CN106842906A - The offline learning device of vehicle and learning method of tire pressure monitoring system - Google Patents
The offline learning device of vehicle and learning method of tire pressure monitoring system Download PDFInfo
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- CN106842906A CN106842906A CN201510892029.XA CN201510892029A CN106842906A CN 106842906 A CN106842906 A CN 106842906A CN 201510892029 A CN201510892029 A CN 201510892029A CN 106842906 A CN106842906 A CN 106842906A
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B13/00—Adaptive control systems, i.e. systems automatically adjusting themselves to have a performance which is optimum according to some preassigned criterion
- G05B13/02—Adaptive control systems, i.e. systems automatically adjusting themselves to have a performance which is optimum according to some preassigned criterion electric
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60C—VEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
- B60C23/00—Devices for measuring, signalling, controlling, or distributing tyre pressure or temperature, specially adapted for mounting on vehicles; Arrangement of tyre inflating devices on vehicles, e.g. of pumps or of tanks; Tyre cooling arrangements
- B60C23/02—Signalling devices actuated by tyre pressure
- B60C23/04—Signalling devices actuated by tyre pressure mounted on the wheel or tyre
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Abstract
The present invention provides a kind of offline learning device of the vehicle of tire pressure monitoring system and learning method, and the device includes:The platform of the offline study of TPMS vehicles, the first wake module and the second wake module for waking up the tyre pressure sensor in tire are carried out for vehicle, wherein, first wake module is located at the left side of platform, second wake module is located at the right side of platform, front tread and rear tread of the lateral separation more than vehicle between first wake module and second wake module, fore-and-aft distance is not equal to the wheelspan between vehicle front and back wheel;First wake module is with the second wake module not on same transverse horizontal line;Rack, for the monitoring information comprising sensor identity number sent according to default learning strategy and each tyre pressure sensor, generates learning information, and learning information is sent to the CSRC module of vehicle.Solve prior art learning efficiency low, the problem that probability is high, is not suitable for being used in mass production is produced is learned by mistake.
Description
Technical field
The present invention relates to automobile technical field, more particularly to a kind of offline of the vehicle of tire pressure monitoring system
Practise device and learning method.
Background technology
Tire pressure monitoring system (Tire Pressure Monitoring System, abbreviation TPMS),
Real-time monitoring is carried out for major parameters such as the pressure and temperatures to vehicle tyre, is beneficial to guarantee tire
Pressure and temperature etc. maintain in critical field, to reduce the probability of tire of blowing out, ruin, lift vehicle
Security.
TPMS includes the tyre pressure sensor module being installed on each tire, in vehicle traveling or quiet
The data such as the pressure and temperature of tire are monitored in the state of only, and the side for passing through radiofrequency signal
Formula is transmitted into the CSRC module of TPMS, and Monitoring Data is shown by the CSRC module
Show.Each tyre pressure sensor module has unique identity code (ID), CSRC module
How to recognize the tire sensor of the information of transmitting realizes TPMS functions positioned at which position of vehicle
One of underlying issue.In the prior art generally by the way of tire pressure monitoring learning instrument artificial activation learns
To solve this problem.But it is low that this mode of learning has learning efficiency, learn that probability is high to ask by mistake
Topic, it is uncomfortable easily to be used in mass production production.
The content of the invention
The present invention provides a kind of offline learning device of the vehicle of tire pressure monitoring system and learning method, is used to solve
Certainly prior art learning efficiency is low, and the problem that probability is high, is not suitable for being used in mass production is produced is learned by mistake.
First aspect present invention provides a kind of offline learning device of the vehicle of tire pressure monitoring system, the device bag
Include:
One carries out the platform of the offline study of TPMS vehicles, one first wake module, one for vehicle
Two wake modules, a rack;
Wherein, first wake module is located at the left side of the platform, and second wake module is located at
The right side of the platform, the lateral separation between first wake module and second wake module is big
In the front tread and rear tread of the vehicle, first wake module does not exist with second wake module
On same transverse horizontal line;Fore-and-aft distance between first wake module and second wake module
It is not equal to the wheelspan between the vehicle front and back wheel, first wake module and second wake module
For waking up the tyre pressure sensor in tire;
The rack, for basis and first wake module and the second wake module position relationship
The prison comprising sensor identity number (ID) that corresponding learning strategy and each tyre pressure sensor send
Measurement information, generates learning information, and the learning information is sent to the CSRC module of the vehicle.
