is connected with the controller and used for receiving a vehicle control signal and transmitting the vehicle control signal to the controller. The controller analyzes the vehicle control signal to obtain a first code, compares the first code with the plurality of codes in the light-emitting state list, and controls the light-emitting device to generate a corresponding light-emitting state according to the first code.

In an embodiment, the control unit further includes a power supply device. The power supply device comprises a battery and an output/input connection port. The output/input connection port is used for connecting the battery and a vehicle power supply, receiving the electric energy of the vehicle power supply and storing the electric energy into the battery. The power supply device is connected with the light-emitting device, the memory, the controller and the controller area network transmitting and receiving device. The power supply device provides power for the light-emitting device, the memory, the controller and the controller area network transmitting and receiving device.

In one embodiment, the controller area network transceiver receives the vehicle control signal from a vehicle computer through a controller area network communication protocol. The controller area network transmitting and receiving device receives a light emitting state adjusting signal from a vehicle computer through a controller area network communication protocol and transmits the light emitting state adjusting signal to the controller so as to adjust the flashing frequency, the color brightness or the color changing frequency of the light emitting state of the light emitting device.

In one embodiment, the wireless communication transmission technology is bluetooth or wireless local area network. The light-emitting device is a light-emitting diode light bar. The codes respectively correspond to the device states of the incoming call display, the missed call reminding, the short message notification, the device electric quantity or the application program information reminding of the controller area network transceiver.

In an embodiment, the control unit further includes a wireless transmission device connected to the controller. The wireless transceiver is used for receiving a wireless control signal and transmitting the wireless control signal to the controller. The controller analyzes the wireless control signal to obtain a second code, compares the second code with the plurality of codes in the light-emitting state list, and controls the light-emitting device to generate a corresponding light-emitting state according to the second code.

In one embodiment, the wireless transceiver receives the wireless control signal and a light emitting state adjusting signal from a vehicle computer through a wireless communication transmission technology and transmits the wireless control signal and the light emitting state adjusting signal to the controller, so as to adjust the flashing frequency, the color brightness or the color changing frequency of the light emitting state of the light emitting device.

In one embodiment, the main body of the foot pad further includes a key interface. The key interface is connected with the controller, and the controller receives a key signal generated by pressing the key interface.

In one embodiment, the controller controls the light emitting device according to the key signal.

In one embodiment, the controller wirelessly controls the operation of the controller area network transceiver according to the key signal through the wireless transceiver.

In one embodiment, the pedal pad body further comprises a radio receiver connected to the controller. A sound recognizer is connected with the controller, and the sound recognizer recognizes a sound signal acquired by the radio. Wherein the controller controls a blinking frequency, a color brightness, or a color changing frequency of the light emitting state of the light emitting device according to the recognition result of the sound recognizer.

The luminous automobile foot pad has the beneficial effects that the luminous automobile foot pad can generate different luminous states according to different codes besides the luminous illumination, so as to provide variable environment and atmosphere lamps in the automobile for users, and the application of the foot pad is greatly increased.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

FIG. 1 is a schematic view of a light-emitting automobile foot mat according to an embodiment of the present invention.

Fig. 2 is a system block diagram of a control unit according to an embodiment of the present invention.

Fig. 3 is a system block diagram of a power supply device according to an embodiment of the invention.

FIG. 4 is a schematic view of a luminous automotive foot mat according to another embodiment of the present invention.

Fig. 5 is a schematic diagram of a control unit according to another embodiment of the invention.

FIG. 6 is a schematic view of a luminous automotive foot mat according to another embodiment of the present invention.

Fig. 7 is a system block diagram of a control unit according to another embodiment of the present invention.

Fig. 8 is a system block diagram of a control unit according to another embodiment of the present invention.

Detailed Description

The following description is provided for the purpose of illustrating the present disclosure with reference to "luminous automotive foot mats" and is provided for the purpose of providing a thorough understanding of the present disclosure. The invention is capable of other and different embodiments and its several details are capable of modification and various other changes, which can be made in various details within the specification and without departing from the spirit and scope of the invention. The drawings of the present invention are simply illustrative, and are not drawn to scale, but are described in advance. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

It will be understood that, although the terms "first," "second," "third," etc. may be used herein to describe various components or signals, these components or signals should not be limited by these terms. These terms are used primarily to distinguish one element from another element or from one signal to another signal. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be.

