CN114637240A

CN114637240A - Intelligent control system for automobile key copying and manufacturing

Info

Publication number: CN114637240A
Application number: CN202210274695.7A
Authority: CN
Inventors: 秦元; 蔡子亮; 郭红宾; 韩松
Original assignee: Xuchang University
Current assignee: Xuchang University
Priority date: 2022-03-21
Filing date: 2022-03-21
Publication date: 2022-06-17

Abstract

The invention relates to the field of automobile key processing, and discloses an intelligent control system for automobile key copying and manufacturing, which comprises: the intelligent control system comprises a main control module, a power supply module, a motor driving module, a storage module and a human-computer interaction module, wherein the power supply module provides working voltage for the system, the motor driving module is connected with the main control module and used for driving an X, Y, Z-axis motion motor of a probe to control the probe to copy an automobile key in a clamping groove or process a key mold in the clamping groove, the storage module is connected with the main control module and used for storing user authority information data and copied key information data, and one end of the human-computer interaction module is connected with the main control module and used for inputting user authority information and operating the intelligent control system; the invention can be used for copying the intelligent key by members in a self-service way, simultaneously solves the problem that the key is lost and cannot be copied, and has good market application value.

Description

Intelligent control system for automobile key copying and manufacturing

Technical Field

The invention relates to the field of automobile key processing, in particular to an intelligent control system for automobile key copying and manufacturing.

Background

Along with the development of society, the family that owns the car is also more and more, and people often meet the condition of joining in marriage car key, when current car key is duplicated, need to arrive service center, contact staff, put the former car key on the processing machine on one side, put the mould on one side, duplicate, need the staff to go on, inconvenient, simultaneously, if the user key loses, just can not in time duplicate the key that loses.

Disclosure of Invention

Aiming at the defects of the existing automobile key processing system, the invention provides an intelligent control system for automobile key copying and manufacturing, which can be used for copying an intelligent key in a self-service manner by members and solving the problem that the key is lost and cannot be copied in time.

The technical scheme adopted by the invention for solving the technical problem is as follows:

there is provided an intelligent control system for automobile key duplication manufacture, comprising: the key data copying device comprises a main control module, a power supply module, a motor driving module, a storage module and a human-computer interaction module, wherein the power supply module provides working voltage for a system, one end of the human-computer interaction module is connected with the main control module, the main control module is connected with a controlled end of the motor driving module, a control end of the motor driving module is electrically connected with a three-axis moving module, the three-axis moving module is connected with a probe so as to copy key data of an original key in a clamping groove through the probe, and the probe is in communication connection with the storage module; the storage module is in communication connection with the main control module, the three-axis moving module is further connected with a processing head and used for processing the key blank in the clamping groove.

Further, the motor driving module includes: the driving main control circuit is connected with the main control module and used for exchanging data with the main control module and sending out a motor driving signal; the input end of the motor power control circuit is connected with the power module, and the control end of the motor power control circuit is connected with the driving main control circuit; the control end of the X-axis motor driving circuit is connected with the driving main control circuit, the input end of the X-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the X-axis motor driving circuit is connected with the X-axis stepping motor of the three-axis moving module; the control end of the Y-axis motor driving circuit is connected with the driving main control circuit, the input end of the Y-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the Y-axis motor driving circuit is connected with the Y-axis stepping motor of the three-axis moving module; and the control end of the Z-axis motor driving circuit is connected with the driving main control circuit, the input end of the Z-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the Z-axis motor driving circuit is connected with the Z-axis stepping motor of the three-axis moving module.

Further, motor power control circuit includes MOS pipe Q32 and triode Q33, MOS pipe Q32's source connects the power module, and the drain electrode does X axle, Y axle and the power supply of Z axle motor drive circuit, the grid through resistance R328 with triode Q33's collecting electrode links to each other, triode Q33's projecting pole ground connection, the base connects through resistance R335 drive master control circuit.

