CN110562167A - wireless control system and vehicle - Google Patents

Abstract

The invention discloses a wireless control system and a vehicle, wherein the system comprises a power supply device, a control device, a wireless power transmitting device, a wireless signal processing device and an electric device; the control device is used for controlling the power supply device to start and sending a control instruction to the wireless signal processing device in a wireless signal form based on the control instruction of an operator; the wireless power transmitting device is connected with the power supply device and is used for transmitting the electric energy of the power supply device to the control device, the wireless signal processing device and the electric device in a wireless electric energy signal mode; the wireless signal processing device is used for processing the received wireless signals and sending the processing result to the electric device; the electric device is used for working according to a received processing result, the system is controlled through the wireless electric energy signal and the wireless signal, a large amount of space can be saved, convenience and safety are improved, and a light-weight effect is achieved.

Description

Wireless control system and vehicle

Technical Field

The invention relates to the technical field of vehicles, in particular to a wireless control system and a vehicle.

background

with the development of new automobile technology, automobiles gradually move to intellectualization, automation and light weight, and the functions of vehicle-mounted electrical appliances are more and more advanced; however, the way of transmitting power between automotive electrical appliances is still a traditional wire harness, and in order to meet more and more new functions, the automotive wire harness is now thick and heavy, so that the automobile wire harness is heavy, slow in transmission speed and low in efficiency. The field of wireless charging is well known. However, there is no breakthrough in the automotive industry, and the technology is still based on the technology of using two coils (one at the transmitting end and one at the receiving end) in an electromagnetic induction manner to align close distance for power transmission, which is limited to a small range of use (e.g., wireless charging mobile phone). The wireless power transmission by inquiring related documents mainly realizes non-contact power transmission by means of electromagnetic induction, electromagnetic resonance, radio frequency, microwave, laser and the like. Wireless power transmission forms can be classified into three major types, short-range, medium-range and long-range transmission, according to the difference of power supply distances for realizing wireless power transmission in space. However, wireless transmission of power is not widely applicable due to factors such as transmission distance and transmission efficiency, and is rarely applied to vehicles.

Disclosure of Invention

In view of the foregoing problems in the prior art, an object of the present invention is to provide a wireless control system and a vehicle, which can reduce the arrangement of signal lines and power lines in the vehicle, save space, and improve the safety and convenience of the vehicle.

In order to solve the technical problems, the specific technical scheme of the invention is as follows:

The invention provides a wireless control system, which comprises a power supply device, a control device, a wireless power transmitting device, a wireless signal processing device and an electric device;

the control device is used for controlling the power supply device to start and sending a control instruction to the wireless signal processing device in a wireless signal form based on the control instruction of an operator;

the wireless power transmitting device is connected with the power supply device and is used for transmitting the electric energy of the power supply device to the control device, the wireless signal processing device and the electric device in a wireless electric energy signal mode;

The wireless signal processing device is used for processing the received wireless signal and sending a processing result to the electric device;

The electric device is used for working according to the received processing result.

further, the wireless power transmitting device includes:

An electric energy conversion module for converting the electric energy of the power supply device into a wireless electric energy signal

and the electric energy sending module is used for sending the wireless electric energy signal to the control device, the wireless signal processing device and the electric device.

Further, the control device includes:

The power supply starting module is used for starting the power supply device;

the first electric energy receiving module is used for receiving the wireless electric energy signal;

The first electric energy conversion module is used for converting the wireless electric energy signal into electric energy and supplying the electric energy to the control device for working;

the control instruction receiving module is used for receiving a control instruction of an operator;

and the control instruction sending module is used for sending the control instruction to the wireless signal processing device in a wireless signal form.

Further, the wireless signal processing apparatus includes:

the second power receiving module is used for receiving the wireless power signal;

the second electric energy conversion module is used for converting the wireless electric energy signal into electric energy and supplying the electric energy to the wireless signal processing device for working;

the wireless signal receiving module is used for receiving a wireless signal of the control device;

the wireless signal processing module is used for processing the received wireless signal and generating a distribution instruction;

and the signal distribution module is used for sending the distribution instruction to the electric device.

