CN113485161B - Intelligent diagnostic device capable of measuring and diagnosing three-dimensional virtual simulation automobile faults - Google Patents

Abstract

The invention provides an intelligent diagnostic apparatus capable of measuring and diagnosing three-dimensional virtual simulation automobile faults, which is characterized in that: a touch circuit board is arranged below the touch display screen of the detector, the touch circuit board is connected with a computer host through a data and power supply integrated interface, and the computer host is connected with the touch display screen of the training platform; the computer host is provided with software for measuring and diagnosing three-dimensional virtual simulation automobile faults; and operating and detecting through a menu on a touch display screen of the touch detector, and feeding back data such as fault codes, data streams and the like in the three-dimensional automobile fault scene to the fault detector by the computer host, and displaying the data to the display screen of the intelligent fault detector. The invention can enable students to detect three-dimensional virtual simulation automobile faults with the same operation and detection effect as the real fault detector, can improve learning interest and can save purchasing cost.

Description

Intelligent diagnostic device capable of measuring and diagnosing three-dimensional virtual simulation automobile faults

Technical Field

The invention mainly relates to the field of simulation teaching equipment, in particular to an intelligent diagnostic apparatus for diagnosing automobile fault codes and data streams of various three-dimensional virtual simulation automobile types.

Background

At present, the automobile fault detector on the market is a detector for measuring actual automobile faults, and the actual automobile equipment and related faults corresponding to the setting are needed to be used for measurement, so that students need various consumables required for experiments in the process of experiments, great experiment hardware cost is brought to professional institutions, and the students cannot practice and operate repeatedly.

Disclosure of Invention

The invention provides an intelligent diagnostic instrument capable of measuring and diagnosing three-dimensional virtual simulation automobile faults, which aims to enable students to measure fault codes and data streams related to different automobile types with the same operation and measurement effect as those of a real fault detector, so that learning interest of the students can be improved, overall purchase cost of schools can be saved, and consumable cost of experiments of the students can be saved.

The technical scheme adopted for solving the technical problems is as follows:

an intelligent diagnostic apparatus capable of measuring and diagnosing three-dimensional virtual simulation automobile faults is characterized in that:

A touch circuit board is arranged below the touch display screen of the detector, the touch circuit board is connected with a computer host through a data and power supply integrated interface, and the computer host is connected with the touch display screen of the training platform;

The computer host is provided with software for measuring and diagnosing three-dimensional virtual simulation automobile faults;

Firstly, selecting a vehicle type through software of a computer host, setting a fault point, and displaying a three-dimensional virtual simulation vehicle on a touch display screen of a training platform after the fault point is set;

when the three-dimensional virtual simulation fault scene of the automobile starts to be detected:

the three-dimensional virtual simulation automobile is operated by touching the display screen through the touch training platform;

touching a menu on a display screen through a touch detector to operate;

When the fault detector detects the fault code and the data stream, the operation detection is carried out by touching a menu on the display screen through the touch detector, and the computer host feeds back the fault code, the data stream and other data in the three-dimensional automobile fault scene to the fault detector and displays the fault code, the data stream and other data on the display screen of the intelligent fault detector.

The computer host is provided with a plurality of sets of three-dimensional virtual simulation automobile fault software, each set of three-dimensional virtual simulation automobile fault software corresponds to a model, after the model is selected, the computer host displays the three-dimensional virtual simulation automobile on the touch display screen of the training platform according to the model data, and related data are displayed on the touch display screen of the touch detector.

The computer host is connected with the touch circuit boards of the intelligent fault detectors.