Further, an anti-reverse connection circuit is further arranged between the motor power supply control circuit and the power supply module and used for preventing the positive electrode and the negative electrode of the power supply from being reversely connected and protecting the X-axis stepping motor, the Y-axis stepping motor and the Z-axis stepping motor, the anti-reverse connection circuit comprises an MOS tube Q708, the grid electrode of the MOS tube Q708 is connected with the positive electrode of the power supply module through a resistor R794, the positive electrode of the power supply module is further connected with the positive electrode of the input end of the motor power supply control circuit, the drain electrode of the MOS tube Q708 is connected with the negative electrode of the power supply module, and the source electrode of the MOS tube Q708 is connected with the ground wire of the motor power supply control circuit.

Furthermore, the motor driving module further comprises an encryption module, one end of the encryption module is connected with the main control module, and the other end of the encryption module is connected with the driving main control circuit and used for encrypting data between the main control module and the motor driving module.

Further, the human-computer interaction module comprises: the LCD display screen interface circuit is respectively connected with the main control module and the display screen and provides an interactive interface for a user; and the touch screen control circuit is connected with the main control module and is used for the touch key operation of a user.

Furthermore, the intelligent control system further comprises a photoelectric switch detection circuit, wherein the output end of the photoelectric switch detection circuit is connected with the main control module, and the input end of the photoelectric switch detection circuit is externally connected with a photoelectric switch and used for detecting the coordinate position of the probe.

Furthermore, the intelligent control system further comprises a camera module, and the camera module is connected with the main control module and used for image monitoring.

Further, the intelligent control system further comprises a communication module, and the communication module comprises: the Bluetooth communication circuit is connected with the main control module and is used for communicating with a user mobile terminal to exchange authority information data and key information data; and the Ethernet communication circuit is connected with the main control module and is used for communicating with the cloud service platform, uploading data information and receiving remote authorization and key processing information instructions.

Further, the ethernet communication circuit includes: the Ethernet signal conversion circuit is connected with the main control module and is used for Ethernet signal conversion; the Ethernet signal isolation circuit is connected with the Ethernet signal conversion circuit and used for carrying out isolation filtering on the Ethernet signal to prevent interference; and the Ethernet interface circuit is connected with the Ethernet signal isolation circuit and is used for being externally connected with a network cable to carry out data transmission.

Compared with the prior art, the invention has the beneficial effects that:

when a user needs to copy key data, the invention only needs to put an automobile key to be copied, such as an original key, into the clamping groove and connect with the main control module through one end of the man-machine interaction module, so that the automobile key is not only used for inputting user authority information and operating the intelligent control system, but also convenient for selecting copying options through the man-machine interaction module, is connected with the controlled end of the motor driving module through the main control module so as to be convenient for the main control module to send a control instruction to the motor driving module, is electrically connected with the three-axis moving module through the control end of the motor driving module, and is connected with the probe so as to be convenient for the motor driving module to control the three-axis moving module to drive the probe to move around the original key in the clamping groove, so as to acquire and copy the data of the original key through the probe, and is in communication connection with the storage module through the probe, so that the copied key data is saved in the storage module.

When a user needs to manufacture a key with copied data, a key blank is placed into the card slot (firstly, the key data to be manufactured is selected through the human-computer interaction module and is in communication connection with the main control module through the storage module, so that the main control module can read the key data from the storage module, analyze the key data and send a control instruction to the motor driving module, the motor driving module controls and drives the three-axis moving module to drive the machining head to move so as to manufacture and machine the key blank in the card slot, because the user copies and stores the key data in advance, the original key does not need to be carried when the key is manufactured, the user can conveniently use the key, even if the key is lost, the key can be manufactured in time, in addition, the storage module can also store member authority data of the user, only the user inputs own authority password through the human-computer interaction module, and after the main control module reads the member authority data correctly, the operation authority can be obtained, and the unauthorized person can not operate the equipment, so that the use safety of the user is improved.