[ first embodiment ]

Fig. 1 is a schematic view of a light-emitting automobile foot mat according to an embodiment of the invention. The luminous automobile foot mat 1 of the present invention comprises a foot mat body 10. The rectangular shape of the foot pad body 10 in fig. 1 is only an example, and the present invention is not limited to the shape of the foot pad body 10, and may be other shapes such as square, circular, etc. The foot pad body 10 includes a light emitting device 101 and a control unit 102.

The light emitting device 101 is disposed at the edge of the stepping pad body 10. The light emitting device 101 may be a light emitting diode light bar or other soft type light emitting light bars, but the invention is not limited to the kind of the light emitting device 101. The light emitting device 101 is disposed on the edge of the footrest body 10 in an adhering manner, an embedding manner, etc., but the present invention is not limited to the manner in which the light emitting device 101 is disposed on the footrest body 10.

The control unit 102 is disposed in the stepping pad body 10 or outside the stepping pad body 10, and is connected to the light emitting device 101 through an electrical interface. The position in which the control unit 102 in fig. 1 is provided to the footrest body 10 is merely an example, and the present invention does not limit the control unit 102 to be provided to any position in the footrest body 10. The square shape of the control unit 102 in fig. 1 is merely an example, and the shape of the control unit 102 is not limited by the present invention, and may be other shapes such as a rectangle, a circle, and the like. Wherein the control unit 102 can be separated from the main body 10 of the foot pad for the user to clean the main body 10 of the foot pad.

Please refer to fig. 2 and fig. 4, which are a system block diagram of a control unit according to an embodiment of the present invention and a schematic diagram of a light-emitting automotive foot mat according to another embodiment of the present invention. The control unit 102 includes a memory 12, a controller 14, a controller area network transceiver (CANBus)16, and a power supply 18.

The memory 12 stores a light emitting state list of the light emitting device 101, wherein the light emitting state list stores a plurality of light emitting states and a plurality of codes corresponding to the plurality of light emitting states.

The controller 14 is connected to the light emitting device 101 and the memory 12, and the controller 14 is configured to control the light emitting state of the light emitting device 101 according to a plurality of codes.

The controller area network transceiver 16 is connected to the controller 14, and the controller area network transceiver 16 is used for receiving a vehicle control signal and transmitting the vehicle control signal to the controller 14. The controller area network transceiver 16 receives the vehicle control signal from the vehicle computer 19 via a controller area network communication protocol and transmits the vehicle control signal to the controller 14 to control the light emitting state of the light emitting device 101, and receives a light emitting state adjusting signal from the vehicle computer 19 via the controller area network communication protocol and transmits the light emitting state adjusting signal to the controller 14 to adjust the flashing frequency, the color brightness, the color changing frequency, and the like of the light emitting state of the light emitting device 101. However, the flicker frequency, the color brightness, or the color change frequency for adjusting the light emitting state of the light emitting device 101 according to the present invention are merely examples, and the present invention is not limited to the manner of adjusting the light emitting state of the light emitting device 101.

The power supply device 18 is connected to the light emitting device 101, the memory 12, the controller 14 and the controller area network transceiver 16, and the power supply device 18 supplies power to the light emitting device 101, the memory 12, the controller 14 and the controller area network transceiver 16.

Fig. 3 is a system block diagram of a power supply device according to an embodiment of the invention. The power supply 18 includes a battery 22 and an input/output port 24. The I/O port 24 is used to connect the battery 22 with a vehicle power source, and the I/O port 24 receives the electric energy from the vehicle power source and stores the electric energy in the battery 22.

Please refer to fig. 4. In one embodiment, the CAN transceiver 16 in the light-emitting car mat 1 receives the car control signal from the car computer 19 and transmits the car control signal to the controller 14, the controller 14 parses the car control signal to obtain a first code, the controller 14 compares the first code of the car control signal from the car computer 19 with a plurality of codes in the light-emitting state list, and when the controller 14 compares the codes in the light-emitting state list with the first code of the car control signal, the controller 14 controls the light-emitting device 101 to generate a corresponding light-emitting state, such as three-color flashing lights, according to the first code of the car control signal.

