CN210526476U - Multipurpose remote controller, instrument, burglar alarm, controller and electric vehicle - Google Patents

Abstract

The utility model discloses a multipurpose remote controller and instrument, alarm, controller, electric motor car. The remote controller comprises M universal keys and N special keys; the universal key is related to the common traditional functions of turning on and turning off the electric vehicle or preventing burglary and fortifying. The dedicated key is related to the electric vehicle function setting. M is between 1 and 4, and N is between 1 and 16. The universal key operates in a short press mode. The dedicated key is operated in a long press mode or by rapidly pressing the same key for K consecutive times. Said K is between 2 and 19. The utility model discloses change the mode of operation of traditional remote controller, or increase the remote controller button, replace intelligent electrical components tradition external connection with wireless remote control signal, reach the purpose of saving the cost and increasing the reliability.

Description

Multipurpose remote controller, instrument, burglar alarm, controller and electric vehicle

Technical Field

Belong to electron technical field, concretely relates to electric motor car electrical components.

Background

For convenience of description, the present invention defines the following terms:

"Large wire" refers to a bundle of wires connected between electrical components of an electric vehicle, which are generally bundled together and respectively connected to various electrical components, some of which are called wire harnesses;

the function setting refers to the switching or setting of the gear, soft and hard starting, the voltage model of the storage battery, the phase learning of the motor, the speed limit, or related parameters and the like of the electric vehicle;

"intelligent electrical component" refers to an electrical component (except for an instrument) with an mcu chip inside the same communication system on the electric vehicle, such as each module of a motor controller, a charger, a BMS battery management system, a DC/DC converter, a solar controller, a hydrogen fuel cell controller, a bus control system, and the like;

"stub" refers to a small segment of wire that runs out of the main bundle of large wires to a single plug, or from each single electrical component;

the 'plug' refers to the electronic device which is provided with the plug sheet and realizes the electric plug-in connection at the tail end of the wire head;

the 'front electric appliance' refers to all electric appliances near the front end instrument of the electric vehicle, such as an electric door lock, a front brake switch, a rear brake switch, a reversing switch, a gear switch, a lamp, a wiper, a horn, a vehicle door, an air conditioner, a sound box, an instrument and the like;

"controller-associated appliance" refers to an appliance associated with a controller, such as: the system comprises an electric door lock, a front brake switch, a rear brake switch, a reversing switch, a gear switch, a repair switch, a rotating handle or pedal accelerator plate, an instrument, an anti-theft device, a voice fault prompter, a remote control anti-theft device, a mobile phone control module and the like;

the 'non-controller-associated electric appliance' refers to an 'electric vehicle electric appliance' except for a 'controller-associated electric appliance', is unrelated to a motor controller, and comprises various lamps, a wiper, a loudspeaker, a vehicle door, an air conditioner, a sound, a reversing radar, rearview mirror control and the like;

the instrument is used for connecting and controlling electric appliances in front of the vehicle and displaying or feeding back parameters or states of the electric vehicle. Some applications are combined with headlight lamps (e.g., electric bicycles, tricycles), known in the industry as lamp heads or combination headlights or headlight assemblies. Some applications are self-contained (e.g., electric cars, field vehicles), known in the industry as meters;

the voice chip is a general name of the following three types of chips: a professional voice chip, a memory with voice data, or a mcu with voice function. Some voice chips use a "binding" (COB) method, such as most car backing chips, which is the black lump chip;

"mcu" refers to a microprocessor, and also includes an mcu module inside a large-scale voice chip;

the loudspeaker comprises a buzzer horn or a moving coil horn which are commonly used in the market;

"power amplifier circuit" refers to power amplifier circuit used for voice signal;

the electric vehicle refers to a vehicle with batteries as power, such as a four-wheel electric vehicle, an electric bus, an electric sightseeing vehicle, an electric sweeper, an electric forklift, a baby carriage, an electric bicycle, an electric moped, an electric motorcycle, an electric tricycle and the like.