Second aspect present invention provides a kind of offline learning method of the vehicle of tire pressure monitoring system, the method bag
Include:
Platform bearer longitudinal direction of car is moved, when the second wake module detects the tire of the vehicle right side, to
The right-hand wheel fetal hair send the first wake-up signal, so that the tyre pressure sensor in the right side tire is to rack
Send the first monitoring information;
When the first wake module detects the tire of the vehicle left side, second is sent to the left side wheels fetal hair
Wake-up signal, so that the tyre pressure sensor in the left side tire sends the second monitoring information to the rack,
Wherein, first monitoring information and second monitoring information include the body to deserved tyre pressure sensor
Part identification number (ID);
The rack is according to corresponding with first wake module and the second wake module position relationship
Learning strategy and first monitoring information and second monitoring information generation learning information, and by institute
Learning information is stated to send to the CSRC module of the vehicle.
The offline learning device of vehicle and learning method of the tire pressure monitoring system that the present invention is provided, by setting
One platform that the offline study of TPMS vehicles is carried out for vehicle, and distinguish in the left and right sides of the platform
First wake module and the second wake module are set, are waken up in vehicle left side tire by the first wake module
Tyre pressure sensor, the tyre pressure sensor in vehicle right side tire is waken up by the second wake module, and lead to
Rack is crossed according to study corresponding with the first wake module and the second wake module position relationship set in advance
Strategy, generates learning information, and the learning information is sent out for the monitoring information that each tyre pressure sensor sends
The CSRC module of correspondence vehicle is given, it is achieved thereby that the offline study of the vehicle of TPMS systems, solves
Prior art learning efficiency is low, and the problem that probability is high, is not suitable for being used in mass production is produced is learned by mistake.
Brief description of the drawings
Fig. 1 is the knot of the offline learning device of vehicle of the tire pressure monitoring system that the embodiment of the present invention one is provided
Structure schematic diagram;
Fig. 2 is the knot of the offline learning device of vehicle of the tire pressure monitoring system that the embodiment of the present invention two is provided
Structure schematic diagram;
Fig. 3 is the stream of the offline learning method of vehicle of the tire pressure monitoring system that the embodiment of the present invention three is provided
Journey schematic diagram;
Fig. 4 is the stream of the offline learning method of vehicle of the tire pressure monitoring system that the embodiment of the present invention four is provided
Journey schematic diagram.
Reference:
10- platforms;The wake modules of 11- first;The wake modules of 12- second;
13- racks;14-VIN yards of scanner;The slideways of 15- first;
The slideways of 16- second.
Specific embodiment
To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with this hair
Accompanying drawing in bright embodiment, is clearly and completely described to the technical scheme in the embodiment of the present invention,
Obviously, described embodiment is a part of embodiment of the invention, rather than whole embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained under the premise of creative work is not made
The every other embodiment for obtaining, belongs to the scope of protection of the invention.
Those skilled in the art will be appreciated that the heretofore described " vehicle of tire pressure monitoring system
Offline study " refer to vehicle TPMS systems in each tyre pressure sensor and each tire coupling learning.
Embodiment one
Fig. 1 is the structure of the offline learning device of vehicle of the tire pressure monitoring system that the embodiment of the present invention one is provided
Schematic diagram, as shown in figure 1, the offline learning device bag of vehicle of the tire pressure monitoring system that the present embodiment is provided
Include:
One carried out for vehicle the platform 10 of the offline study of TPMS vehicles, one first wake module 11,
One second wake module 12, a rack 13;
Wherein, first wake module 11 is located at the left side of the platform 10, and described second wakes up mould
Block 12 is located at the right side of the platform 10, first wake module 11 and second wake module
Front tread and rear tread of the lateral separation more than the vehicle between 12, first wake module 11
With second wake module 12 not on same transverse horizontal line;First wake module 11 and institute
The wheelspan that the fore-and-aft distance between the second wake module 12 is not equal between the vehicle front and back wheel is stated, it is described
First wake module 11 and second wake module 12 are used to wake up the tyre pressure sensor in tire;
The rack 13, for basis and first wake module 11 and second wake module 12
The corresponding learning strategy of position relationship and each tyre pressure sensor send comprising sensor identity number
(ID) monitoring information, generates learning information, and the learning information is sent to the center of the vehicle
Monitoring module.
