CN112525497A

CN112525497A - Key test system and method

Info

Publication number: CN112525497A
Application number: CN201910810796.XA
Authority: CN
Inventors: 王刚; 王永明
Original assignee: Youer Hongxin Detection Technology Shenzhen Co ltd; Hongfujin Precision Electronics Zhengzhou Co Ltd; Foxconn Precision Electronics Taiyuan Co Ltd
Current assignee: Youer Hongxin Detection Technology Shenzhen Co ltd; Hongfujin Precision Electronics Zhengzhou Co Ltd; Foxconn Precision Electronics Taiyuan Co Ltd
Priority date: 2019-08-29
Filing date: 2019-08-29
Publication date: 2021-03-19

Abstract

A key test system and method are used for pressing and short dropping the key to be tested and plugging the charging jack to be tested, and the key test system comprises: a receiver and at least one controller; the receiver is used for connecting a computer and receiving control data from the computer, the at least one controller can be in wireless communication with the receiver, receive the control data from the receiver and drive an action device to operate the key to be tested according to the control data, and the at least one controller also transmits the data corresponding to the operation back to the computer in real time through the receiver.

Description

Key test system and method

Technical Field

The invention relates to a key test system and a key test method.

Background

During the existing key test, in the process of operating the key to be tested by using equipment, a single machine test is mostly adopted, the times are counted manually, the test efficiency is low, the error probability is high due to manual reasons, and the test result is inaccurate. In addition, the use condition of the test equipment is also manually recorded and patrolled, and time and labor are consumed.

Disclosure of Invention

In view of the above problems, it is desirable to provide a key testing system and method that can achieve intelligent management of key devices without manual statistics.

A key test system for operating a key to be tested, the key test system comprising: a receiver and at least one controller; the receiver is used for connecting a computer and receiving control data from the computer, the at least one controller can be in wireless communication with the receiver, receive the control data from the receiver and drive an action device to operate the key to be tested according to the control data, and the at least one controller also transmits the data corresponding to the operation back to the computer in real time through the receiver.

A key test method for operating a key to be tested, the method comprising:

providing a key test system, the key test system comprising a receiver and at least one controller;

the receiver receives control data from a computer;

the at least one controller receives the control data from the receiver and drives an action device to operate the key to be tested according to the control data; and

and the at least one controller also transmits the data corresponding to the operation back to the computer in real time through the receiver.

According to the key test system and the key test method, the key to be tested is operated according to the control data, and related tables such as a routing inspection result, an equipment test record and the like do not need to be recorded manually in the test process, so that the test efficiency and accuracy can be improved. In addition, the user can know the use condition of the action device in time according to the data returned to the computer by the controller, for example, the use times of the current action device exceed the preset times, the user is reminded of needing to maintain, and the intelligent management of the key type device can be realized.

Drawings

FIG. 1 is a diagram illustrating a key testing system according to a preferred embodiment of the present invention.

Fig. 2 is a functional block diagram of the controller and transceiver shown in fig. 1.

FIG. 3 is a flowchart illustrating a key test method according to a preferred embodiment of the invention.

Description of the main elements

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the key test system and method of the present invention will be described in further detail and related descriptions with reference to the accompanying drawings and embodiments.

Referring to fig. 1, a key test system 100 is used for a key or a jack to be tested of an electronic device to perform operations, such as pressing, plugging, and dropping, to test the service life, performance, parameters, and the like of the key or the jack. The electronic device may be a mobile phone, the key may be a function key of the mobile phone, for example, a volume key, a power on/off key, and the jack may be a charging jack or an earphone jack.

The key test system 100 includes a receiver 10 and at least one controller 30. For convenience of illustration, three controllers 30 are illustrated in the preferred embodiment. The receiver 10 is used for connecting to a computer 200 and receiving control data from the computer 200, and the controller 30 can perform wireless communication with the receiver 10, receive the control data from the receiver 10, and drive an actuating device (for example, an electromagnetic valve of a control cylinder) to operate the key to be tested according to the control data, so as to perform a service life and performance test. The controller 30 also transmits the data corresponding to the operation back to the computer 200 through the receiver 10 in real time.

In the preferred embodiment, the control data includes preset parameters for the action device, and the preset parameters include times, duration, interval duration, and operation mode. In the preferred embodiment, the preset parameters include times, duration, interval duration, and operation mode. The press data includes actual times, alarm times and test time. The key test system 100 operates the keys to be tested according to the control data, and does not need to manually record inspection results, equipment test records and other relevant tables in the test process, so that the test efficiency and accuracy can be improved. In addition, the user can know the service life of the action device in time according to the data returned to the computer 200 by the controller 30, for example, if the current test times exceed the preset times, the user is reminded of maintaining the action device, and the intelligent management of the key-press type device can be realized. In addition, if the control data has errors in the transmission process, and the actual operation of the action device on the key to be tested is inconsistent with the preset parameters, the user can accurately master the use condition of the action device according to the returned data.