Further, the electric device arrangement comprises:

The third power receiving module is used for receiving the wireless power signal;

the third electric energy conversion module is used for converting the wireless electric energy signal into electric energy and supplying the electric device to work;

the distribution instruction receiving module is used for receiving a distribution instruction of the wireless signal processing device;

An electrical device;

the control module is used for controlling the electric device according to the received distribution instruction;

And the feedback module is used for monitoring the information of the electric device in real time and feeding back the information of the electric device to the wireless signal processing device.

Further, the wireless signal receiving module is further configured to receive feedback information of the feedback module.

further, the wireless signal processing apparatus further includes:

the system detection module is used for detecting the state information of the system;

The signal detection module is used for detecting safety information transmitted by signals in the system;

the feedback signal processing module is used for processing the received signals of the electric device;

And the abnormity prompting module is used for sending out a warning prompt when the system, the signal and/or the electric device is abnormal.

specifically, the state information of the system includes system security information, system internal communication information, system parameter information, and system function module management information.

specifically, the alert reminder includes an audio reminder or a video reminder.

on the other hand, the invention also provides a vehicle which comprises a power supply, a controller and an electric appliance, wherein the vehicle is provided with the wireless control system.

by adopting the technical scheme, the wireless control system and the vehicle have the following beneficial effects:

1. According to the wireless control system and the vehicle, the transmission of electric energy and signals is realized in a wireless mode, and a large amount of space is saved.

2. According to the wireless control system and the vehicle, due to the fact that all electric devices achieve non-contact power transmission and wireless signal transmission, safety problems such as overheating and nature caused by heating of a wire harness are avoided.

3. according to the wireless control system and the vehicle, a large number of wiring harnesses are saved, so that the weight of a vehicle body is reduced, the energy consumption of the vehicle can be reduced to the minimum, and the light weight is achieved.

4. according to the wireless control system and the vehicle, the functional modules can be rapidly and timely updated and upgraded through modular function development, and the updating efficiency and the updating safety are improved.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description of the embodiment or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic diagram of a wireless control system and a vehicle according to the present invention;

FIG. 2 is a schematic diagram of the operation of a wireless control system according to the present invention;

FIG. 3 is a schematic diagram of the control device of FIG. 1;

fig. 4 is a schematic structural diagram of the wireless power transmitting apparatus in fig. 1;

FIG. 5 is a schematic diagram of the wireless signal processing apparatus of FIG. 1;

Fig. 6 is a view of the structure of the electric device arrangement of fig. 1.

in the figure: 1-a power supply device, 2-a control device, 3-a wireless power transmitting device, 4-a wireless signal processing device, 5-an electric device, 21-a power supply starting module, 22-a first power receiving module, 23-a first power conversion module, 24-a control instruction receiving module, 25-a control instruction transmitting module, 31-a power conversion module, 32-a power transmitting module, 41-a second power receiving module, 42-a second power conversion module, 43-a wireless signal receiving module, 44-a wireless signal processing module, 45-a signal distributing module, 46-a system detecting module, 47-a signal detecting module, 48-a feedback signal processing module, 49-an abnormality prompting module, 51-a third power receiving module, 52-third power conversion module, 53-dispensing command receiving module, 54-electric device, 55-control module, 56-feedback module.

Detailed Description

the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, apparatus, article, or device that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or device.

example 1

With the rapid development of intelligent driving, especially automatic driving technology, the conventional vehicle model has difficulty in meeting the technical requirements, for example, the conventional vehicle has a plurality of wire harnesses connected to each electrical appliance, so that a large number of signal lines and power lines exist between the conventional vehicle and each electrical appliance, and a series of problems, such as the weight problem of the wire harness, the energy consumption problem, the heating problem and the inconvenience of system upgrade, are caused by the overlong and overlong wire harnesses.