Specifically, platform 10 can be the platform that a surface is provided with conveyer belt, and platform 10 can hold
Vehicle is carried to be moved along the direction of motion of conveyer belt.First wake module 11 and the second wake module 12 are distinguished
The left and right sides of platform 10 is arranged on, in the present embodiment, the first wake module 11 and the second wake module
12 is low frequency signal transmitter module, when the first wake module 11 or the second wake module 12 detect automobile
Tire when, the first wake module 11 or the second wake module 12 send low to the vehicle tyre for detecting
Frequency wake-up signal, to wake up the tyre pressure sensor in tire.In order to adapt to the vehicle of different automobile types, this reality
The first wake module 11 and the second wake module are preferably arranged on platform 10 using revocable mode in applying
The left and right sides so that the lateral separation between the first wake module 11 and the second wake module 12 is (i.e.
Distance on the direction vertical with the upper conveyor belt direction of motion of platform 10) be consistently greater than vehicle front tread and
Rear tread.Also, in order to avoid the first wake module 11 and the second wake module 12 wake up and are located at simultaneously
Tyre pressure sensor in the different kinds of tyre of automobile both sides, so that rack None- identified tyre pressure sensor is in vehicle
In particular location problem, the first wake module 11 and the second wake module 12 are handed in the present embodiment
Mistake is arranged on the both sides of platform 10, i.e. the first wake module 11 and the second wake module 12 not in same horizontal stroke
It is not equal to the fore-and-aft distance on horizontal line, and between the first wake module 11 and the second wake module 12
Wheelspan between vehicle front and back wheel.
Further, in the present embodiment, the first wake module 11 and the second wake module 12 are led to rack
Cable connection is crossed, and is driven by rack 13.
When vehicle carries out offline study, the tire of vehicle left side sequentially passes through the first wake module 11, car
The wheel on right side sequentially passes through the second wake module 12, and it is left that the first wake module 11 wakes up vehicle successively
The tyre pressure sensor in tyre pressure sensor and vehicle left rear wheel in front-wheel, the second wake module 12 is called out successively
The tyre pressure sensor waken up in vehicle off-front wheel and off hind wheel, so as to each tyre pressure sensor sends to rack 13 wrap
Monitoring information containing identification information, rack 13 sends out each sensor according to the learning strategy for prestoring
The corresponding storage of monitoring information sent is in the corresponding storage region of each tire.Wherein, above-mentioned study plan
Slightly it is corresponding with the position relationship between the first wake module 11 and the second wake module 12.For example,
Fore-and-aft distance between first wake module 11 and the second wake module 12 is less than between vehicle front and back wheel
Wheelspan, also, the location of the first wake module 11 vehicle that takes the lead in detecting left side tire, then machine
Cabinet 13 receives the order of monitoring information, is corresponding in turn to the monitoring of the detection information, off-front wheel for the near front wheel
Information, the monitoring information of left rear wheel, the monitoring information of off hind wheel.If the first wake module 11 is called out with second
Fore-and-aft distance between module 12 of waking up is more than the wheelspan between vehicle front and back wheel, also, the first wake module
The location of 11 left side tires for taking the lead in detecting vehicle, then rack 13 receive the suitable of monitoring information
Sequence, be corresponding in turn to detection information for the near front wheel, the monitoring information of left rear wheel, the monitoring information of off-front wheel,
The monitoring information of off hind wheel.
Each monitoring information that rack will be received is believed with the storage formed after corresponding tire location associated storage
Breath (i.e. learning information), sends to the CSRC module of correspondence vehicle by way of wirelessly or non-wirelessly.
In the present embodiment, it is preferred to use and Controller Area Network BUS (Controller Area Network, referred to as
CAN) learning information is sent to the CSRC module of vehicle.