Referring to fig. 2, in the preferred embodiment, the receiver 10 includes a connector 11, a first wireless communication module 12, and a first microcontroller 13.

The connector 11 is used for connecting the computer 200 to realize communication between the computer 200 and the receiver 10. In the preferred embodiment, the connector is an RS-232 serial communication interface. The first wireless communication module 12 is configured to wirelessly communicate with the at least one controller 30, the first microcontroller 13 receives the control data sent by the computer 200 through the connector 11, and sends the control data to the at least one controller 30 through the first wireless communication module 12, and meanwhile, the first microcontroller 13 receives the test data sent by the at least one controller 30 through the first wireless communication module 12, and sends the test data to the computer 200 through the connector 11.

The controller 30 includes a second wireless communication module 31, a second microcontroller 32, a driving module 33, and a display 34.

The second wireless communication module 31 is configured to wirelessly communicate with the first wireless communication module 12, the second microcontroller 32 receives the control data sent by the receiver 10 through the second wireless communication module 31, the driving module 33 controls the action device to operate a key to be tested according to preset parameters in the control data, the second microcontroller 32 further sends data corresponding to the operation to the receiver 10 through the second wireless communication module 31 in real time, and the display 34 is configured to display the test data.

In the preferred embodiment, the first wireless communication module 12 and the second wireless communication module 31 are 2.4G modules, and operate between 2.400GHz and 2.4835 GHz.

It is understood that the controller 30 further includes a Radio Frequency Identification Device (RFID) module 35, the RFID module 35 is used for sensing an RFID signal and transmitting the RFID signal to the second microcontroller 32, and the second microcontroller 32 turns on or off the controller 30 according to the RFID signal and the confirmation signal.

In the preferred embodiment, the RFID signal includes information of the operator, when the sensed RFID signal is information of authorized operator, the operator can generate a confirmation signal through a button on the controller 30 to trigger the second microcontroller 32 to turn on the controller 30, and when the sensed RFID signal is information of unauthorized operator, the operator cannot turn on the controller 30 through the second microcontroller 32 by pressing a button on the controller 30. It will be appreciated that the data also includes operator information, which may facilitate user management of the operator of the test procedure.

It is to be understood that the key press test system 100 includes a plurality of controllers 30, in this case, each of the controllers 30 further includes an Identity (ID) setting module 36, the ID setting module 36 is configured to set identity information that can identify the controller 30, for example, a number that can uniquely identify the controller 30, according to a user operation, and the receiver 10 can acquire the identity information and identify the controller 30 according to the identity information. It is understood that the control data and the data each include corresponding controller 30 identity information.

It is understood that the receiver 10 further includes a first alarm module 14, the controller 30 further includes a second alarm module 37, the first alarm module 14 and the second alarm module 37 are configured to respond to the alarm command of the first microcontroller 13 and the second microcontroller 32, and when the number of tests reaches the preset number in the preset parameter, the first microcontroller 13 and the second microcontroller 32 output the alarm command to control the first alarm module 14 and the second alarm module 37 to issue an alarm prompt.

It is understood that the second microcontroller 32 of the controller 30 is provided with a register (not shown), and the second microcontroller 32 stores the control data received from the receiver 10 from the computer 200 in the register, and when the connection between the controller 30 and the receiver 10 or the connection between the receiver 10 and the computer 200 is disconnected, the controller 30 can directly read the control data from the register. Correspondingly, the data may also be stored in the register, and when the driving module 33 drives the action device to operate the key to be tested according to the control data, the data of the second microcontroller 32 is transmitted back to the computer 200, and the register can be cleared after receiving the feedback signal of the computer 200.

Referring to fig. 3, the key test method includes the following steps:

in step 301, the ID setting module 36 sets identification information that can identify the controller 30, for example, a number that can uniquely identify the controller 30, according to the operation of the user.

Step 302, the RFID module 35 senses an RFID signal and transmits the RFID signal to the second microcontroller 32, and the second microcontroller 32 turns on or off the controller 30 according to the RFID signal and the confirmation signal. In this embodiment, the RFID signal includes information of the operator, when the sensed RFID signal is input, the operator may generate a confirmation signal by pressing a button on the controller 30 to trigger the second microcontroller 32 to turn on the controller 30, and if the sensed RFID signal is not sensed, the operator may not turn on the controller 30 by pressing the second microcontroller 32 on the controller 30.

