CN112337070A - Body reaction sensitivity testing device and testing method - Google Patents

Abstract

The invention discloses a body reaction sensitivity testing device and a testing method. The test panel is provided with a plurality of key LED lamps which are arranged into an LED key matrix; the drive control circuit comprises a controller and an LED matrix drive module, and the LED matrix drive module can be used for controlling any key LED lamp of the LED key matrix to be turned on and off; the controller is electrically connected with the LED matrix driving module and electrically connected with the key LED lamp to acquire touched information of the key LED lamp. The controller comprises a processor and a memory, the memory having stored therein a computer program, the processor being configured to execute the computer program to implement the steps of the test method. The testing device can play a role in testing the body reaction sensitivity, and can also play a role in long-term body reaction sensitivity training device due to the fact that the mode of randomly lighting the key LED lamp is adopted.

Description

Body reaction sensitivity testing device and testing method

Technical Field

The invention relates to the field of training or testing equipment, in particular to a body reaction sensitivity testing device and a testing method.

Background

People with high body reaction sensitivity are less prone to driving accidents, and can easily obtain the advantages of competing games such as balls. The high body reaction sensitivity is mainly reflected in the aspects of attention and body coordination capacity, the current body sensitivity training or testing methods are few, and the Shuguert method is mainly adopted to train or test attention so as to improve the body sensitivity. However, the shuggerter's method lacks interest in training and provides little improvement in coordination of physical actions. Therefore, there is a need for a device that can test the sensitivity of body responses while improving attention and coordination of body movements.

Disclosure of Invention

The invention aims to provide a body reaction sensitivity testing device and a testing method, aiming at solving the problem that attention and body action coordination in body sensitivity are difficult to test and train simultaneously.

A body reaction sensitivity test apparatus comprising: test panel and drive control circuit.

The test panel is provided with a plurality of key LED lamps which are arranged into an LED key matrix; the drive control circuit comprises a controller and an LED matrix drive module, and the LED matrix drive module can be used for controlling any key LED lamp of the LED key matrix to be turned on and off; the controller is electrically connected with the LED matrix driving module and electrically connected with the key LED lamp to acquire touched information of the key LED lamp.

The controller comprises a processor and a memory, and a computer program is stored in the memory; the processor is configured to execute the computer program to implement the steps of:

s1, controlling the LED matrix driving module to drive any one key LED lamp to light; synchronously starting test timing;

s2, acquiring the touched information of the key LED lamp; judging whether the touched information corresponds to the lighted key LED lamp or not;

if yes, controlling the lighted key LED lamp to be turned off, and recording a test result; and controlling the LED matrix driving module to randomly drive any key LED lamp to light;

if not, maintaining to display the lighted key LED lamp;

and S3, timing the test to a preset test time, counting the test results, and storing and/or outputting the total test results.

The invention can be further perfected by the following technical measures:

as a further improvement, the test system further comprises a digital display module, wherein the digital display module is electrically connected with the controller and is used for displaying the test timing and the total test result.

As a further refinement, the processor is configured to execute the computer program to implement the steps further comprising:

the synchronous starting interval timing of the lighting of each key LED lamp;

judging whether the interval timing reaches a preset interval time or not;

and if yes, controlling the lighted key LED lamps to be turned off and turned off, and controlling the LED matrix driving module to randomly drive any key LED lamp to be turned on.

As a further improvement, the device further comprises an independent setting key module, wherein the independent setting key module is electrically connected with the controller and comprises a starting button, a stopping button, a power switch button and a pause button.

As a further improvement, the independent setting key module further comprises a first time adjusting button for setting the preset test time and a second time condition button for setting the preset interval time.

As a further improvement, the LED key matrix is composed of 4-8 rows by 8-12 columns of key LED lamps, and the row spacing and the column spacing are 2-4 cm.

As a further improvement, the LED matrix driver module is a ULN2803 array of transistors.

The invention also provides a body reaction sensitivity testing method, which is characterized in that the body reaction sensitivity testing device comprises the following steps:

s1, controlling the LED matrix driving module to drive any one key LED lamp to light; synchronously starting test timing;

s2, acquiring the touched information of the key LED lamp; judging whether the touched information corresponds to the lighted key LED lamp or not;

if yes, controlling the lighted key LED lamp to be turned off, and recording a test result; and controlling the LED matrix driving module to randomly drive any key LED lamp to light;

if not, maintaining to display the lighted key LED lamp;

and S3, timing the test to a preset test time, counting the test results by the controller, and storing and/or outputting the total test results.

As a further improvement, the test method further comprises:

the synchronous starting interval timing of the lighting of each key LED lamp;

judging whether the interval timing reaches a preset interval time or not;

and if yes, controlling the lighted key LED lamps to be turned off and turned off, and controlling the LED matrix driving module to randomly drive any key LED lamp to be turned on.

As a further improvement, the test method further comprises:

before step S1, the age, height, weight and sex information of the testers are acquired and stored in association with the test results in step S3.