Specifically, as shown in fig. 1 and fig. 2, the wireless control system is a schematic structural diagram, and the system includes a power supply device 1, a control device 2, a wireless power transmitting device 3, a wireless signal processing device 4, and an electric device 5; the control device 2 is used for controlling the power supply device 1 to start and sending a control instruction to the wireless signal processing device 4 in a wireless signal form based on the control instruction of an operator; the wireless power transmitting device 3 is connected with the power supply device 1 and is used for transmitting the electric energy of the power supply device 1 to the control device 2, the wireless signal processing device 4 and the electric device 5 in a wireless electric energy signal mode; the wireless signal processing device 4 is configured to process the received wireless signal and send a processing result to the electric device 5; the electric device means 5 are adapted to operate in accordance with the received processing result.

The electric energy of the power supply device 1 is radiated in a wireless electric energy mode through the wireless electric power transmitting device 3, optionally, the electric energy can be radiated in an electromagnetic wave mode, a receiving module of the electromagnetic wave is arranged on each electric device to be electrified, specifically, the electric power transmitting device 3 is arranged at one end of a power supply or a storage battery of the automobile to generate the electric energy, the electric power receiving device is correspondingly arranged on each electric device of the automobile, such as automobile headlights, tail lamps, interior lamps, entertainment sounds, various sensors, controllers and actuators to receive the electric power from the transmitting device in a non-contact mode and work, at the moment, all parts of the traditional automobile which need wiring harness connection to transmit the power supply realize the non-contact mode to receive the electric power through the non-contact mode, and the electric power transmitted by the generator after the engine of the traditional fuel locomotive is started can be transmitted through, the new energy vehicles and the electric vehicles directly input the electric power of the power battery into the power transmitting device for transmission.

wherein, as shown in fig. 4, the wireless power transmitting apparatus 3 includes: a power conversion module 31, configured to convert the power of the power supply device 1 into a wireless power signal, and a power transmission module 32, configured to transmit the wireless power signal to the control device 2, the wireless signal processing device 4, and the electrical device 5.

It should be noted that, in this embodiment, the control device 2 includes a power starting module 21 for starting the power supply device 1, and certainly, the power starting module may be turned on by a key, or may be in a control form of sound, motion, and the like, after the power supply device 1 is started, the wireless power device 3 starts to operate, and radiates a wireless power signal to the inside of the whole vehicle, and the electrical appliances in the vehicle start to charge after receiving the wireless power signal, so that the wireless power receiving modules in the electrical appliances process a real-time standby operating state, and when receiving the wireless power signal, such as an electromagnetic wave, the wireless power receiving modules immediately enter the operating state.

In some embodiments, all the electric devices are not connected with each other by a traditional power line, great convenience is brought to the aspects of installation, arrangement, maintenance and the like, a large amount of space can be saved only by saving the power line, and the reserved position for installing the power line wiring harness and the reserved maintenance space of the traditional wiring harness vehicle can be efficiently utilized.

in some embodiments, in addition to the wireless transmission of power, a wireless signal transmission is also required, so as to better control the vehicle and reduce energy consumption, it should be noted that, in order to implement the connection of wireless signals among the devices, the same wireless communication protocol may be configured among the control device 2, the wireless signal processing device 4, and the electrical device 5, and a module matched with the wireless communication protocol is provided, where the wireless communication protocol may be, optionally, WIFI technology, bluetooth technology, infrared technology, and 5G technology.

In some embodiments, as shown in fig. 3, the control device 2 further comprises: a first power receiving module 22, configured to receive the wireless power signal; the first electric energy conversion module 23 is configured to convert the wireless electric energy signal into electric energy and provide the electric energy for the control device 2 to operate; a control instruction receiving module 24, configured to receive a control instruction of an operator; a control instruction sending module 25, configured to send the control instruction to the wireless signal processing apparatus 4 in a form of a wireless signal. The control command of the operator can be through a control switch or a voice recognition device on the automobile, and of course, the control switch can be arranged at different positions of the automobile or can be integrated at the same position. The control device 2 can process the control command to transmit a controlled radio signal to the radio signal processing device 4.