In one embodiment, when a user sits in the vehicle, the user can set the light emitting state and the corresponding code of the light emitting device 101 in the light emitting car mat 1, adjust the light emitting state of the light emitting device 101, match the code corresponding to the light emitting state, and the sequence of the light emitting state through the human-machine interface of the car computer 19. For example, the user can add or reduce the light-emitting state and the corresponding code according to the preference of the user, adjust the flashing frequency, the color brightness or the color-changing frequency of the light-emitting state, change the pairing relationship between the light-emitting state and the code, and adjust the sequence of the light-emitting state.

[ second embodiment ]

Fig. 5 is a schematic diagram of a control unit according to another embodiment of the invention. The control unit 102 further includes a transceiver 20, and the transceiver 20 is connected to the controller 14 and configured to receive a wireless control signal and transmit the wireless control signal to the controller 14. The wireless transceiver 20 receives a wireless control signal from the vehicle computer 19 via a wireless communication transmission technique and transmits the wireless control signal to the controller 14 to control the lighting state of the lighting device 101, and receives a lighting state adjusting signal from the vehicle computer 19 via a wireless communication transmission technique and transmits the lighting state adjusting signal to the controller 14 to adjust the flashing frequency, the color brightness or the color changing frequency of the lighting state of the lighting device 101. The wireless communication transmission technology may be bluetooth or wlan, but the invention is not limited to any wireless communication transmission technology.

In one embodiment, when the light-emitting car mat 1 is not connected to the car computer 19 through the controller area network transceiver 16, the light-emitting car mat 1 can be connected to the car computer 19 through the wireless transceiver 20, and receive the wireless control signal from the car computer 19 and transmit the wireless control signal to the controller 14 through the wireless communication transmission technology to control the light-emitting state of the light-emitting device 101, and receive the light-emitting state adjusting signal from the car computer 19 and transmit the light-emitting state adjusting signal to the controller 14 through the wireless communication transmission technology to adjust the flashing frequency, the color brightness or the color-changing frequency of the light-emitting state of the light-emitting device 101.

In one embodiment, the wireless transceiver 20 in the light-emitting car mat 1 receives the wireless control signal from the car computer 19 and transmits the wireless control signal to the controller 14, the controller 14 parses the wireless control signal to obtain a second code, the controller 14 compares the second code of the wireless control signal from the car computer 19 with a plurality of codes in the light-emitting state list, and when the controller 14 compares that the codes in the light-emitting state list are the same as the second code of the wireless control signal, the controller 14 controls the light-emitting device 101 to generate a corresponding light-emitting state, such as three-color flashing lights, according to the second code of the wireless control signal.

[ third embodiment ]

Please refer to fig. 6, and also refer to fig. 1 and 2. FIG. 6 is a schematic view of a luminous automotive foot mat according to another embodiment of the present invention. The luminous automobile foot mat 3 of the invention comprises a foot mat body 4. The control circuit 26 of the light-emitting automotive foot mat 3 further comprises a key interface 28, and the key interface 28 is provided with a first key 281 and a second key 282. The key interface 28 is electrically connected to the controller 14, and the controller 14 receives a key signal generated by pressing the key interface 28. The controller 14 controls the light emitting device 101 according to the key signal. The controller 14 wirelessly performs the operation of the controller area network transceiver 16 through the wireless transceiver 20 according to the key signal. When the controller 14 receives the incoming call display from the vehicle computer 19, the first button 281 and the second button 282 on the key interface 28 are activated for performing the incoming call operation. If the controller 14 does not receive the incoming call display from the vehicle computer 19, the controller 14 can change the color, flashing frequency, color brightness or color changing frequency of the light emitting device 101 through the first key 281 and the second key 282 on the key interface 28.

For example, when there is an incoming call, the user can press the first button 281 to call up the incoming call, and the color of the light emitting device 101 is changed to green, and the light emitting state is changed to be constant, so as to prompt the user to clearly know that the incoming call is answered, and then the call can be made. If the user finishes the call, the second button 282 is pressed once when the user wants to hang up the call, the color of the light emitting device 101 changes to red light, and the light emitting state changes to constant light, so as to prompt the user that the user can clearly know that the call is hung up and the call is ended. After a certain time, the light emitting state is changed from constant brightness to constant darkness.

If the incoming call is inserted during the call, the color of the light emitting device 101 is still green, but the light emitting state is changed to flash, so as to prompt the user to clearly know that there is another incoming call intended to be inserted. The user can press the first key 281 twice again to pick up the inserted call, and at this time, the color of the light emitting device 101 is yellow, and the light emitting state changes to flash, so as to prompt the user that the last call is still in the middle.