Drawings

FIG. 1 is a schematic diagram of the overall principle structure of the present invention;

FIG. 2 is a schematic diagram of the principle structure of the driving main control circuit of the present invention; FIG. 3 is a schematic diagram of the schematic structure of the X-axis motor driving circuit of the present invention; FIG. 4 is a schematic diagram of the schematic structure of an encryption module according to the present invention;

FIG. 5 is a schematic diagram of the principle structure of the motor power control circuit of the present invention;

FIG. 6 is a schematic diagram of the principle structure of the reverse-connection preventing circuit of the present invention;

FIG. 7 is a schematic diagram of the principle structure of the photoelectric switch detection circuit of the present invention;

FIG. 8 is a schematic diagram of the principle structure of the interface circuit of the LCD panel according to the present invention;

FIG. 9 is a schematic diagram of a schematic structure of a touch screen control circuit according to the present invention;

fig. 10 is a schematic structural diagram of a camera module according to the present invention;

FIG. 11 is a schematic diagram of a Bluetooth communication circuit according to the present invention;

fig. 12 is a schematic structural diagram of an ethernet communication circuit according to the present invention.

Detailed Description

In order to facilitate an understanding of the invention, the invention is described in more detail below with reference to the accompanying drawings and specific examples. The preferred embodiments of the present invention are shown in the drawings, but the present invention may be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail below with reference to the accompanying drawings. In one embodiment of the present invention, as shown in fig. 1, an embodiment of the present invention provides an intelligent control system for automobile key duplication manufacturing, including: the key data copying device comprises a main control module, a power supply module, a motor driving module, a storage module and a human-computer interaction module, wherein the power supply module provides working voltage for a system, one end of the human-computer interaction module is connected with the main control module, the main control module is connected with a controlled end of the motor driving module, a control end of the motor driving module is electrically connected with a three-axis moving module, the three-axis moving module is connected with a probe so as to copy key data of an original key in a clamping groove through the probe, and the probe is in communication connection with the storage module; the storage module is in communication connection with the main control module, and the three-axis moving module is further connected with a processing head and used for processing the key blank in the clamping groove.

It should be noted that, when the intelligent control system is used in an automobile service center, and a user needs to copy key data, the user only needs to put a key into the card slot, select a copy option through the human-computer interaction module, the master control module will send an instruction to the motor drive module, the motor drive module controls the action of the three-axis movement module, the probe walks along the key to learn, and stores the copied key data in the storage module, when the user needs to make a key, the key mold is put into the card slot, the human-computer interaction module selects the key data to be made, the master control module reads the key data from the storage module to analyze, and sends a control instruction to the motor drive module, the motor drive module controls the action of the three-axis movement module to complete the making of the key, and the storage module can also store member authority data of the user, only when the user inputs own authority password through the man-machine interaction module and the main control module reads the member authority data correctly, the operation authority can be obtained, the problem that a user key is lost is solved, and the safety and reliability are high.

In one embodiment of the present invention, the motor driving module includes: the driving main control circuit is connected with the main control module and used for exchanging data with the main control module and sending out a motor driving signal; the input end of the motor power control circuit is connected with the power module, and the control end of the motor power control circuit is connected with the driving main control circuit; the control end of the X-axis motor driving circuit is connected with the driving main control circuit, the input end of the X-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the X-axis motor driving circuit is connected with the X-axis stepping motor of the three-axis moving module; the control end of the Y-axis motor driving circuit is connected with the driving main control circuit, the input end of the Y-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the Y-axis motor driving circuit is connected with the Y-axis stepping motor of the three-axis moving module; and the control end of the Z-axis motor driving circuit is connected with the driving main control circuit, the input end of the Z-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the Z-axis motor driving circuit is connected with the Z-axis stepping motor of the three-axis moving module.