Step 303, the first microcontroller 13 receives the control data sent by the computer 200 through the connector 11, and sends the control data to the controller 30 through the first wireless communication module 12.

Step 304, the second microcontroller 32 receives the control data sent by the receiver 10 through the second wireless communication module 31, and the driving module 33 controls the device to operate the key to be tested according to preset parameters in the control data.

In step 305, the second microcontroller 32 further sends the test data corresponding to the operation to the receiver 10 through the second wireless communication module 31 in real time, and the display 34 displays the test data.

Step 306, when the number of times of testing reaches a preset number of times in preset parameters, the first microcontroller 13 and the second microcontroller 32 send the alarm instruction to control the first alarm module 14 and the second alarm module 37 to send out an alarm prompt. At this time, the key to be tested has been operated for a preset number of times, and the user judges whether the service life of the key meets the requirement or not according to the actual situation of the user.

The key test system 100 operates the keys to be tested according to the control data, and manually records related tables such as inspection results and equipment test records in the test process, so that the test efficiency and accuracy can be improved. In addition, the user can know the service life condition of the device in time according to the data returned to the computer 200 by the controller 30), for example, if the operation times of the current action device exceeds the preset times, the user is reminded to maintain, and the intelligent management of the key-press type device can be realized.

It will be appreciated by those skilled in the art that the above embodiments are illustrative only and not intended to be limiting, and that suitable modifications and variations may be made to the above embodiments without departing from the true spirit and scope of the invention.

Claims

1. A key test system for operating a key to be tested, the key test system comprising: a receiver and at least one controller; the receiver is used for connecting a computer and receiving control data from the computer, the at least one controller can be in wireless communication with the receiver, receive the control data from the receiver and drive an action device to operate the key to be tested according to the control data, and the at least one controller also transmits the data corresponding to the operation back to the computer in real time through the receiver.

2. The key testing system of claim 1, wherein the receiver comprises a connector, a first wireless communication module, and a first microcontroller, the connector is configured to connect to the computer to enable communication between the computer and the receiver, the first wireless communication module is configured to wirelessly communicate with the at least one controller, the first microcontroller receives the control data sent by the computer through the connector and sends the control data to the at least one controller through the first wireless communication module, and the first microcontroller receives the data sent by the at least one controller through the first wireless communication module and sends the data to the computer through the connector.

3. The key testing system of claim 2, wherein each of the at least one controller includes a second wireless communication module, a second microcontroller, a driving module, and a display, the second wireless communication module is configured to wirelessly communicate with the first wireless communication module, the second microcontroller receives the control data sent by the receiver through the second wireless communication module, the driving module controls the action device to operate the key to be tested according to a preset parameter in the control data, the second microcontroller further sends data corresponding to the operation to the receiver through the second wireless communication module in real time, and the display is configured to display the data.

4. The key testing system of claim 3, wherein each of the at least one controller further comprises a radio frequency identification module, the radio frequency identification module configured to sense a radio frequency identification signal and transmit the radio frequency identification signal to the second microcontroller, the second microcontroller turning the at least one controller on or off based on the radio frequency identification signal and a confirmation signal.

5. A key press test system as recited in claim 3 wherein the key press test system includes a plurality of controllers, each of the controllers further including an identity setting module for setting identity information identifying the controller, the receiver being operable to obtain the identity information and identify the controller based on the identity information.

6. The key testing system of claim 1, wherein the receiver further comprises a first alarm module, the controller further comprises a second alarm module, the first alarm module and the second alarm module are configured to respond to alarm commands from the first microcontroller and the second microcontroller, and the first microcontroller and the second microcontroller issue the alarm commands when the number of times reaches a preset number of times within preset parameters.

7. The key press testing system of claim 6 wherein the predetermined parameters include times, duration, interval duration, and operation mode, and the data includes actual times, alarm times, and test time.

8. A key test method for operating a key to be tested, the method comprising:

the receiver receives control data from a computer;

9. The key test method of claim 8, wherein the key test method further comprises:

and sensing a radio frequency identification signal, and starting the at least one controller according to the radio frequency identification signal and the confirmation signal.

10. The key test method of claim 8, wherein the key test method further comprises: when the key test system comprises a plurality of controllers, identity information capable of identifying the controllers is set for each controller, and the receiver acquires the identity information and identifies the controllers according to the identity information.