The body reaction sensitivity testing device adopts a testing panel of an LED key matrix mode, and a tester touches a key LED lamp which is turned on randomly at preset testing time and records a total testing result; the testing device can play a role in testing the body reaction sensitivity, and can also play a role in long-term body reaction sensitivity training device due to the fact that the mode of randomly lighting the key LED lamp is adopted. The testing device can also be used for physical education teaching and training and testing and training of the body reaction sensitivity of the driver, is suitable for different age groups, is interesting and better, can automatically store data of testers, is beneficial to statistics and analysis work after testing, and can bring a step-type progress to the research of the body reaction sensitivity.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a block flow diagram of a method for testing body reaction sensitivity according to an embodiment of the present invention.

Fig. 2 is a schematic block diagram of a structure of a body reaction sensitivity testing device according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a large-screen test panel of a body reaction sensitivity test device provided by an embodiment of the invention.

Fig. 4 is a schematic circuit connection structure diagram of a body reaction sensitivity testing device according to an embodiment of the present invention.

Reference numerals:

the LED key array comprises a power module 1, a controller 2, an independently arranged key module 3, an LED matrix driving module 4, a digital display module 5 and an LED key matrix 6.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, a body reaction sensitivity testing apparatus includes: test panel and drive control circuit.

The test panel is provided with a plurality of key LED lamps which are arranged into an LED key matrix 6; the driving control circuit comprises a controller 2 and an LED matrix driving module 4, wherein the LED matrix driving module 4 can be used for controlling any key LED lamp of the LED key matrix 6 to be turned on and turned off.

The controller 2 is electrically connected with the LED matrix driving module 4, and the controller 2 is electrically connected with the key LED lamp to acquire touched information of the key LED lamp. The touch can be that the key LED lamp is provided with a touch sensor, and the touched information can be obtained only by surface touch, or the touched information can be obtained by pressing the key LED lamp.

The controller 2 comprises a processor and a memory, and a computer program is stored in the memory; the processor is configured to execute the computer program to implement the steps of:

s1, controlling the LED matrix driving module to drive any one key LED lamp to light; synchronously starting test timing;

s2, acquiring the touched information of the key LED lamp; judging whether the touched information corresponds to the lighted key LED lamp or not;

if yes, controlling the lighted key LED lamp to be turned off, and recording a test result; and controlling the LED matrix driving module to randomly drive any key LED lamp to light;

if not, maintaining to display the lighted key LED lamp;

and S3, counting the test time to preset test time, and counting the test results by the controller 2 and storing the total test results.

The body reaction sensitivity testing device adopts a testing panel with an LED key matrix 6 mode, and a tester touches a key LED lamp which is turned on randomly at preset testing time and records a total testing result; the testing device can play a role in testing the body reaction sensitivity, and can also play a role in long-term body reaction sensitivity training device due to the fact that the mode of randomly lighting the key LED lamp is adopted. The testing device can also be used for physical education teaching and training and testing and training of the body reaction sensitivity of the driver, is suitable for different age groups, is interesting and better, can automatically store data of testers, is beneficial to statistics and analysis work after testing, and can bring a step-type progress to the research of the body reaction sensitivity.

To further increase the difficulty of testing, the processor is configured to execute the computer program to implement the steps further comprising:

the synchronous starting interval timing of the lighting of each key LED lamp;

judging whether the interval timing reaches a preset interval time or not;

and if yes, controlling the lighted key LED lamps to be turned off and turned off, and controlling the LED matrix driving module to randomly drive any key LED lamp to be turned on.

Therefore, if a tester cannot touch the lighted key LED lamp in time, other key LED lamps are randomly changed to be in a lighted state, and the tester needs to sensitively perceive the position of the latest lighted key LED lamp.

Further, the test method further comprises: before step S1, the age, height, weight and sex information of the testers are acquired and stored in association with the test results in step S3.

In a more preferred embodiment, in step S2, touched information of the key LED lamp is acquired; judging that the touched information does not correspond to the lighted key LED lamp; and recording the error times. So that the appropriate point reduction can be made according to the game rules.

In this embodiment, the testing device further comprises an independent setting key module 3, the independent setting key module 3 is electrically connected with the controller 2, and the independent setting key module 3 comprises a start button, a stop button, a power switch button and a pause button.

The start button is used for starting the test; the pause button is used for testing the midway pause; the stop button is used for testing the midway termination; the one power switch is used to turn on or off the entire assay device.

The independent setting key module 3 further includes a first time adjustment button for setting a predetermined test time, and a second time condition button for setting a predetermined interval time. Wherein the predetermined interval time is preferably 3 seconds to 30 seconds.

The LED key matrix 6 is preferably composed of 4-8 rows, 8-12 columns of key LED lamps, and the row spacing and the column spacing are preferably 2-4 cm. In the present embodiment, the LED key matrix 6 is composed of 6 rows × 10 columns of key LED lamps, and the row spacing and the column spacing are 3cm, which is suitable for testing of adults and children.