The offline learning device of vehicle of the tire pressure monitoring system that the present embodiment is provided, is used to hold by setting one
Carrying vehicle carries out the platform of the offline study of TPMS vehicles, and is respectively provided with first in the left and right sides of the platform
Wake module and the second wake module, the tire pressure waken up by the first wake module in vehicle left side tire are passed
Sensor, wakes up the tyre pressure sensor in vehicle right side tire, and press by rack by the second wake module
Sensed according to the first wake module and the corresponding learning strategy of the second wake module position relationship and each tire pressure
The monitoring information that device sends, generates learning information, and the learning information is sent to the center of correspondence vehicle
Monitoring module, it is achieved thereby that the offline study of the vehicle of TPMS systems, solves prior art learning efficiency
Lowly, probability is learned by mistake high, the problem for being not suitable for being used in mass production is produced.
Embodiment two
Fig. 2 is the structure of the offline learning device of vehicle of the tire pressure monitoring system that the embodiment of the present invention two is provided
Schematic diagram, as shown in Fig. 2 the offline learning device of vehicle of the tire pressure monitoring system of this implementation offer is upper
State on the basis of embodiment one, also include:Vehicle identification code (Vehicle Identification Number,
Abbreviation VIN) scanner 14, the first slideway 15 and the second slideway 16.
Wherein, VIN yards of scanner 14 is connected with rack 13, under pending TPMS systems vehicle
The vehicle of line study carries out VIN yard scanning, and will scan the VIN yards of transmission for obtaining to rack 13.First
Slideway 15 is fixedly installed on the left side of platform 10, and the first wake module 11 is slidably installed on the first slideway 15;
Second slideway 16 is fixedly installed on the right side of platform, and the second wake module 12 is slidably installed on the second slideway 16.
The first wake module 11 and the can be adjusted by sliding the first wake module 11 and the second wake module 12
The position of two wake modules, in the present embodiment, preferably by the first wake module 11 and the second wake module
Fore-and-aft distance between 12 is set smaller than the front and rear of the vehicle of the pending offline study of TPMS systems vehicle
Wheelspan between wheel.
It is set smaller than by by the fore-and-aft distance between the first wake module 11 and the second wake module 12
Wheelspan between the front and back wheel of the vehicle of the pending offline study of TPMS systems vehicle, can shorten under vehicle
The time of line study, improve efficiency.
When the offline study of the TPMS system vehicles for carrying out vehicle, first by VIN yards of scanner 14 pairs
VIN yards of vehicle is scanned, and will scan the VIN yard transmission for obtaining to rack 13, rack 13 pairs
The VIN yards is stored, when the vehicle of platform 10 is moved, apart from vehicle original position it is nearer
One wake module 11 takes the lead in triggering the tyre pressure sensor in vehicle the near front wheel so that tyre pressure sensor is to rack
The monitoring information comprising its identification information is sent, rack believes the monitoring after receiving the monitoring information
Breath storage in the corresponding storage region of the corresponding the near front wheel of VIN yard with the vehicle, in completion the near front wheel
Tyre pressure sensor is matched with the near front wheel, and following rack 13 is sequentially received tire pressure sensing in off-front wheel
In device, left rear wheel in tyre pressure sensor and off hind wheel tyre pressure sensor send comprising sensor identity mark
The monitoring information of knowledge information, and each monitoring information storage that will be received arrives corresponding with VIN yards of the vehicle
Corresponding tire location storage region in, to generate learning information.Last rack 13 passes through CAN
The learning information of generation is sent to the VI yards of central control module of corresponding vehicle, so as to complete vehicle
The TPMS offline study of system vehicle.
The offline learning device of vehicle of the tire pressure monitoring system that the present embodiment is provided, is used to hold by setting one
Carrying vehicle carries out the platform of the offline study of TPMS vehicles, and is respectively provided with first in the left and right sides of the platform
Wake module and the second wake module, the tire pressure waken up by the first wake module in vehicle left side tire are passed
Sensor, wakes up the tyre pressure sensor in vehicle right side tire, and press by rack by the second wake module
Sensed according to the first wake module and the corresponding learning strategy of the second wake module position relationship and each tire pressure
The monitoring information that device sends, generates learning information, and the learning information is sent to the center of correspondence vehicle
Monitoring module, it is achieved thereby that the offline study of the vehicle of TPMS systems, solves prior art learning efficiency
Lowly, probability is learned by mistake high, the problem for being not suitable for being used in mass production is produced.