It should be noted that, in this embodiment, the driving main control circuit selects a chip U42 with a model number of STM32F429ZET6 to communicate with the main control module, and as shown in fig. 2, the driving main control circuit controls the motor driving circuit to operate; referring to fig. 3, each shaft motor driving circuit adopts a chip U5 with a model TB6560AHQ as a stepping motor driving chip, wherein an interface J10 is a motor interface, the chip U5 receives an instruction from a driving main control circuit, and an output terminal voltage is loaded on a motor through an interface J10 to control the motor to operate.

In an embodiment of the present invention, as shown in fig. 5, the motor power control circuit includes a MOS transistor Q32 and a transistor Q33, a source of the MOS transistor Q32 is connected to the power module, a drain of the MOS transistor Q32 supplies power to the X-axis, Y-axis and Z-axis motor driving circuits, a gate of the MOS transistor Q32 is connected to a collector of the transistor Q33 through a resistor R328, an emitter of the transistor Q33 is grounded, and a base of the MOS transistor Q33 is connected to the driving main control circuit through a resistor R335.

It should be noted that, the power control signal from the driving main control circuit is loaded on the base of the triode Q33 through the resistor R328, the collector of the triode Q33 generates current and loads on the gate of the MOS transistor Q32, the MOS transistor Q32 is turned on, and the voltage from the power module supplies power to the X-axis, Y-axis and Z-axis motor driving circuits, so that the driving main control circuit can effectively control the motor power supply.

In an embodiment of the present invention, as shown in fig. 3, an anti-reverse connection circuit is further disposed between the motor power control circuit and the power module, and is configured to prevent the positive electrode and the negative electrode of the power supply from being reversely connected, and protect the X-axis, Y-axis, and Z-axis stepping motors, where the anti-reverse connection circuit includes a MOS transistor Q708, the gate of the MOS transistor Q708 is connected to the positive electrode of the power module through a resistor R794, the positive electrode of the power module is further connected to the positive electrode of the input end of the motor power control circuit, the drain of the MOS transistor Q708 is connected to the negative electrode of the power module, and the source is connected to the ground line of the motor power control circuit.

It should be noted that, at the moment of power-on, if the gate power of the MOS transistor Q708 is positive, the parasitic diode in the MOS transistor Q708 is turned on, and the system forms a loop, at this moment, the positive electrode of the power module is further connected to the positive electrode of the input end of the motor power control circuit, the negative electrode of the power module is further connected to the ground of the motor power control circuit, and the power module completes power supply to the motor power control circuit, and if the power is reversely connected, the gate power of the MOS transistor Q708 is negative, the on voltage of the MOS transistor Q708 is 0, the MOS transistor Q708 is turned off, the parasitic diode is reversely connected, and the circuit is disconnected, thereby forming protection, preventing the motor power from being reversely connected, and effectively protecting the motor.

In an embodiment of the present invention, the motor driving module further includes an encryption module, one end of the encryption module is connected to the main control module, and the other end of the encryption module is connected to the driving main control circuit, and is used for encrypting data between the main control module and the motor driving module.

It should be noted that, as shown in fig. 4, the encryption module in this embodiment adopts an encryption chip with a model P5CD016 to ensure the security of data communication.

In one embodiment of the present invention, the human-computer interaction module includes: the LCD display screen interface circuit is respectively connected with the main control module and the display screen and provides an interactive interface for a user; and the touch screen control circuit is connected with the main control module and is used for the touch key operation of a user.

It should be noted that, the LCD display interface circuit is externally connected to a display screen to provide an interactive interface for a user, please refer to fig. 8, the interface J1 is an LCD display interface, and is connected to the main control module, and the main control module provides an image display signal for the display screen; referring to fig. 9, the touch screen control circuit is shown in fig. 9, the chip U22 is a touch screen management chip of the ADS7843E, which contacts the touch screen and transmits the user key signals to the main control module, and the user can check and operate the information conveniently through the LCD display screen and the touch screen.