In the circuit control of the LED key matrix 6, taking the lighting principle of a single key LED lamp as an example, the circuit control is further divided into three parts, namely a row driving circuit, a column driving circuit and LEDs, wherein the row driving circuit controls the whole row of LED lamps, when the output of the driving circuit is high voltage, if the column driving circuit is low voltage, the corresponding LED will light up, otherwise, the corresponding LED will be off.

Wherein the LED matrix driving module is preferably a ULN2803 transistor array.

In this implementation, the testing device further comprises a digital display module 5, the digital display module 5 is electrically connected with the controller, and the digital display module 5 is used for displaying the test timing and the total test result. Therefore, step S3 also includes displaying the counted total test result output on the digital display module 5.

Further, the digital display module 5 is an eight-bit seven-segment display, wherein 4 bits are used for displaying the test time and the total number of test lights, and the other 4 bits are used for displaying the total test result of the tester, namely the final correct pressing times. In other embodiments, in step S2, the recorded test achievements are updated on the digital display module 5 synchronously.

The controller 2 adopts an ATMEGA16 singlechip, can be better used for carrying out test flow control, judges whether the key and the lamp are in accordance with each other, controls the whole test time and the single test time, inputs tester information and collects data, and can write data into a USB flash disk through a USB interface for data storage.

The testing device also comprises a power supply module 1, wherein the power supply module 1 respectively supplies power to a controller 2, an independently arranged key module 3, an LED matrix driving module 4 and a digital display module 5.

The input of the power module 1 is 220V commercial power, the commercial power is converted into 5V and 12V direct current output through a built-in power supply, the 5V power supply provides power for the single chip microcomputer and the digital display module 5, and the 12V power supply supplies power for the key LED lamp and the LED matrix driving module 4.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above.

Claims (10)

1. A body reaction sensitivity test apparatus, comprising: a test panel and a drive control circuit;

the test panel is provided with a plurality of key LED lamps which are arranged into an LED key matrix; the drive control circuit comprises a controller and an LED matrix drive module, and the LED matrix drive module can be used for controlling any key LED lamp of the LED key matrix to be turned on and off; the controller is electrically connected with the LED matrix driving module and is electrically connected with the key LED lamp to acquire touched information of the key LED lamp;

the controller comprises a processor and a memory, and a computer program is stored in the memory; the processor is configured to execute the computer program to implement the steps of:

s1, controlling the LED matrix driving module to drive any one key LED lamp to light; synchronously starting test timing;

s2, acquiring the touched information of the key LED lamp; judging whether the touched information corresponds to the lighted key LED lamp or not;

if yes, controlling the lighted key LED lamp to be turned off, and recording a test result; and controlling the LED matrix driving module to randomly drive any key LED lamp to light;

if not, maintaining to display the lighted key LED lamp;

and S3, timing the test to a preset test time, counting the test results, and storing and/or outputting the total test results.

2. The body reaction sensitivity test device of claim 1, further comprising a digital display module electrically connected to the controller, the digital display module for displaying test timing and total test performance.

3. The body reaction sensitivity test apparatus of claim 1, wherein the processor is configured to execute the computer program to implement the steps further comprising:

the synchronous starting interval timing of the lighting of each key LED lamp;

judging whether the interval timing reaches a preset interval time or not;

and if yes, controlling the lighted key LED lamps to be turned off and turned off, and controlling the LED matrix driving module to randomly drive any key LED lamp to be turned on.

4. The body reaction sensitivity test device of claim 3, further comprising an independently arranged key module electrically connected to the controller, the independently arranged key module comprising a start button, a stop button, a power switch button, a pause button.

5. The body reaction sensitivity test device according to claim 4, wherein the independent setting key module further comprises a first time adjustment button for setting a predetermined test time, and a second time condition button for setting a predetermined interval time.

6. The body reaction sensitivity test device of claim 1, wherein the LED key matrix is composed of 4-8 rows by 8-12 columns of key LED lamps, and the row spacing and the column spacing are 2-4 cm.

7. The body reaction sensitivity test device of claim 6, wherein the LED matrix drive module is a ULN2803 array of transistors.

8. A body reaction sensitivity test method for a body reaction sensitivity test apparatus according to any one of claims 1 to 7, comprising the steps of:

s1, controlling the LED matrix driving module to drive any one key LED lamp to light; synchronously starting test timing;

s2, acquiring the touched information of the key LED lamp; judging whether the touched information corresponds to the lighted key LED lamp or not;

if yes, controlling the lighted key LED lamp to be turned off, and recording a test result; and controlling the LED matrix driving module to randomly drive any key LED lamp to light;

if not, maintaining to display the lighted key LED lamp;

and S3, timing the test to a preset test time, counting the test results by the controller, and storing and/or outputting the total test results.

9. The body reaction sensitivity test method according to claim 8,

the synchronous starting interval timing of the lighting of each key LED lamp;

judging whether the interval timing reaches a preset interval time or not;

and if yes, controlling the lighted key LED lamps to be turned off and turned off, and controlling the LED matrix driving module to randomly drive any key LED lamp to be turned on.

10. The body reaction sensitivity test method according to claim 8,

before step S1, the age, height, weight and sex information of the testers are acquired and stored in association with the test results in step S3.

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