CN206451037U - A kind of offline diagnostic configuration system of vehicle - Google Patents

A kind of offline diagnostic configuration system of vehicle Download PDF

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Publication number
CN206451037U
CN206451037U CN201621466469.5U CN201621466469U CN206451037U CN 206451037 U CN206451037 U CN 206451037U CN 201621466469 U CN201621466469 U CN 201621466469U CN 206451037 U CN206451037 U CN 206451037U
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China
Prior art keywords
obd
transceivers
vehicle
quick response
response code
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CN201621466469.5U
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Chinese (zh)
Inventor
董建设
王春凤
丁立平
孙灿
张进明
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BAIC Group ORV Co ltd
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Beijing Automotive Research Institute Co Ltd
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Priority to CN201621466469.5U priority Critical patent/CN206451037U/en
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Abstract

The utility model provides a kind of offline diagnostic configuration system of vehicle.Including:Multiple OBD transceivers, each OBD transceivers are matched with carload, the first Quick Response Code of each OBD transceivers correspondence, vehicle allocation list one second Quick Response Code of correspondence of each vehicle;Two-dimensional code scanning instrument, obtain first Quick Response Code and with second Quick Response Code;Wireless routing, wireless connection is carried out with the two-dimensional code scanning instrument and the OBD transceivers respectively;Diagnostic configuration rack, is obtained by the wireless routing and receives first Quick Response Code and second Quick Response Code, and by the wireless routing to the OBD transceivers send configuration command signal.The offline diagnostic configuration system of vehicle in the utility model embodiment improves the offline allocative efficiency of vehicle, and a diagnosis rack and a producing line workman can configure many chassis simultaneously, so as to reduce equipment cost and cost of labor.Used in addition, the system is easy to extend and moved.