Embodiment three
Fig. 3 is the flow of the offline learning method of vehicle of the tire pressure monitoring system that the embodiment of the present invention three is provided
Schematic diagram, as shown in figure 3, the offline learning method of vehicle of the tire pressure monitoring system of the present embodiment offer is fitted
For the offline learning device of vehicle of the tire pressure monitoring system shown in Fig. 1, specific method is as follows:
Step S101, the movement of platform bearer longitudinal direction of car, the second wake module detect the vehicle right side
Tire when, the first wake-up signal is sent to the right-hand wheel fetal hair, so that the tire pressure in the right side tire
Sensor sends the first monitoring information to rack;
Specifically, platform bearer vehicle moves (i.e. longitudinal) towards the transmission direction of platform, work as vehicle
Off-front wheel or off hind wheel arrive at the second wake module where position when, the second wake module detects this
The off-front wheel or off hind wheel of vehicle, and send low frequency wake-up signal (i.e. first to the off-front wheel or off hind wheel
Wake-up signal), after the tyre pressure sensor in off-front wheel or off hind wheel receives the first wake-up signal, to wheel
The information such as temperature, pressure in tire are monitored, and by monitoring result and the Identity Code one of its own
Rise and deliver to rack (will the first monitoring information send to rack).
Step S102, when the first wake module detects the tire of the vehicle left side, to the left side
Tire sends the second wake-up signal, so that the tyre pressure sensor in the left side tire sends to the rack
Second monitoring information, wherein, first monitoring information and second monitoring information are included to deserved
The identity number (ID) of tyre pressure sensor;
When the position where the near front wheel or left rear wheel of vehicle arrive at the first wake module, first wakes up mould
Block, the second wake-up signal is sent to the near front wheel or left rear wheel, and the near front wheel or left rear wheel receive second
After wake-up information number, the information such as the temperature in tire, pressure are monitored, and by monitoring result and its
The Identity Code of itself sends to rack (will the second monitoring information send to rack) together.
Step S103, the rack according to first wake module and the second wake module position
The corresponding learning strategy of relation and first monitoring information and second monitoring information generation study letter
Breath, and the learning information is sent to the CSRC module of the vehicle.
Specifically, after the first monitoring information for receiving of rack or the second monitoring information, according to prestoring
Learning strategy corresponding with first wake module and the second wake module position relationship, by this
First monitoring information or the second monitoring information are stored in the storage region corresponding to corresponding tire, until machine
Cabinet receives the monitoring information that the tyre pressure sensor in all tire sends, and forms learning information.Rack is given birth to
Into after learning information, the learning information is sent to the center prison in vehicle by wired or wireless mode
Control module.In the present embodiment, it is preferred to use CAN sends learning information to the CSRC of vehicle
Module.Wherein, it is above-mentioned corresponding with first wake module and the second wake module position relationship
Learning strategy is the position relationship according to the first wake module and the second wake module, by the first wake module
With the trigger sequence of tyre pressure sensor in the trigger sequence of the second wake module, and corresponding vehicle tyre
It is stored in advance in rack, in this way, the monitoring information that rack will can be received sequentially is sequentially stored in phase
In answering the corresponding storage region of tire.For example, the longitudinal direction between the first wake module and the second wake module
Distance takes the lead in detecting less than the wheelspan between vehicle front and back wheel, also, the first wake module location
To the left side tire of vehicle, then rack receives the order of monitoring information, is corresponding in turn to the inspection for the near front wheel
Measurement information, the monitoring information of off-front wheel, the monitoring information of left rear wheel, the monitoring information of off hind wheel.If the
Fore-and-aft distance between one wake module and the second wake module is more than the wheelspan between vehicle front and back wheel, and
And, the location of first wake module takes the lead in detecting the left side tire of vehicle, then rack receives prison
The order of measurement information, is corresponding in turn to detection information, the monitoring information of left rear wheel, the off-front wheel for the near front wheel
Monitoring information, the monitoring information of off hind wheel.