Fig. 1 is a layout of keys of a conventional remote controller.

The unlocking key-1 is in accordance with unlocking, and has the following functions: and (4) remote control unlocking. When the vehicle starts the anti-theft alarm, the anti-theft alarm can be closed only after the unlocking key is pressed.

The upper locking key-2 is a lock symbol and has the following functions: and (5) remote control locking. When the vehicle is stopped, the power supply is turned off, the key is pressed down, and the anti-theft alarm function is started.

The start key-3 is a "lightning" symbol, and functions as follows: and starting without a key. Under the condition of carelessly losing the car key, the electric car can be normally started by pressing two flashing keys for remote control starting, the unlocking key is pressed when the electric car leaves the car, and the locking key is pressed again, so that the situation that the car is always in a starting state and is not needed in emergency is avoided.

The car searching key-4 is a 'ring bell' symbol, and has the following functions: one-key vehicle searching. In a wide parking lot, the situation that the own vehicle cannot be found is always met, at the moment, the ring button is pressed down, and the vehicle body automatically rings five times, so that the owner can find the vehicle conveniently.

The start key-3 and seek key-4 of fig. 1 are rarely used. In addition, the unlocking and locking can be completed by 1 key.

In addition, some function settings of the intelligent electric appliance parts of the existing electric vehicles are completed by external connectors and plugs, and the operations are rarely used. Such as electric vehicle gear, soft and hard starting, storage battery voltage model, motor phase learning, speed limit, or related parameters.

The deficiencies of the conventional model are:

1. the resource of the remote controller is wasted, some keys are not fully utilized, or too few keys have single function;

2. the external connector plug related to the function setting of the intelligent electrical appliance part is relatively waste, and the corresponding material cost and the labor cost during production are increased;

3. the reliability is reduced, and the wire ends are easy to fall off or be off, so that abnormal driving is caused;

4. the wiring is complicated in disorder, the operation is inconvenient, and the plug is difficult to identify and takes time.

Disclosure of Invention

The utility model aims at: the operation mode of the traditional remote controller is changed, or the keys of the remote controller are added, and the traditional external connection wire of the intelligent electrical appliance part is replaced by the wireless remote control signal, so that the defects of the traditional mode are overcome.

A multi-purpose remote controller:

the remote controller comprises M universal keys and N special keys.

The universal key is related to the common traditional functions of turning on and turning off the electric vehicle or preventing burglary and fortifying. This is a category of conventional functional operations. The specific functions and methods of operation are described in the background section above.

The dedicated key is related to the electric vehicle function setting. The core of the utility model is that the wireless remote control signal replaces the traditional external connection of the intelligent electric appliance part to make up the deficiency of the traditional mode, and the cost is much lower than that of adding a set of wire end plug by adding a key, which is a brand-new technical idea in the field of electric vehicles. And some applications can also realize function setting under the condition of not increasing the key cost of the remote controller, such as 1 general key is responsible for the electric vehicle switch, and 3 special keys are responsible for the electric vehicle gear, soft or hard starting and the switching of storage battery voltage model respectively in addition. This is the novelty and utility of the present invention.

The function setting is not only related to the motor controller, but also related to other intelligent components in the communication system of the electric vehicle. The multi-purpose remote controller can be used for operating all the related settings or switching of all the components in the same communication system, and then the related settings or switching can be realized through a communication protocol. Such as the switching of the dry electricity and the water of the charger and the switching of the charging mode.

M is between 1 and 4, N is between 1 and 19, and the actual number is customized according to the requirements of customers. The utility model discloses recommend M be 1 and N be 3, 1 universal key is responsible for the electric motor car switch, and the same button is pressed corresponding electric motor car switch and is switched over each time, because the feedback user who cooperates with pronunciation understands the state of electric motor car unmistakably; in addition, the 3 special keys are respectively responsible for the gear of the electric vehicle, soft and hard starting and the switching of the voltage models of the storage battery.