Specifically, the wireless signal processing apparatus 4 can perform data analysis on the received wireless signal to obtain a specific distribution control instruction, as shown in fig. 5, where the wireless signal processing apparatus 4 includes a second power receiving module 41 for receiving the wireless power signal; the second electric energy conversion module 42 is configured to convert the wireless electric energy signal into electric energy and provide the electric energy for the wireless signal processing apparatus 4 to work; a wireless signal receiving module 43 for receiving a wireless signal of the control device 2; a wireless signal processing module 44, configured to process the received wireless signal and generate a distribution instruction; a signal distribution module 45, configured to send the distribution instruction to the electrical device 5. The wireless power signal is received to achieve a working state, and then the control electric appliance corresponding to the received wireless signal and specific control parameters can be determined through analysis of the modules.

in some embodiments, the electric device arrangement 5 operates by receiving dispensing instructions, as shown in fig. 6, in particular, the electric device arrangement 5 comprises: a third power receiving module 51, configured to receive the wireless power signal; a third power conversion module 52, configured to convert the wireless power signal into power and provide the electric device apparatus 5 with work; a distribution instruction receiving module 53, configured to receive a distribution instruction of the wireless signal processing apparatus 4; an electrical device 54; a control module 55 for controlling the electrical device 54 in accordance with the received dispensing instructions; and the feedback module 56 is configured to monitor information of the electric device 5 in real time, and feed back the information of the electric device 5 to the wireless signal processing device 4. The feedback signal of the feedback module 56 mainly includes parameter information and status information of the electric device 54 itself, and the feedback signal is sent to the wireless signal processing apparatus 4 and received by the wireless signal receiving module 43.

in order to improve the security of the whole system, a security device is required to be provided, and in order to prevent external network intrusion and the occurrence of parameter data of internal devices, the wireless signal processing device 4 further includes: a system detection module 46 for detecting status information of the system; a signal detection module 47, configured to detect security information transmitted by a signal in the system; a feedback signal processing module 48 for processing the received signals of the electrical device arrangement 5; and the abnormity prompting module 49 is used for sending out a warning prompt when the system, the signal and/or the electric device 5 is abnormal.

Illustratively, in order to avoid the attack of the external network or the instability of the internal system to cause the system not to operate normally, the automatic detection can be carried out when the system is started, and meanwhile, the real-time or timing comprehensive detection is needed when the system runs, the data flow in the system is monitored to avoid the attack of the external network, specifically, the monitoring of the system can comprise system safety information, system internal communication information, system parameter information and system function module management information, and the electric device 5 is also provided with a self-checking device, the parameters, data and functions of the electric device can be detected in time, and the detection result can be returned to the wireless signal processing device 4, the wireless signal processing means 4 optionally feeds back to the operator on the basis of the received detection result, which, of course, the fault information can be processed by the operator through voice prompt or central control screen display.

It should be noted that the system described in this specification can be connected to the outside world in real time through a wireless protocol, and therefore, functions such as software upgrade, module update, and remote control can also be performed on the system when the system detects itself.

In another aspect, an embodiment of the present specification further provides a vehicle, a vehicle power supply, a controller and an electrical appliance, wherein the vehicle is provided with a wireless control system provided above.

By the wireless control system and the vehicle, the transmission mode of the electric power between the electric appliances in the vehicle is redefined, the wireless control system is a brand-new contactless (wireless) transmission system for the electric power in the vehicle, and a series of problems of light weight, energy consumption, safety and the like which are urgently needed to be solved in the automobile industry at the present stage are well solved; meanwhile, the design concept of the current automobile is changed, and the automobile is assisted for the automatic and intelligent development of the automobile in the future; and meanwhile, the system also lays a cushion for the application of the Internet of things and the coming 5G on the automobile.