Description

A kind of offline diagnostic configuration system of vehicle
Technical field
The utility model is related to field of automobile, more particularly to a kind of offline diagnostic configuration system of vehicle.
Background technology
In vehicle factory, offline vehicle is configured by offline diagnostic equipment.
In the prior art, common practice is can only to configure a car within a period of time using a detecting instrument.Institute In the offline workshop section of vehicle, to be required for configuring multiple diagnostic equipments and several workmans cooperating simultaneously.So causing lower radiodiagnosis x Working procedure is less efficient, larger to testing staff and detecting instrument demand, is unfavorable for cost-effective.
Utility model content
In order to overcome a detecting instrument in prior art to cause offline examine by one car of configuration within a period of time The problem of disconnected inefficiency, the utility model provides a kind of offline diagnostic configuration system of vehicle.
In order to solve the above-mentioned technical problem, the utility model is adopted the following technical scheme that:
The utility model provides a kind of offline diagnostic configuration system of vehicle, including:
Multiple OBD transceivers, each OBD transceivers are matched with carload, the first Quick Response Code of each OBD transceivers correspondence, Vehicle allocation list one second Quick Response Code of correspondence of each vehicle;
Two-dimensional code scanning instrument, obtain first Quick Response Code and with second Quick Response Code;
Wireless routing, wireless connection is carried out with the two-dimensional code scanning instrument and the OBD transceivers respectively;
Diagnostic configuration rack, is obtained by the wireless routing and receives first Quick Response Code and second Quick Response Code, And by the wireless routing to the OBD transceivers send configuration command signal.
Furthermore, it is understood that in the offline diagnostic configuration system of described vehicle, each OBD transceivers include:
Housing;
Data processor;
WIFI transceivers, are connected with the data processor;The data processor and WIFI transceivers difference position In in the housing.
Furthermore, it is understood that in the offline diagnostic configuration system of described vehicle, each OBD transceivers also include:
Standard OBD data-interfaces, are connected with the data processor.
Furthermore, it is understood that in the offline diagnostic configuration system of described vehicle, first Quick Response Code is pasted on the housing Outer surface.
The beneficial effects of the utility model are:The offline diagnostic configuration system of vehicle in the utility model embodiment improves whole The offline allocative efficiency of car, a diagnosis rack and a producing line workman can configure many chassis simultaneously, so as to reduce equipment Cost and cost of labor.Used in addition, the system is easy to extend and moved.
Brief description of the drawings
Fig. 1 represents the composition connection diagram of the offline diagnostic configuration system of vehicle in the utility model embodiment;
Fig. 2 represents one of structural scheme of mechanism of OBD transceivers in the utility model embodiment;
Fig. 3 represents two of the structural scheme of mechanism of OBD transceivers in the utility model embodiment;
Fig. 4 represents the workflow of the offline diagnostic configuration system of vehicle in the utility model embodiment.
Embodiment
To make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing and specific implementation The utility model is described in detail example.
Shown in reference picture 1, Fig. 2 and Fig. 3, a kind of offline diagnostic configuration system of vehicle is provided in the utility model embodiment System, including:Multiple OBD transceivers 1, each OBD transceivers 1 are matched with carload 10, each correspondence of OBD transceivers 1 the one or two Tie up code 105, vehicle allocation list one second Quick Response Code of correspondence of each vehicle 10;Two-dimensional code scanning instrument 2, obtains first two dimension Code 105 and with second Quick Response Code;Wireless routing 3, enters respectively with the two-dimensional code scanning instrument 2 and the OBD transceivers 1 Row wireless connection;Diagnostic configuration rack 4, is obtained by the wireless routing 3 and receives first Quick Response Code and the described 2nd 2 Code is tieed up, and by the wireless routing 3 to the send configuration command signal of OBD transceivers 1.
Specifically, in the system of the present embodiment, a diagnostic configuration rack 4 can pass through wireless routing 3 and multiple OBD Transceiver 1 sets up wireless communication connection.Wherein, two-dimensional code scanning instrument 2 will can obtain first Quick Response Code 105 and with institute State the second Quick Response Code to be delivered in diagnostic configuration rack 4 by wireless network, used for diagnostic configuration rack 4.Diagnostic configuration machine Cabinet 4 only needs to one, and a producing line workman can complete all vehicle configuration works.In addition, the automobile of radiodiagnosis x under accession During quantity, it is only necessary to by increasing OBD receiver quantity, it is possible to realize to increasing the offline diagnostic configuration of vehicle.Need to move Dynamic weight of equipment diminishes, and producing line workman is when replacing needs the vehicle configured, it is only necessary to mobile OBD transceivers 1 and carrying two Code scanner 2 is tieed up, and the two equipment are all communicated by wireless connection with diagnostic configuration rack 4, are easy to Use and arrange.
Wherein, wireless routing 3 links together all devices by wireless network.Two-dimensional code scanning instrument 2 is used for scanning OBD The second Quick Response Code on first Quick Response Code 105 of transceiver 1 and the configuration file of vehicle 10, and two 2 D code informations are sent To diagnostic configuration rack 4.Diagnostic configuration rack 4 is responsible for all diagnostic message processing, and diagnostic instruction is issued.Two-dimensional code scanning After second Quick Response Code of the allocation list of the scanning vehicle of instrument 2, by wireless routing 3, vehicle configuration needs data are sent to diagnosis Rack 4 is configured, diagnostic configuration rack 4 is configured according to the vehicle got, configuration project is calculated, by wireless routing 3 configuration item Obtained configuration item instruction is passed to vehicle by mesh instruction issuing to OBD transceivers 1, OBD transceivers 1 by OBD interfaces 10, vehicle 10 performs configuration order, completes whole vehicle functions configuration.
Furthermore, it is understood that each OBD transceivers 1 include:Housing 104;Data processor 101;WIFI transceivers 102, it is connected with the data processor 101;The data processor 101 and the WIFI transceivers 102 are located at described respectively In housing 104.Data processor 101 is a kind of CAN transceiver, you can to receive the bus diagnostic number of the transmission of vehicle 10 According to can also be to the send configuration item instruction of vehicle 10.
Furthermore, it is understood that each OBD transceivers 1 also include:Standard OBD data-interfaces 103, with the data processing Device 101 is connected.Standard OBD data-interfaces 103 are a kind of diagnosis interfaces of international standard, it is possible to achieve led to the data of vehicle 10 News, vehicle 10 is transferred to by the configuration item instruction that diagnostic configuration rack 4 is sent to OBD transceivers 1.
Furthermore, it is understood that the first Quick Response Code 105 is pasted on the outer surface of the housing 104.Each OBD transceivers 1 have only An one OBD transceiver 1, and the OBD transceivers 1 of each OBD transceiver 1 differ.OBD transceivers 1 are pasted onto housing 104 above the folds, can facilitate by the barcode scanning of two-dimensional code scanning instrument 2.This first Quick Response Code 105 is stored up with decoding key type pattern simultaneously In the data processor 101 that there is OBD transceivers 1, it is therefore an objective to this OBD transceiver 1 is normally decrypted diagnostic configuration machine Cabinet 4 is instructed to the diagnostic configuration that it sends.
With further reference to shown in Fig. 4, the utility model embodiment is discussed in detail with reference to the specific course of work The offline diagnostic configuration system of vehicle.
Two-dimensional code scanning instrument 2 according to OBD transceivers 1, vehicle allocation list, OBD transceivers 1, vehicle allocation list ... it is suitable Sequence, scans Quick Response Code above successively.
Two-dimensional code scanning instrument 2 is according to typing order, by the first Quick Response Code 105 of OBD transceivers 1 and corresponding vehicle Second Quick Response Code of 10 allocation list sets up incidence relation, and breaks into a packet.As long as two-dimensional code scanning instrument 2 completes one Packet, it is possible to sent by WIFI.
Diagnostic configuration rack 4 receives the packet of the transmission of two-dimensional code scanning instrument 2 at any time.And parse the OBD in packet The sequence number and allocation list demand of transceiver 1.
Diagnostic configuration rack 4 calls the configuration-direct in internal database, and receive and dispatch according to OBD according to allocation list demand Data are encrypted by the sequence number of device 1, it is ensured that the OBD transceivers 1 only specified can be decrypted.
Diagnostic configuration rack 4 sends data.All OBD transceivers 1 can receive the hair of diagnostic configuration rack 4 The encryption data sent, but the OBD transceivers 1 of only assigned serial number can decrypt.
The OBD transceivers 1 of assigned serial number are decrypted, and are communicated with vehicle 10, and vehicle 10 performs diagnostic configuration instruction.
After the completion of vehicle 10 is configured, the instruction that the send configuration of OBD transceivers 1 is completed.The cabinet of diagnostic configuration rack 4, which is received, matches somebody with somebody Put after the instruction of completion, complete the configuration work of this vehicle, and carry out the holding state of offline configuration next time.
Above-described is preferred embodiment of the present utility model, it should be pointed out that for the ordinary person of the art For, some improvements and modifications can also be made under the premise of principle described in the utility model is not departed from, these improve and moistened Decorations are also in protection domain of the present utility model.