The offline learning method of vehicle of the tire pressure monitoring system that the present embodiment is provided, its advantage and Fig. 1
The beneficial effect of shown device is similar to, and repeats no more herein.
Example IV
Fig. 4 is the flow of the offline learning method of vehicle of the tire pressure monitoring system that the embodiment of the present invention four is provided
Schematic diagram, as shown in figure 4, the offline learning method of vehicle of the tire pressure monitoring system of the present embodiment offer is fitted
For device as shown in Figure 2, its specific executive mode is as follows:
Step S201, first wake module and second wake module are moved respectively set described the
Position of position and second wake module of one wake module on the first slideway on the second slideway
Put, so that the fore-and-aft distance between first wake module and second wake module is less than the car
Front and back wheel between wheelspan.Specifically, set the first wake module apart from vehicle original position compared with
Closely.
Step S202, VIN yards that the vehicle is scanned using VIN yards of scanner, and will be described VIN yards
Send to the rack;
Step S203, the movement of platform bearer longitudinal direction of car, the first wake module detect the vehicle left side
Tire when, the second wake-up signal is sent to the left side wheels fetal hair, so that the tire pressure in the left side tire
Sensor sends the second monitoring information to the rack;
Step S204, when the second wake module detects the tire of the vehicle right side, to the right side
Tire sends the first wake-up signal, so that the tyre pressure sensor in the right side tire sends first to rack
Monitoring information, wherein, first monitoring information and second monitoring information are included to deserved tire pressure
The identity number (ID) of sensor;
Step S205, the rack according to first wake module and the second wake module position
The corresponding learning strategy of relation and first monitoring information and second monitoring information generation study letter
Breath, and the learning information is sent into the CSRC module of the VIN yards of corresponding vehicle.
Specifically, when the offline study of the TPMS system vehicles for carrying out vehicle, first by VIN yards of scanning
Device is scanned to VIN yards of vehicle, and will scan the VIN yards of transmission for obtaining to rack, and rack is to this
VIN yards is stored, and when platform bearer vehicle movement, first is called out apart from vehicle original position is nearer
Awake module takes the lead in triggering the tyre pressure sensor in vehicle the near front wheel so that tyre pressure sensor sends to rack and wraps
Monitoring information containing its identification information, rack stores the monitoring information after receiving the monitoring information
To in the corresponding storage region of the corresponding the near front wheel of VIN yards with the vehicle, complete tire pressure in the near front wheel and pass
Sensor is matched with the near front wheel, and following rack is sequentially received tyre pressure sensor in off-front wheel, left rear wheel
The prison comprising sensor identification information that tyre pressure sensor sends in interior tyre pressure sensor and off hind wheel
Measurement information, and will receive each monitoring information storage arrive and VIN yards of the vehicle corresponding corresponding tire
In the storage region of position, to generate learning information.The study that last rack will be generated by CAN
Information is sent to the VIN yards of central control module of corresponding vehicle, so as to complete the TPMS systems of vehicle
The offline study of vehicle.
The offline learning method of vehicle of the tire pressure monitoring system that the present embodiment is provided, its advantage and Fig. 2
The beneficial effect of shown device is similar to, and repeats no more herein.
Finally it should be noted that:Various embodiments above is merely illustrative of the technical solution of the present invention, rather than right
Its limitation;Although being described in detail to the present invention with reference to foregoing embodiments, this area it is common
Technical staff should be understood:It can still modify to the technical scheme described in foregoing embodiments,
Or equivalent is carried out to which part or all technical characteristic;And these modifications or replacement, and
The scope of the essence disengaging various embodiments of the present invention technical scheme of appropriate technical solution is not made.