The universal key operates in a short press mode, such as within about 1-2 seconds. This is a category of conventional functional operations.

The common general keys are placed at convenient positions, and the sizes of the keys are increased, such as the on-off composite keys.

The dedicated key is operated in a long press mode, such as within about 3-9 seconds. Or the same key operation is quickly pressed for K times continuously, wherein the K is between 2 and 19. It is also possible to operate with other combinations of keys. The electric vehicle which is touched by a common user by mistake has no response. This is the operation category of the utility model discloses multipurpose remote controller, and the purpose is in order to prevent the maloperation, is different from traditional custom action.

Furthermore, a special key with unusual functions is placed in the middle, the size is reduced, a key cap of the key is sunk, or only a small hole is reserved to be operated by a special thimble, for example, the unusual functions such as soft and hard starting, storage battery voltage model, motor phase learning, speed limiting and the like are aimed at. The long-pressing mode or the special key position and structure are mainly used for preventing misoperation, and the size of the remote controller can be reduced. This is a definition of the appearance and key layout of the remote control.

And the keys of the remote controller are re-identified according to actual use. The mark is printed in a conventional manner, is associated with function setting, and is easy to be recognized and operated by a user. The electric vehicle gear, soft and hard starting, storage battery voltage model, motor phase learning, speed limit, related parameter and the like are respectively set with special characters. The "lightning" and "ringing" symbols are characters that are exchanged according to the specific application.

The total number of the keys of the remote controller can be increased on the basis of the traditional 4 keys so as to expand more functions. The functions are more, the keys are added. Compared with an intelligent electrical appliance part, the cost of adding one set of wire end plug is much lower.

A meter:

the instrument comprises a mcu circuit, an RF (radio frequency) receiving circuit, a communication function circuit, a voice chip circuit, a power amplifier circuit, an external interface and other function circuits.

The mcu circuit is connected with the RF receiving circuit and the communication function circuit, and the communication function circuit is connected with an external interface.

The external interface comprises a communication interface. The communication interface is connected with a large wire, the large wire comprises a communication wire, and the large wire is connected with the intelligent electrical appliance component through the communication wire. The intelligent electrical component comprises a motor controller. But of course also other intelligent components of the same communication system.

The mcu circuit receives the multi-purpose remote controller signal through the RF receiving circuit, transmits the multi-purpose remote controller signal to the external interface through the communication function circuit, and finally transmits the multi-purpose remote controller signal to the intelligent electrical appliance component through the communication line. This is the signal transfer path of the meter application, see fig. 6.

The mcu circuit is connected with the voice chip circuit, the voice chip circuit is connected with the power amplifier circuit, and the power amplifier circuit is connected with a loudspeaker through the external interface. This is the playback path for speech.

And the voice chip stores voice data related to the operation of the multi-purpose remote controller. This is the source of the voice data.

The mcu circuit is connected with the voice chip circuit and drives the loudspeaker to emit sound related to the operation of the multipurpose remote controller through the power amplifier circuit. Since the voice playing is associated with the operation of the multi-purpose remote controller, the function setting has clear feedback, thereby facilitating the confirmation of the user for the operation and being safe for use.

The other functional circuits also comprise a plurality of front electrical appliances, wherein the front electrical appliances comprise controller-associated electrical appliances and non-controller-associated electrical appliances. The operation of the controller related electric appliance exchanges data with the motor controller through the communication line, and belongs to the category of electric vehicle bus control systems. Wherein the circuit processing of non-controller associated appliances is also part of the meter.

The other functional circuits also comprise a display circuit of the instrument panel, and the other functional circuits are connected with the relevant LED or LCD of the instrument panel.

Some of the instruments are combined with a headlight (such as an electric bicycle and a tricycle), and are called lamp holders or combined headlights or headlight assemblies in the industry; some applications are self-contained (e.g., electric cars, field vehicles), known in the industry as meters; the circuit boards on the inside and outside of the instrument are also called electrical adapters.