While the invention has been described with reference to specific embodiments, it will be appreciated by those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the invention can be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A wireless control system is characterized by comprising a power supply device (1), a control device (2), a wireless power transmitting device (3), a wireless signal processing device (4) and an electric device (5);

the control device (2) is used for controlling the power supply device (1) to start and sending a control instruction to the wireless signal processing device (4) in a wireless signal form based on the control instruction of an operator;

The wireless power transmitting device (3) is connected with the power supply device (1) and is used for transmitting the electric energy of the power supply device (1) to the control device (2), the wireless signal processing device (4) and the electric device (5) in a wireless electric energy signal mode;

the wireless signal processing device (4) is used for processing the received wireless signals and sending the processing result to the electric device (5);

The electric device arrangement (5) is used for working according to the received processing result.

2. a wireless control system according to claim 1, characterized in that the wireless power transmitting means (3) comprises:

An electric energy conversion module (31) for converting the electric energy of the power supply device (1) into a wireless electric energy signal

and the power transmitting module (32) is used for transmitting the wireless power signal to the control device (2), the wireless signal processing device (4) and the electric device (5).

3. a wireless control system according to claim 2, characterized in that the control means (2) comprise:

A power supply starting module (21) for starting the power supply device (1);

A first power receiving module (22) for receiving the wireless power signal;

The first electric energy conversion module (23) is used for converting the wireless electric energy signal into electric energy and supplying the electric energy to the control device (2) for work;

the control instruction receiving module (24) is used for receiving a control instruction of an operator;

And the control instruction sending module (25) is used for sending the control instruction to the wireless signal processing device (4) in a wireless signal form.

4. A wireless control system according to claim 2, characterized in that the wireless signal processing means (4) comprise:

a second power receiving module (41) for receiving the wireless power signal;

the second electric energy conversion module (42) is used for converting the wireless electric energy signal into electric energy and supplying the electric energy to the wireless signal processing device (4) for work;

a wireless signal receiving module (43) for receiving a wireless signal of the control device (2);

A wireless signal processing module (44) for processing the received wireless signal and generating a dispensing instruction;

a signal distribution module (45) for transmitting the distribution instructions to the electrical device arrangement (5).

5. a wireless control system according to claim 4, characterized in that the electric device arrangement (5) comprises:

a third power receiving module (51) for receiving the wireless power signal;

A third power conversion module (52) for converting the wireless power signal into electrical power for operation of the electrical device arrangement (5);

A distribution instruction receiving module (53) for receiving a distribution instruction of the wireless signal processing apparatus (4);

an electric device (54);

A control module (55) for controlling the electrical device (54) in accordance with the received dispensing instruction;

And the feedback module (56) is used for monitoring the information of the electric device (5) in real time and feeding back the information of the electric device (5) to the wireless signal processing device (4).

6. a wireless control system according to claim 5, wherein the wireless signal receiving module (43) is further configured to receive feedback information of the feedback module (56).

7. A wireless control system according to claim 5, wherein the wireless signal processing means (4) further comprises:

A system detection module (46) for detecting status information of the system;

A signal detection module (47) for detecting safety information transmitted by signals in the system;

a feedback signal processing module (48) for processing the received signals of the electrical device arrangement (4);

And the abnormity prompting module (49) is used for sending out a warning prompt when the system, the signal and/or the electric device (4) is abnormal.

8. the wireless control system of claim 7, wherein the system status information comprises system security information, system intercom information, system parameter information, and system function module management information.

9. the wireless control system of claim 7, wherein the alert comprises an audible alert or a visual alert.

10. a vehicle comprising a power supply, a controller and an electrical consumer, characterized in that the vehicle is provided with a wireless control system as claimed in any one of claims 1 to 9.