If the user wants to return to the previous call for communication, the user can press the first button 281 again. The color of the light emitting device 101 turns to green light and the light emitting state turns to flashing to indicate to the user that the call inserted is not disconnected. If the user wants to answer the call after the break again, the first button 281 is pressed twice again. During the incoming call of the spot, the color of the light emitting device 101 is changed to yellow light again, and the light emitting state is changed to blink again. If the user wants to terminate the call, the user can press the second button 282 twice to hang up the call. The color of the light emitting device 101 is changed to red light again, and the light emitting state is changed to flicker again.

If the last call is not hung up, the controller 14 will automatically jump back to the last call for answering. The color of the light emitting device 101 is turned to green light again, and the light emitting state is turned to constant luminance. If the last power-on is suspended, the color of the light emitting device 101 is changed to red light again, and the light emitting state is changed to constant brightness. After a certain time, the light emitting state is changed from constant brightness to constant darkness. The above-mentioned control method of incoming call and the corresponding color change of the light emitting device 101 are only one possible embodiment and are not intended to limit the present invention.

The above answering mode can be shown in the following table:

in an embodiment, the incoming call is a contact person of a contact group commonly used in the controller area network transceiver, and the flashing frequency of the lighting device 101 is changed differently.

For example, when the user's parent or wife is coming in, the controller 14 is set to the first level, and the blinking frequency of the light emitting device 101 is blinking every 5 seconds. When the incoming call is from the user's supervisor or from a colleague, the controller 14 is set to the second level, and the frequency of the light emitting device 101 is flashed every 10 seconds. When the incoming call is a friend of the user, the controller 14 is set to the third level, and the blinking frequency of the light emitting device 101 is to blink every 15 seconds. The incoming call is a person who does not display a number, the controller 14 is set to the fourth level, and the blinking frequency of the light emitting device 101 is to blink every 20 seconds.

When the user wants to turn off the flashing function of the light-emitting device 101, he or she can press the first button 281 and the second button 282 simultaneously for more than 5 seconds, and then the controller 14 receives the pressing signal and turns off the light-emitting device 101 immediately. If the user wants to turn on the blinking function of the light emitting device 101 again, the blinking function of the light emitting device 101 may be resumed by simultaneously pressing the first key 281 and the second key 282 for more than 5 seconds. The flicker frequency of the light emitting device 101 is only one possible embodiment and is not intended to limit the present invention.

Please refer to fig. 7 and fig. 6. FIG. 7 is a system block diagram of a control circuit according to another embodiment of the present invention. The control circuit 26 further includes a key interface 28, and the key interface 28 is provided with a first key 281 and a second key 282. The key interface 28 is electrically connected to the controller 14 in the control unit 102, and the controller 14 receives a key signal generated by pressing the key interface 28. The number of keys of the key interface 28 is not limited in the present invention. The light emitting device 101 can correspondingly adjust the color, flashing frequency, color brightness or color changing frequency of the light emitting state according to the pressed key on the key interface 28. The number of times the key interface 28 is pressed is not limited in the present invention. If the controller 14 does not receive the incoming call display from the vehicle computer 19, the controller 14 can change the color, flashing frequency, color brightness or color changing frequency of the light emitting device 101 through the first key 281 and the second key 282 on the key interface 28.

For example, after the user presses the key on the key interface 28, only the color of the light emitting device 101 is changed, and the remaining changes such as the flashing frequency, the color brightness, or the color changing frequency, which can be selected by the user, are maintained as the original factory settings. For example, the key interface 28 has a first key 281. When the first button 281 is pressed, the light emitting device 101 emits red light. The controller 14 in the control circuit 30 receives the key signal generated by pressing the key interface 28, and controls the light emitting device 101 to emit orange light. The present invention does not limit the adjustment of the color variation of the light emitting device 101.

For example, after the user presses the key on the key interface 28, only the flashing frequency of the light emitting device 101 is changed, and the remaining changes such as the color change, the color brightness, or the color change frequency, which can be selected by the user, are maintained as the original factory settings. For example, when the first key 281 is pressed, the light emitting device 101 does not blink at the blinking frequency. The controller 14 in the control circuit 26 receives the key signal generated by pressing the key interface 28, and changes the flashing frequency corresponding to the control of the light emitting device 101 to flashing. The invention does not limit the adjustment of the blinking time of the light emitting means 101.