An anti-theft device:

the burglar alarm comprises a mcu circuit, an RF (radio frequency) receiving circuit, a communication function circuit, a voice chip circuit, a power amplifier circuit, an external interface and a loudspeaker.

The mcu circuit is connected with the RF receiving circuit and the communication function circuit, and the communication function circuit is connected with an external interface.

The external interface comprises a communication interface, the communication interface is connected with a lead, the lead comprises a communication line and is connected with an intelligent electrical component through the communication line, and the intelligent electrical component comprises a motor controller.

The mcu circuit receives the multi-purpose remote controller signal through the RF receiving circuit, transmits the multi-purpose remote controller signal to the external interface through the communication function circuit, and finally transmits the multi-purpose remote controller signal to the intelligent electrical appliance component through the communication line. This is the signal transmission path of the alarm application, see fig. 7.

The mcu circuit is connected with the voice chip circuit, the voice chip circuit is connected with the power amplifier circuit, and the power amplifier circuit is connected with the loudspeaker.

And the voice chip stores voice data related to the operation of the multi-purpose remote controller. This is the source of the voice data.

The mcu circuit is connected with the voice chip circuit and drives the loudspeaker to emit sound related to the operation of the multipurpose remote controller through the power amplifier circuit. This is the playback path for speech.

The burglar alarm is applied to be combined with a backing horn, a driving horn or a flasher, and is called three-in-one (the burglar alarm, the driving horn and the flasher are combined) or four-in-one (the burglar alarm, the driving horn, the flasher and the backing horn are combined) in the industry. Under the condition, the burglar alarm is additionally provided with circuits related to the burglar alarm, the driving horn, the flasher and the backing horn, related leads are additionally arranged, and corresponding voice data are additionally arranged in the voice chip.

A controller:

the motor controller comprises a mcu circuit, a communication circuit and a motor control function circuit.

The mcu circuit is connected with the communication circuit and the motor control function circuit, the communication circuit is connected with a large wire or a lead wire, and is connected with the instrument through the large wire or connected with the burglar alarm through the lead wire, and the communication circuit is used for receiving the multi-purpose remote controller signal and completing the function setting or the startup and shutdown of the controller, such as the soft and hard starting, the storage battery voltage model, the motor phase learning, the speed limiting and the like.

The controllers have class 2: the first category is for the meter, see fig. 6; the second category is for the burglar alarm, see fig. 7.

An electric vehicle:

the electric vehicle is provided with the instrument, the burglar alarm or the controller and is used for receiving the multi-purpose remote controller signal.

The utility model discloses the effect:

1. the resources of the remote controller are fully utilized, and waste is avoided. Or increasing the number of keys to expand the function. Or changing the key operation mode expansion function;

2. an external connector plug related to the function setting of the intelligent electrical appliance part is removed, and the corresponding material cost and the labor cost during production are eliminated or reduced;

3. the reliability is improved, and abnormal driving caused by the falling or off-line of the wire ends is avoided;

4. the wiring is simple and tidy, convenient operation, and the convenient discernment of specific symbol sign of remote controller.

Drawings

FIG. 1 is a layout of keys of a conventional remote controller;

FIG. 2 is a layout of multi-purpose remote control keys;

FIG. 3 is a diagram of the structure of the meter of the present invention;

FIG. 4 is a structural view of the anti-theft device of the present invention;

FIG. 5 is a diagram of a controller structure according to the present invention;

FIG. 6 shows an application system of the present invention;

fig. 7 shows the application system of the burglar alarm of the present invention.

Detailed Description

A multi-purpose remote controller:

scheme 1: 1 universal key is responsible for the electric motor car switch, drives the electric door lock moreover, and the key function is exempted from in direct use, and 3 special keys are responsible for the switching of electric motor car gear, soft or hard starting, battery voltage model respectively in addition. Because the user knows the state of the electric vehicle without mistakes in cooperation with the voice feedback.