In an embodiment of the present invention, the intelligent control system further includes a photoelectric switch detection circuit, an output end of the photoelectric switch detection circuit is connected to the main control module, and an input end of the photoelectric switch detection circuit is externally connected to the photoelectric switch and is used for detecting the coordinate position of the probe.

It should be noted that, as shown in fig. 9, in this embodiment, the interfaces J5-J8 are interfaces of the photoelectric sensor, provide voltage for the external photoelectric switch, and transmit the signal feedback to the main control module.

In an embodiment of the present invention, the intelligent control system further includes a camera module, and the camera module is connected to the main control module and is configured to perform image monitoring.

Please refer to fig. 10, in this embodiment, a camera with a model of OV2640 is used to collect monitoring image data, and transmit the monitoring image data to the main control module, and when a user has a problem, the monitoring image data can be retrieved for processing.

In one embodiment of the present invention, the intelligent control system further comprises a communication module, and the communication module comprises: a Bluetooth communication circuit connected with the main control module and used for communicating with the user mobile terminal to exchange authority information data and key information data

It should be noted that, the communication module can solve the problem that the key is lost and needs to be used when the user is out of place, the automobile service center is provided with the system in shops all over the place, the intelligent control system can integrate and upload the key data of the user and the member information data, the user can complete key making through the intelligent control system in shops all over the place after the user inputs the key data through the authority, meanwhile, the user can download the key information data of the user through the Bluetooth communication circuit and store the key information in the mobile phone APP, when the user needs to make the key and is not in the original service center or the service center is not connected with the cloud service platform, the key information can be uploaded to the intelligent control system through Bluetooth, meanwhile, the user can also select the mobile phone Bluetooth as the authority activation mode, the intelligent control system can store the mobile phone information of the user, when the Bluetooth is connected, in this embodiment, referring to fig. 11, the bluetooth communication circuit adopts a bluetooth communication chip with model number NRF52810, a signal transmitting end of the bluetooth communication chip is filtered and then connected to an antenna, and a user mobile phone can be connected to the system through bluetooth; and the Ethernet communication circuit is connected with the main control module and is used for communicating with the cloud service platform, uploading data information and receiving remote authorization and key processing information instructions.

In one embodiment of the present invention, the ethernet communication circuit includes: the Ethernet signal conversion circuit is connected with the main control module and is used for Ethernet signal conversion; the Ethernet signal isolation circuit is connected with the Ethernet signal conversion circuit and used for carrying out isolation filtering on the Ethernet signal to prevent interference; and the Ethernet interface circuit is connected with the Ethernet signal isolation circuit and is used for connecting with a cloud service platform.

It should be noted that, as shown in fig. 12, in this embodiment, an isolation transformer of a type HR601680 is used for signal isolation, an ethernet signal conversion circuit uses a chip U716 as an ethernet signal processing chip, the type of the chip U716 is LAN8720A, and a communication signal sent by the main control module is processed by the chip U716 and then converted into an ethernet communication signal, so as to facilitate communication with a cloud service platform, and the isolation transformer can effectively isolate the signal and improve the anti-interference capability of the signal; the interface J305 is an Ethernet interface, can be connected with a network cable and is connected with the cloud service platform.

The technical features mentioned above are combined with each other to form various embodiments which are not listed above, and all of them are regarded as the scope of the present invention described in the specification; also, modifications and variations may be suggested to those skilled in the art in light of the above teachings, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims

1. An intelligent control system for automotive key duplication manufacturing, comprising: the key data copying device comprises a main control module, a power supply module, a motor driving module, a storage module and a human-computer interaction module, wherein the power supply module provides working voltage for a system, one end of the human-computer interaction module is connected with the main control module, the main control module is connected with a controlled end of the motor driving module, a control end of the motor driving module is electrically connected with a three-axis moving module, the three-axis moving module is connected with a probe so as to copy key data of an original key in a clamping groove through the probe, and the probe is in communication connection with the storage module; the storage module is in communication connection with the main control module, and the three-axis moving module is further connected with a processing head and used for processing the key blank in the clamping groove.