For example, after the user presses the key on the key interface 28, only the color brightness of the light emitting device 101 is changed, and the changes of the remaining color, the flashing frequency or the color changing frequency, which can be selected by the user, are maintained as the original factory settings. For example, when the first key 281 is pressed, the color brightness of the light emitting device 101 is brightest. After the controller 14 in the control circuit 26 receives the key signal generated by pressing the key interface 28, the color brightness of the light emitting device 101 is controlled to be medium brightness. If the controller 14 determines that the user continuously presses the first button 281, the controller 14 controls the color brightness of the light emitting device 101 to be the brightest. The number of times the key interface 28 is pressed and the level of color intensity are not limited by the present invention.

For example, after the user presses the key on the key interface 28, only the color change frequency of the light emitting device 101 is changed, and the changes of the remaining color change, the flashing frequency or the color brightness, which can be selected by the user, are maintained as the original factory settings. For example, when the first key 281 is pressed, the color change frequency of the light emitting device 101 changes to the red-white alternate light emission color every 10 seconds. The controller 14 in the control circuit 26 receives the key signal generated by pressing the key interface 28, and correspondingly controls the color changing frequency of the light emitting device 101 to change to the red-white alternating light emitting color every 5 seconds. The present invention does not limit the adjustment of the color change and the color change time of the light emitting device 101.

The light emitting state of the light emitting device 101 can be used in accordance with the usage habit of the user, and can be adjusted simultaneously or separately. For example, the color change and flashing frequency, the color brightness and the color change frequency are not adjusted. For example, the flicker frequency and color brightness, the color change and the color change frequency are not adjusted. The above-mentioned various light-emitting states are only possible embodiments and are not intended to limit the present invention.

[ fourth embodiment ]

Please refer to fig. 8, which is a schematic diagram of a light-emitting automobile foot mat according to another embodiment of the present invention. The control circuit 30 further includes a radio 301 and a sound recognizer 302 electrically connected to the controller 14 of the control unit 102. The sound recognizer 302 recognizes a sound signal obtained by the sound receiver 301. The controller 14 controls the blinking frequency, the color brightness, or the color changing frequency of the lighting state of the lighting device 101 according to the recognition result of the sound recognizer 302.

For example, the user may have no way to control the light emitting state of the light emitting device 101 by hand because of the driving. If the terrain with poor road conditions is encountered, it is inconvenient to press the key interface 28 with the foot to control the lighting state of the lighting device 101 because the brake and the accelerator are needed to be stepped on for multiple times. At this time, the user can use the voice to control the light emitting state of the light emitting device 101. The radio 301 of the control circuit 30 collects the user's voice and transmits it to the controller 14. The controller 14 recognizes the sound signal obtained by the sound receiver 301 through the sound recognizer 302. The controller 14 controls the light emitting device 101 in accordance with a plurality of codes of a plurality of light emitting states in accordance with the received sound signal.

For example, after the sound recognizer 302 recognizes the first sound signal, the controller 14 queries the light emitting status list of the light emitting device 101 according to the first sound signal, corresponding to the first code pair first light emitting status. The controller 14 controls the light emitting device 101 to emit red light.

For example, after the sound recognizer 302 recognizes the second sound signal, the controller 14 queries the light emitting state list of the light emitting device 101 according to the second sound signal, and matches the second light emitting state with the second code. The controller 14 controls the blinking frequency of the light emitting device 101 to blink once every 5 seconds.

For example, after the sound recognizer 302 recognizes the third sound signal, the controller 14 queries the light emitting status list of the light emitting device 101 according to the third sound signal, corresponding to the third code pair third light emitting status. The controller 14 controls the color changing frequency of the light emitting device 101 to be a light emitting color of red and white alternating every 5 seconds.

For example, after the sound recognizer 302 recognizes the fourth sound signal, the controller 14 queries the lighting state list of the lighting device 101 according to the fourth sound signal, and matches the fourth lighting state with the fourth code. The controller 14 controls the color brightness of the light emitting device 101 to be medium brightness.

The above-mentioned control of the light-emitting device 101 by voice recognition to change the light-emitting state is only one possible embodiment and is not intended to limit the present invention. The luminous automobile foot mat provided by the invention is not limited in placement position, and can be placed in any position convenient for reception. If the seat is used, the seat can be preferentially placed on the left side of the seat based on safety consideration, and the control is convenient for a user. The invention does not limit the placement position of the luminous automobile foot pad.