The universal key 1 is switched back and forth by pressing the corresponding electric vehicle switch each time. The original state is switched on and then switched off; otherwise, the switch is turned on when the switch is turned off. Meanwhile, the meter or the burglar alarm plays the switch state or different prompt tones by voice. The other 3 conventional key functions are cancelled.

The special key 1 is pressed each time to switch between high, medium and low gears, and simultaneously the meter or the burglar alarm plays the gear state by voice. The original high grade is switched to the middle grade, the original middle grade is switched to the low grade, and the original low grade is switched to the high grade.

The special key 2 is switched between soft and hard starting when pressed each time, and the instrument or the burglar alarm plays soft and hard states by voice. The original soft start is pressed again to be a hard start, and the original hard start is pressed again to be a soft start to switch back and forth.

The dedicated key 3 switches between 48v and 60v battery at each press while the meter or burglar alarm plays the battery voltage in voice. The original 48v is further pressed as 60v, and the original 60v is further pressed as 48v, and switching is performed back and forth. The motor controller is customized for a universal motor controller, and the same controller can be installed on the electric vehicle with two storage batteries.

According to the scheme, under the condition that the keys of the traditional remote controller are not changed, 6 wires of the motor controller 3 are reduced. The traditional scheme is that two lines for gear shifting are connected to a motor controller from an electric vehicle instrument through long large lines, and 1 switch and a related plug wire head are arranged on a handlebar. The utility model discloses a save the effect very obvious.

Scheme 2: 3 general keys are responsible for traditional function, and 1 special key is responsible for the switching of electric motor car gear respectively in addition. The original function of the 'ring' key is cancelled and the key is rearranged into a special key. The principle of voice playing is the same as above.

Scheme 3: 1 universal key is responsible for the switch of the electric vehicle, and drives the electric door lock, and directly uses the function of exempting from the key, and the other 3 special keys are responsible for the gear of the electric vehicle-high grade, middle grade, low grade respectively. The principle of voice playing is the same as above.

Scheme 4: the functions of original traditional 4 keys are kept, and in addition, 6 special keys are additionally arranged and are respectively responsible for electric vehicle gear, soft and hard starting, storage battery voltage model, motor phase learning, speed limiting and switching of dry electricity and water of a charger. The principle of voice playing is the same as above.

By analogy, more remote controller layout schemes exist according to different applications.

FIG. 1 is a layout of keys of a conventional remote controller; fig. 2 shows the layout of the multi-purpose remote controller keys of the present invention.

A meter:

fig. 3 is a structure diagram of the meter of the present invention. The signal of the multi-purpose remote controller is firstly transmitted to the RF radio frequency receiving circuit 5, demodulated and transmitted to the mcu circuit 1, and the mcu circuit 1 decodes and transmits to the external interface 4 through the communication circuit 3. And finally, transmitting the data to the intelligent electrical appliance component according to the appointed communication protocol.

The decoding of the multi-purpose remote control signal can also be done by the connected intelligent electrical component, but this is too inefficient and increases the data communicated.

The mcu circuit 1 includes an mcu chip and peripheral circuits thereof. The mcu is an intelligent chip, has strong processing capacity and is responsible for the management of the whole instrument, including signal acquisition, ADC conversion, display driving of LCD/LED, communication, voice processing and the like.

The RF receiver circuit 5 may be a dedicated modular circuit, and is commercially available. A corresponding superheterodyne radio frequency receiving circuit can also be added on the instrument circuit board, and the network has a plurality of mature circuits. Generally divided into 315 or 433.

The technical parameters mainly considered for the type selection of the mcu are as follows: the operating speed, the temperature range, the quantity of GPIOs, the FLASH size, the RAM size, the mode of the external communication port and other parameters are considered. At present, a plurality of single-chip microcomputers in the market can meet the requirement, and for example, the single-chip microcomputers can be used in a plurality of brand technologies of manufacturers such as Microchip, freescale, ST, infineon, cypress and the like.