2. The intelligent control system for automotive key duplication manufacture of claim 1, wherein the motor drive module comprises: the driving main control circuit is connected with the main control module and used for exchanging data with the main control module and sending out a motor driving signal; the control end of the X-axis motor driving circuit is connected with the driving main control circuit, the input end of the X-axis motor driving circuit is connected with the output end of the motor power control circuit, and the output end of the X-axis motor driving circuit is connected with the X-axis stepping motor of the three-axis moving module; the control end of the Y-axis motor driving circuit is connected with the driving main control circuit, the input end of the Y-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the Y-axis motor driving circuit is connected with the Y-axis stepping motor of the three-axis moving module; and the control end of the Z-axis motor driving circuit is connected with the driving main control circuit, the input end of the Z-axis motor driving circuit is connected with the output end of the motor power supply control circuit, and the output end of the Z-axis motor driving circuit is connected with the Z-axis stepping motor of the three-axis moving module.

3. The intelligent control system for automobile key duplication manufacture according to claim 2, wherein the motor power control circuit comprises a MOS transistor Q32 and a transistor Q33, the source of the MOS transistor Q32 is connected to the power module, the drain supplies power to the X-axis, Y-axis and Z-axis motor driving circuits, the gate is connected to the collector of the transistor Q33 through a resistor R328, the emitter of the transistor Q33 is grounded, and the base is connected to the driving main control circuit through a resistor R335.

4. The intelligent control system for automobile key duplication manufacture according to claim 3, wherein an anti-reverse connection circuit is further disposed between the motor power control circuit and the power module, the anti-reverse connection circuit includes a MOS transistor Q708, a gate of the MOS transistor Q708 is connected to a positive electrode of the power module through a resistor R794, the positive electrode of the power module is further connected to a positive electrode of an input end of the motor power control circuit, a drain of the MOS transistor Q708 is connected to a negative electrode of the power module, and a source of the MOS transistor Q708 is connected to a ground wire of the motor power control circuit.

5. The intelligent control system for automobile key duplication manufacture according to claim 2, wherein the motor driving module further comprises an encryption module, one end of the encryption module is connected to the main control module, and the other end of the encryption module is connected to the driving main control circuit, and the encryption module is used for encrypting data between the main control module and the motor driving module.

6. The intelligent control system for automobile key duplication manufacture of claim 1, wherein the human-machine interaction module comprises: the LCD display screen interface circuit is respectively connected with the main control module and the display screen and provides an interactive interface for a user; and the touch screen control circuit is connected with the main control module and is used for the touch key operation of a user.

7. The intelligent control system for automobile key duplication manufacture according to claim 1, further comprising a photoelectric switch detection circuit, wherein an output end of the photoelectric switch detection circuit is connected with the main control module, and an input end of the photoelectric switch detection circuit is externally connected with a photoelectric switch for detecting the coordinate position of the probe.

8. The intelligent control system for automobile key duplication manufacture of claim 1, wherein the intelligent control system further comprises a camera module, the camera module is connected with the main control module for image monitoring.

9. The intelligent control system for automobile key duplication manufacture of claim 1, further comprising a communication module, the communication module comprising: the Bluetooth communication circuit is connected with the main control module and is used for communicating with a user mobile terminal to exchange authority information data and key information data; and the Ethernet communication circuit is connected with the main control module and is used for communicating with the cloud service platform, uploading data information and receiving remote authorization and key processing information instructions.

10. The intelligent control system for automotive key duplication manufacture of claim 9, wherein said ethernet communication circuit comprises: the Ethernet signal conversion circuit is connected with the main control module and is used for Ethernet signal conversion; the Ethernet signal isolation circuit is connected with the Ethernet signal conversion circuit and used for carrying out isolation filtering on the Ethernet signal to prevent interference; and the Ethernet interface circuit is connected with the Ethernet signal isolation circuit and is used for being externally connected with a network cable to carry out data transmission.