The invention has the advantages that:

The intelligent fault detector capable of measuring the three-dimensional virtual simulation faults can generate the three-dimensional virtual simulation automobile fault scene at low cost without a physical object, so that students can detect the three-dimensional virtual simulation scene with the same operation and detection effect as those of a real detector, the learning interest of the students can be improved, the integral purchasing cost of schools can be saved, and the consumable cost of the students for experiments can be saved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is an overall appearance diagram of an intelligent automobile fault detector;

FIG. 2 is a selection interface displayed on a touch display screen of the intelligent automobile fault detector;

FIG. 3 is a functional interface displayed on a touch display screen of the intelligent automobile fault detector after Toyota vehicle selection;

FIG. 4 is a data flow displayed on a touch display screen of the intelligent automobile fault detector after Toyota vehicle selection;

FIG. 5 is a fault code displayed on a touch display screen of the intelligent automobile fault detector after Toyota vehicle selection;

FIG. 6 is a virtual car displayed on a training stand touch screen behind the Toyota vehicle;

FIG. 7 is a functional interface displayed on a touch display screen of the intelligent automobile fault detector after selecting the Biedi automobile model;

FIG. 8 is a diagnostic interface displayed on a touch display screen of the intelligent vehicle fault detector after selecting the Biedi vehicle model;

fig. 9 is an overall construction diagram of the present invention.

Detailed Description

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the description will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other embodiments may be obtained according to these drawings without inventive effort for a person skilled in the art.

The characters, numbers, symbols, etc. on the figures are all displayed on the screen, panel, film for visual explanation.

As shown in fig. 1:

the invention relates to equipment of an intelligent fault detector. The appearance of the device is provided with a data and power two-in-one interface, and a detector touch display screen 1 is arranged below the interface.

A switch 2 is arranged above the touch display screen 1 of the detector, and the intelligent fault detector can be turned on and off by pressing the switch 2.

The appearance of the intelligent fault detector is identical to that of the fault detector in actual use.

The touch circuit board 1' is arranged below the touch display screen 1 of the detector, as shown in fig. 9, the touch circuit board 1' is connected with the computer host 200 through the interface 2' integrating data and power, and the computer host 200 is connected with the touch display screen 300 of the training platform.

The computer host 200 has software for measuring and diagnosing three-dimensional virtual simulation automobile faults.

The host computer 200 may be connected to a plurality of displays for use by students so that a plurality of students may practice at the same time.

When in actual use, the method comprises the following steps:

As shown in fig. 3:

the teacher selects the vehicle model through the software of the host computer 200, sets the fault point, and sends the fault point to the touch display screen 300 of the training platform after the fault point is set, as shown in fig. 3, to display the three-dimensional virtual simulation vehicle 100.

The computer host 200 may be connected to a plurality of touch circuit boards 1' of intelligent fault detectors for students.

According to the setting of different fault points of different vehicle types, the change of fault codes and data streams is formed.

When the intelligent fault detector starts to be used, firstly, the interface of two-in-one of data and power is connected with the computer host 200, then the switch 2 is pressed, and the display screen 1 is lightened.

When the three-dimensional virtual simulation fault scene of the automobile starts to be detected:

The student needs to touch the display screen 300 through the touch training platform to perform preliminary operation on the three-dimensional virtual simulation automobile 100, and needs to operate according to a real operation process, for example, the door needs to be opened in the actual operation, the door displayed on the touch display screen 300 can be touched, the touch display screen 300 senses a position signal and sends the position signal to the computer host 200, the computer host 200 sends out an instruction, and the three-dimensional virtual simulation automobile 100 on the touch display screen 300 opens the door; in actual operation, the engine cover needs to be opened, the engine cover displayed on the touch display screen 300 can be touched, the touch display screen 300 senses a position signal and sends the position signal to the computer host 200, the computer host 200 sends an instruction, the three-dimensional virtual simulation automobile 100 on the touch display screen 300 is opened, and similarly, a student can operate to open or install components of the three-dimensional virtual simulation automobile 100.

The student operates the detector through the menu on the touch display screen 1 of the touch detector, firstly, the automobile category as shown in fig. 2 is displayed on the touch display screen 1 of the detector, the student touches the automobile category mark, the touch circuit board 1' sends the position signal to the computer host 200 for judgment, and then the student enters the function selection interface of fig. 3 after correctly, and then the student selects commands such as diagnosis, maintenance and the like.