The communication circuit 3 differs according to different communication modes. The selectable communication modes are as follows: uart, lin, can, i2c, 485, gpio analog communications, etc. The communication is two-way, in order to save the cost, the utility model discloses recommend selecting for use single line half-duplex mode, commonly known as "a ray of leading to".

In fig. 3, the mcu circuit 1 controls the voice chip circuit 2 to send out a weak voice signal, then the voice signal is amplified through the power amplifier circuit 6, and then the speaker 7 is driven to send out a sound through the external interface 4.

The type of the voice chip in fig. 3 is determined according to the amount of voice data to be stored and the requirement of voice quality, and the operating temperature range is also considered. The voice data is many, and the tone quality that requires is high, just needs to select the pronunciation chip of large capacity for use. Instead, a chip with a small capacity may be selected. The requirements of sound quality determine how much speech sampling rate is used and thus how much capacity is needed. Sampling rates of 8K, 16K, 32K are relatively common. Many voice chips are available on the market at present, most of which are produced by taiwan, and the voice chips with the specifications of 040, 060 and 080 are generally available. 040 means 40 seconds of storage space for speech, 060, 080 and so on.

The power amplifier circuit in fig. 3 amplifies the weak voice signal output by the voice chip 2 to a certain power, so as to drive the speaker to make a sound. The larger the sound required, the greater the power amplification. The structure of the power amplifier circuit is related to the output form of the voice chip 2 and the specification of the loudspeaker. Generally speaking, the voice output of the chip has two forms of DAC and PWM, and the sound playing device has a buzzer and a moving coil speaker, which results in various forms of the power amplifier circuit. Some circuits can be combined by common discrete devices, and triode circuits can be directly used for low power. Some power amplifier chips can be used, and LM386 can be selected for low power.

The loudspeaker 7 is generally selected as a buzzer horn and is connected with the power amplifier circuit 6 through the external interface 4.

The other functional circuitry 8 in fig. 3 also includes processing of a number of front vehicle appliances, including controller-associated appliances and non-controller-associated appliances.

An anti-theft device:

fig. 4 is a structural diagram of the burglar alarm of the present invention. The signal of the multi-purpose remote controller is firstly transmitted to the RF radio frequency receiving circuit 5, demodulated and transmitted to the mcu circuit 1, and the mcu circuit 1 decodes and transmits to the external interface 4 through the communication circuit 3. And finally, transmitting the data to the intelligent electrical appliance component according to the appointed communication protocol.

The decoding of the multi-purpose remote control signal can also be done by the connected intelligent electrical component, but this is too inefficient and increases the data communicated.

The mcu circuit 1 includes an mcu chip and peripheral circuits thereof. The mcu is an intelligent chip, has strong processing capacity and is responsible for the management of the whole instrument, including signal acquisition, ADC conversion, display driving of LCD/LED, communication, voice processing and the like.

The RF receiver circuit 5 may be a dedicated modular circuit, and is commercially available. A corresponding superheterodyne radio frequency receiving circuit can also be added on the instrument circuit board, and the network has a plurality of mature circuits. Generally divided into 315 or 433.

The technical parameters mainly considered for the type selection of the mcu are as follows: the operating speed, the temperature range, the quantity of GPIOs, the FLASH size, the RAM size, the mode of the external communication port and other parameters are considered. At present, a plurality of single-chip microcomputers in the market can meet the requirement, and for example, the single-chip microcomputers can be used in a plurality of brand technologies of manufacturers such as Microchip, freescale, ST, infineon, cypress and the like.

The communication circuit 3 differs according to different communication modes. The selectable communication modes are as follows: uart, lin, can, i2c, 485, gpio analog communications, etc. The communication is two-way, in order to save the cost, the utility model discloses recommend selecting for use single line half-duplex mode, commonly known as "a ray of leading to".