[ advantageous effects of the embodiments ]

The luminous automobile foot pad can emit light, can generate different variable luminous states according to different codes, and can be connected with an automobile computer in a wired or wireless mode to provide users with changeable environment and atmosphere lamps in the automobile, so that the application of the foot pad is greatly increased. In addition, the luminous automobile foot mat can control the flashing frequency, the color brightness or the color changing frequency of the luminous device in different luminous states according to the received key signal or the recognition result of the sound. Under the condition that a user is inconvenient to control by hands, the luminous automobile foot pad is matched with a key interface or voice recognition, and the convenience of control is provided.

The above-mentioned contents are only the preferred and feasible embodiments of the present invention, and are not limited to the claims of the present invention, so that all the technical changes which are made by using the contents of the description of the present invention and the drawings are included in the claims of the present invention.

Claims (10)

1. A light-emitting automotive foot mat, comprising:

a foot rest body, said foot rest body comprising:

the light-emitting device is arranged at the edge of the pedal pad body; and

a control unit installed in the step pad body, the control unit including:

a memory storing a light emitting state list of the light emitting device, wherein the light emitting state list stores a plurality of light emitting states and a plurality of codes corresponding to the light emitting states;

the controller is connected with the light-emitting device and the memory and is used for controlling the light-emitting state of the light-emitting device according to the codes; and

the controller area network transmitting and receiving device is connected with the controller and used for receiving a vehicle control signal and transmitting the vehicle control signal to the controller;

the controller analyzes the vehicle control signal to obtain a first code, compares the first code with the plurality of codes in the light-emitting state list, and controls the light-emitting device to generate a corresponding light-emitting state according to the first code.

2. The illuminated automotive foot mat according to claim 1, wherein said control unit further comprises:

a power supply apparatus comprising:

a battery; and

the output/input connection port is used for connecting the battery and a vehicle power supply, and receives electric energy of the vehicle power supply and stores the electric energy into the battery;

the power supply device is connected with the light-emitting device, the memory, the controller and the controller area network transmitting and receiving device, and the power supply device provides power for the light-emitting device, the memory, the controller and the controller area network transmitting and receiving device.

3. The illuminated automotive foot mat of claim 1, wherein said controller area network transceiver receives said automotive control signal from an automotive computer via a controller area network communication protocol, and said controller area network transceiver receives a lighting state adjusting signal from an automotive computer via a controller area network communication protocol and transmits the same to said controller for adjusting a blinking frequency, a color brightness or a color changing frequency of said lighting state of said lighting device.

4. The light-emitting automotive foot mat of claim 1, wherein the wireless communication transmission technology is bluetooth or wireless local area network, and the light-emitting device is a light-emitting diode light bar, wherein the plurality of codes respectively correspond to device states of incoming call display, missed call prompt, short message notification, device power or application program information prompt of a controller area network transceiver.

5. The illuminated automotive foot mat according to claim 1, wherein said control unit further comprises:

the wireless transceiver is connected with the controller and used for receiving a wireless control signal and transmitting the wireless control signal to the controller;

the controller analyzes the wireless control signal to obtain a second code, compares the second code with the plurality of codes in the light-emitting state list, and controls the light-emitting device to generate a corresponding light-emitting state according to the second code.

6. The illuminated stepping pad for vehicle according to claim 5, wherein said wireless transceiver receives said wireless control signal and an illumination status adjusting signal from a vehicle computer via a wireless communication transmission technology and transmits them to said controller for adjusting the flashing frequency, color brightness or color-changing frequency of said illumination status of said illumination device.

7. The light-emitting automotive foot mat of claim 1, wherein the foot mat body further comprises a key interface, the key interface is connected to the controller, and the controller receives a key signal generated by the key interface being pressed.

8. The illuminated automotive foot mat according to claim 7, wherein said controller controls said light emitting device according to said key signal.

9. The illuminated automotive foot mat of claim 7, wherein said controller wirelessly controls the operation of said controller area network transceiver device through said wireless transceiver device according to said key signal.

10. The illuminated automotive foot mat according to claim 7, further comprising:

the radio is connected with the controller;

the sound identifier is connected with the controller and identifies a sound signal acquired by the radio;

wherein the controller controls a blinking frequency, a color brightness, or a color changing frequency of the light emitting state of the light emitting device according to the recognition result of the sound recognizer.

Images