The effect after touching is fed back to the touch display screen 1 of the detector by the computer host 200 for displaying, and the display effect is the same as that of a real fault detector.

When the operation is performed until the fault code and the data stream are required to be detected by the fault detector, the operation detection is performed by touching a menu on the display screen 1 through the touch detector.

The detected fault code is shown in fig. 5.

The operation is the same as above if the data flow of the three-dimensional virtual simulation automobile fault scene is to be measured. The detected data flow is shown in fig. 4.

The electric vehicle can also be diagnosed and overhauled.

The function selection interface of the electric vehicle is shown in fig. 7, and the interface at the time of detection is shown in fig. 8.

The computer host 200 is provided with a plurality of sets of three-dimensional virtual simulation automobile fault software, each set of three-dimensional virtual simulation automobile fault software corresponds to a model, after the model is selected, the computer host 200 displays the three-dimensional virtual simulation automobile 100 on the touch display screen 300 of the training platform according to the model data, and related data are displayed on the touch display screen 1 of the touch detector.

The software of the present invention can be designed by those skilled in the art based on the prior art and conventional software.

The invention is designed for solving the problems of measuring the data such as fault codes, data streams and the like related to different faults of different vehicle types, and is characterized in that:

1) The device has the appearance identical to that of a real fault detector, and a display screen for displaying detection results and a power switch key are arranged on the device;

2) After the fault detector is connected with the host computer, the corresponding vehicle type is selected and detected through operating the touch screen, the fault code is detected, and the corresponding measurement result can be displayed on the display screen of the equipment;

The object detected by the intelligent fault detector is a three-dimensional virtual simulation automobile repair scene displayed on a display, and is not a real automobile. The design and use mode of the device belongs to the first time in China, and fills the blank that real devices are used for measuring fault codes and data streams of different three-dimensional virtual simulation vehicles in China.

The invention has the following advantages:

1) The appearance of the intelligent fault detector is identical to that of a real fault detector, so that students can not be familiar with a new device;

2) The fault code and the data flow of the three-dimensional virtual simulation automobile can be measured, so that students can detect the three-dimensional virtual simulation automobile repair scene with the same operation and detection effect as those of a real fault detector, the learning interest of the students can be improved, the integral purchasing cost of schools can be saved, and the consumable cost of the students for experiments can be saved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (1)

1. An intelligent diagnostic apparatus capable of measuring and diagnosing three-dimensional virtual simulation automobile faults is characterized in that: a touch circuit board is arranged below the touch display screen of the detector, the touch circuit board is connected with a computer host through a data and power supply integrated interface, and the computer host is connected with the touch display screen of the training platform; the computer host is provided with software for measuring and diagnosing three-dimensional virtual simulation automobile faults;

Firstly, selecting a vehicle type through software of a computer host, setting a fault point, and displaying a three-dimensional virtual simulation vehicle on a touch display screen of a training platform after the fault point is set; when the three-dimensional virtual simulation fault scene of the automobile starts to be detected: the three-dimensional virtual simulation automobile is operated by touching the display screen through the touch training platform; touching a menu on a display screen through a touch detector to operate; when the operation fault detector detects fault codes and data streams, the operation detection is carried out by touching a menu on a display screen through the touch detector, and the computer host feeds back the fault codes and the data streams in the three-dimensional automobile fault scene to the fault detector and displays the fault codes and the data streams on the display screen of the intelligent fault detector;

The computer host is provided with a plurality of sets of three-dimensional virtual simulation automobile fault software, each set of three-dimensional virtual simulation automobile fault software corresponds to a model, after the model is selected, the computer host displays the three-dimensional virtual simulation automobile on the touch display screen of the training platform according to model data, and related data are displayed on the touch display screen of the touch detector;

The computer host is connected with the touch circuit boards of the intelligent fault detectors.