Claims (9)
1. a kind of offline learning device of the vehicle of tire pressure monitoring system, it is characterised in that including:
One carries out the platform of the offline study of TPMS vehicles, one first wake module, one for vehicle
Two wake modules, a rack;
Wherein, first wake module is located at the left side of the platform, and second wake module is located at
The right side of the platform, the lateral separation between first wake module and second wake module is big
In the front tread and rear tread of the vehicle, first wake module does not exist with second wake module
On same transverse horizontal line;Fore-and-aft distance between first wake module and second wake module
It is not equal to the wheelspan between the vehicle front and back wheel, first wake module and second wake module
For waking up the tyre pressure sensor in tire;
The rack, for basis and first wake module and the second wake module position relationship
The prison comprising sensor identity number (ID) that corresponding learning strategy and each tyre pressure sensor send
Measurement information, generates learning information, and the learning information is sent to the CSRC module of the vehicle.
2. the offline learning device of the vehicle of tire pressure monitoring system according to claim 1, its feature exists
In also including:VIN yards of scanner;
The VIN yards of scanner, VIN yards for scanning the vehicle, and described VIN yards is sent
To the rack;
The rack, specifically for the learning information is sent into the VIN yards of corresponding vehicle
Centre monitoring module.
3. the offline learning device of the vehicle of tire pressure monitoring system according to claim 1, its feature exists
In the rack is sent the learning information by CAN to the CSRC module of the vehicle.
4. the offline learning device of the vehicle of tire pressure monitoring system according to claim 1, its feature exists
In the platform includes the first slideway and positioned at the platform dextral second positioned at the platform sinistral
Slideway, first wake module is slidably installed on first slideway, and second wake module is slidably installed in
On second slideway.
5. the offline learning device of the vehicle of tire pressure monitoring system according to claim 4, its feature exists
In the fore-and-aft distance between first wake module and second wake module is less than the vehicle
Wheelspan between front and back wheel.
6. a kind of offline learning method of the vehicle of tire pressure monitoring system, it is characterised in that including:
Platform bearer longitudinal direction of car is moved, when the second wake module detects the tire of the vehicle right side,
The first wake-up signal is sent to the right-hand wheel fetal hair, so that the tyre pressure sensor in the right side tire is to machine
Cabinet sends the first monitoring information;
When the first wake module detects the tire of the vehicle left side, second is sent to the left side wheels fetal hair
Wake-up signal, so that the tyre pressure sensor in the left side tire sends the second monitoring information to the rack,
Wherein, first monitoring information and second monitoring information include the body to deserved tyre pressure sensor
Part identification number (ID);
The rack is according to corresponding with first wake module and the second wake module position relationship
Learning strategy and first monitoring information and second monitoring information generation learning information, and by institute
Learning information is stated to send to the CSRC module of the vehicle.
7. method according to claim 6, it is characterised in that also include:
VIN yards of the vehicle is scanned using VIN yards of scanner, and described VIN yards is sent to the machine
Cabinet;
The rack sends the learning information to the CSRC module of the VIN yards of corresponding vehicle
In.
8. method according to claim 6, it is characterised in that described to send the learning information
To the CSRC module of the vehicle, including:
The learning information is sent by CAN to the CSRC module of the vehicle.
9. method according to claim 6, it is characterised in that the platform bearer longitudinal direction of car is moved
Before dynamic, also include:
First wake module is moved respectively and second wake module sets first wake module
The position of position and second wake module on the first slideway on the second slideway, so that described
Fore-and-aft distance between first wake module and second wake module less than the vehicle front and back wheel it
Between wheelspan.
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CN201510892029.XA CN106842906A (en) | 2015-12-07 | 2015-12-07 | The offline learning device of vehicle and learning method of tire pressure monitoring system |
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CN201510892029.XA CN106842906A (en) | 2015-12-07 | 2015-12-07 | The offline learning device of vehicle and learning method of tire pressure monitoring system |
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CN110956240A (en) * | 2019-12-04 | 2020-04-03 | 东风汽车集团有限公司 | Direct type tire pressure sensor learning system, online learning system and method |
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CN110091858A (en) * | 2018-01-30 | 2019-08-06 | 大陆汽车电子(长春)有限公司 | The self-learning method of engine on hybrid electric vehicle |
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CN114654946A (en) * | 2022-03-29 | 2022-06-24 | 深圳富士伟业科技有限公司 | Positioning method for activating tire pressure monitor |
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