Claims (4)

1. a kind of offline diagnostic configuration system of vehicle, it is characterised in that including:
Multiple OBD transceivers, each OBD transceivers are matched with carload, the first Quick Response Code of each OBD transceivers correspondence, each Vehicle allocation list one second Quick Response Code of correspondence of vehicle;
Two-dimensional code scanning instrument, obtain first Quick Response Code and with second Quick Response Code;
Wireless routing, wireless connection is carried out with the two-dimensional code scanning instrument and the OBD transceivers respectively;
Diagnostic configuration rack, is obtained by the wireless routing and receives first Quick Response Code and second Quick Response Code, and led to The wireless routing is crossed to the OBD transceivers send configuration command signal.
2. the offline diagnostic configuration system of vehicle according to claim 1, it is characterised in that each OBD transceivers bag Include:
Housing;
Data processor;
WIFI transceivers, are connected with the data processor;The data processor and the WIFI transceivers are located at institute respectively State in housing.
3. the offline diagnostic configuration system of vehicle according to claim 2, it is characterised in that each OBD transceivers are also Including:
Standard OBD data-interfaces, are connected with the data processor.
4. the offline diagnostic configuration system of vehicle according to claim 2, it is characterised in that first Quick Response Code is pasted on The outer surface of the housing.
CN201621466469.5U 2016-12-29 2016-12-29 A kind of offline diagnostic configuration system of vehicle Active CN206451037U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201621466469.5U CN206451037U (en) 2016-12-29 2016-12-29 A kind of offline diagnostic configuration system of vehicle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201621466469.5U CN206451037U (en) 2016-12-29 2016-12-29 A kind of offline diagnostic configuration system of vehicle

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CN206451037U true CN206451037U (en) 2017-08-29

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108803577A (en) * 2018-07-26 2018-11-13 深圳市元征科技股份有限公司 A kind of diagnostic method, host computer and slave computer
CN113050601A (en) * 2021-03-22 2021-06-29 深圳市元征科技股份有限公司 Vehicle offline diagnosis method and device, diagnosis equipment and storage medium

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108803577A (en) * 2018-07-26 2018-11-13 深圳市元征科技股份有限公司 A kind of diagnostic method, host computer and slave computer
CN113050601A (en) * 2021-03-22 2021-06-29 深圳市元征科技股份有限公司 Vehicle offline diagnosis method and device, diagnosis equipment and storage medium

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Effective date of registration: 20200429

Address after: 101300 Zhaofeng Town, Shunyi District, Beijing Zhaofeng industrial base Tongxin Road No. 1

Patentee after: BAIC GROUP ORV Co.,Ltd.

Address before: 101300, 99, Shuanghe Avenue, Renhe Town, Beijing, Shunyi District

Patentee before: BEIJING AUTOMOBILE RESEARCH GENERAL INSTITUTE Co.,Ltd.