The voice chip circuit 2 in fig. 4 includes a voice chip. The type of the voice chip is determined according to the voice data to be stored and the requirement of the voice quality, and the working temperature range is also considered. The voice data is many, and the tone quality that requires is high, just needs to select the pronunciation chip of large capacity for use. Instead, a chip with a small capacity may be selected. The requirements of sound quality determine how much speech sampling rate is used and thus how much capacity is needed. Sampling rates of 8K, 16K, 32K are relatively common. Many voice chips are available on the market at present, most of which are produced by taiwan, and the voice chips with the specifications of 040, 060 and 080 are generally available. 040 means 40 seconds of storage space for speech, 060, 080 and so on.

The power amplifier circuit 6 in fig. 4 amplifies the weak voice signal output by the voice chip circuit 2 to a certain power, so as to drive the speaker to make a sound. The larger the sound required, the greater the power amplification. The structure of the power amplifier circuit 6 is related to the output form of the voice chip circuit 2 and the specification of the loudspeaker. Generally speaking, the voice output of the chip has two forms of DAC and PWM, and the sound playing device has a buzzer and a moving coil speaker, which results in various forms of the power amplifier circuit 6. Some circuits can be combined by common discrete devices, and triode circuits can be directly used for low power. Some power amplifier chips can be used, and LM386 can be selected for low power.

In fig. 4, the mcu circuit 1 controls the voice chip circuit 2 to send out a weak voice signal, and then amplifies the voice signal through the power amplifier circuit 6, and then drives the loudspeaker 7 to send out a sound.

The loudspeaker is generally selected as a buzzer horn.

Some of the applications of the burglar alarm are combined with a backing horn, a driving horn or a flasher, and the burglar alarm is called three-in-one or four-in-one in the industry.

Motor controller

Fig. 5 is a structural diagram of the motor controller of the present invention.

The mcu circuit 1 is connected with the communication function circuit 3 and the motor control function circuit 2. The motor control function circuit 2 contains wiring and circuitry related to function settings. The communication function circuit 3 comprises a communication line and is connected with an instrument or an anti-theft device. The mcu circuit 1 obtains the signal transmitted by the multi-purpose remote controller from the instrument or the burglar alarm according to the appointed communication protocol from the communication function circuit 3, and the related parameters of the controller are set in the outgoing motor control function circuit 2. Meanwhile, the related wiring and circuit of function setting are removed, and the purposes of simplifying wiring, saving cost and improving reliability are achieved.

The mcu circuit 1 comprises an mcu chip, and a plurality of single-chip microcomputers in the market can meet the requirement at present, for example, the single-chip microcomputers can be used in a plurality of brand technologies of manufacturers such as Microchip, freescale, ST, infineon, cypress and the like.

The communication function circuit 3 differs according to different communication modes. The selectable communication modes are as follows: uart, lin, can, i2c, 485, gpio analog communications, etc. Wherein the lin, can, i2c and 485 need external driving chips. The single chip microcomputer of the manufacturer is internally provided with a module with a required communication mode.

The motor controller has 2 types: the first category is for the meter, see fig. 6; the second category is for the burglar alarm, see fig. 7.

Fig. 6 shows the utility model discloses a meter application system. The signal of the multifunctional remote controller is firstly transmitted to the instrument 1, then transmitted to the motor controller 4 through the large wire 3. Wherein the meter 1 also handles the vehicle front electrical appliance 2.

Fig. 7 shows the application system of the burglar alarm of the present invention. The signal of the multifunctional remote controller is firstly transmitted to the burglar alarm 1, then transmitted to the motor controller 3 through the lead wire 2.

An electric vehicle:

the electric vehicle is provided with the instrument, the burglar alarm or the controller and is used for receiving the multi-purpose remote controller signal.

The embodiments and the description above are only intended to illustrate the principle of the present invention and one of the examples, and there are variations and modifications according to this principle, which fall within the scope of the present invention.

Claims (10)

1. A multi-purpose remote control, characterized by: the remote controller comprises M universal keys and N special keys; the universal key is related to the common traditional functions of turning on and off the electric vehicle or preventing burglary and fortifying; the special key is related to the function setting of the electric vehicle; m is between 1 and 4, and N is between 1 and 16.

2. The multi-purpose remote controller of claim 1, wherein: the universal key operates in a short press mode; the special key is operated in a long-pressing mode or the same key is quickly pressed for continuous K times; said K is between 2 and 19; the special key can be placed in the middle of the remote controller, the size is reduced, a key cap of the key is sunken, or only one small hole is reserved and a special thimble is used for operation; the long pressing mode or the special key position and structure are mainly used for preventing misoperation.

3. The multi-purpose remote controller of claim 1, wherein: the keys of the remote controller are re-identified according to actual use; the mark is printed in a conventional manner, is associated with function setting, and is easy to be recognized and operated by a user.

4. The multi-purpose remote controller of claim 1, wherein: the total number of the keys of the remote controller can be increased on the basis of the traditional 4 keys so as to expand more functions.

5. A meter, characterized by: the instrument comprises a mcu circuit, an RF (radio frequency) receiving circuit, a communication function circuit, a voice chip circuit, a power amplifier circuit, an external interface and other function circuits; the mcu circuit is connected with the RF receiving circuit and the communication function circuit, and the communication function circuit is connected with an external interface; the external interface comprises a communication interface; the communication interface is connected with a large wire, the large wire comprises a communication wire and is connected with the intelligent electrical appliance component through the communication wire; the intelligent electrical component comprises a motor controller; the mcu circuit receives the multi-purpose remote controller signals of claims 1 to 4 through the RF receiving circuit, transmits the signals to the external interface through the communication function circuit, and then transmits the signals to the intelligent electrical appliance component through the communication line.

6. A meter according to claim 5, wherein: the mcu circuit is connected with the voice chip circuit, and the voice chip circuit is connected with the power amplifier circuit; the power amplifier circuit is connected with a loudspeaker through the external interface; the voice chip circuit stores therein voice data related to the operation of the multi-purpose remote controller of claims 1 to 4; the power amplifier circuit drives the loudspeaker to emit sound related to the operation of the multipurpose remote controller.

7. An anti-theft device, characterized in that: the burglar alarm comprises a mcu circuit, an RF (radio frequency) receiving circuit, a communication function circuit, a voice chip circuit, a power amplifier circuit, an external interface and a loudspeaker; the mcu circuit is connected with the RF receiving circuit and the communication function circuit, and the communication function circuit is connected with an external interface; the external interface comprises a communication interface; the communication interface is connected with a lead, the lead comprises a communication line and is connected with the intelligent electrical appliance component through the communication line; the intelligent electrical component comprises a motor controller; the mcu circuit receives the multi-purpose remote controller signals of claims 1 to 4 through the RF receiving circuit, transmits the signals to the external interface through the communication function circuit, and then transmits the signals to the intelligent electrical appliance component through the communication line.

8. An anti-theft device according to claim 7, characterized in that: the mcu circuit is connected with the voice chip circuit, and the voice chip circuit is connected with the power amplifier circuit; the power amplifier circuit is connected with the loudspeaker; the voice chip stores voice data related to the operation of the multi-purpose remote controller of claims 1 to 4; the mcu circuit is connected with the voice chip circuit and drives the loudspeaker to emit sound related to the operation of the multipurpose remote controller through the power amplifier circuit.

9. A controller, characterized by: the controller comprises a mcu circuit, a communication circuit and a motor control function circuit; the mcu circuit is connected with the communication circuit and the motor control function circuit; the communication circuit is connected with a large wire or a lead wire, and is connected with the instrument of claim 5 or 6 through the large wire or connected with the burglar alarm of claim 7 or 8 through the lead wire, and is used for receiving the multi-purpose remote controller signals of claims 1 to 4 to complete the function setting or the on-off of the controller.

10. An electric vehicle, characterized in that: the electric vehicle is equipped with the meter of claim 5 or 6, or with the burglar alarm of claim 7 or 8, or with the controller of claim 9, for receiving the multi-purpose remote controller signal of claims 1 to 4.

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