CN211097434U - Virtual-real combined reaction time exercise testing experimental device - Google Patents

Abstract

A virtual-real combined reaction time exercise testing experimental device comprises a virtual testing device, a real testing device, a testing pen, a single chip microcomputer and a control and testing result output panel; the virtual testing device, the entity testing device and the testing result output panel are respectively connected with the singlechip through interactive data; in the virtual testing device, a virtual testing display interface is arranged on a virtual testing bottom plate; when the test pen contacts the fixed test point and the movable test point respectively, the virtual test device outputs a start signal and an end signal of the test process to the single chip microcomputer; a fixed test block, a movable test block and a fixed limiting block are arranged in the entity test device, a stepping motor is connected to the fixed limiting block, and an output shaft of the stepping motor is connected with a screw rod; when the test pen contacts the fixed test block and the movable test block respectively, the entity test device outputs a start signal and an end signal of the test process to the single chip microcomputer.

Description

Virtual-real combined reaction time exercise testing experimental device

The technical field is as follows:

the utility model relates to an experimental apparatus for individual ability when motion is used for testing reaction time.

Background art:

the personal ability test, especially the acquisition of the relevant data of the individual ability during reaction time and exercise, and the analysis of the data can effectively promote the overall optimization of a human-computer system and reduce the probability of human errors.

At present, the test of the motion during the reaction is basically carried out by using a physical device and the condition that the motion distance is determined; while the test sources are typically sound of a determined volume and light of a single color. The test conditions of a tester under the sound stimulation and the light stimulation with different colors under different decibels cannot be effectively detected during the reaction time test, and meanwhile, the motion time under the random test distance condition cannot be investigated during the motion time test due to the constant test distance.

The invention content is as follows:

the utility model discloses overcome prior art's the aforesaid not enough, provided one kind can test alone with the entity, also can the virtuality and reality combine the test to can provide multiple stimulus, test experimental apparatus during the motion of reaction time that the test distance can be adjusted at random.

The utility model discloses a virtual-real combined reaction time testing experimental device, which comprises a virtual testing device 1, a real testing device 2, a testing pen 3, a singlechip 4 and a control and testing result output panel 5; the virtual testing device 1, the entity testing device 2 and the testing result output panel 5 are respectively in interactive data connection with the singlechip 4;

in the virtual testing device 1, a virtual testing display interface 16 is arranged on a virtual testing bottom plate 13; a fixed test point 15 as a test starting point and a movable test point 14 as a test ending point are arranged on the virtual test display interface 16, and when the test pen 3 is respectively contacted with the fixed test point 15 and the movable test point 14, the virtual test device 1 outputs a starting signal and an ending signal of a test process to the singlechip 4; the other side of the virtual test display interface is provided with a virtual test stimulus source display interface 11 and a virtual test distance mode selection interface 12; the virtual test stimulus source display interface 11 displays the external stimulus adopted by the current test; the virtual test distance mode selection interface 12 displays the test mode selected by the tester during the test;

in the entity testing device 2, a fixed testing block 22 as a testing starting point, a movable testing block 29 as a testing ending point and a fixed limiting block 27 are arranged on an entity testing bottom plate 21 and are connected with a track straight rod 25 through a screw rod 26, a stepping motor 28 is connected on the fixed limiting block 27, and an output shaft of the stepping motor 28 is connected with the screw rod 26; contact reaction areas are arranged on the fixed test block 22 and the movable test block 29, and when the test pen 3 respectively contacts the corresponding areas of the fixed test block 22 and the movable test block 29, the entity test device 2 outputs a start signal and an end signal of a test process to the single chip microcomputer 4; the movable test block 29 is changed under different test modes, the movement is realized by the power output of the stepping motor 28 fixed on the fixed limit block 27, and then the position movement on the linear track is realized through the screw 26; an entity test stimulus source display interface 23 and an entity test distance mode selection interface 24 which have the same functions as the virtual test device are arranged on one side of the fixed test block 22;

the top of the control and result output panel 5 is the power switch 51, the start button 52 and the reset switch 53 of the device, the start button 52 gives a signal for starting the action to the testee; a test mode selection unit 54 is arranged below the switch, the test mode selection unit 54 consists of a virtual test button and an entity test button, and the virtual test button and the entity test button are respectively selected to measure the reaction and movement time; when the test rod 3 is in contact with a specified test area, the contact rod contact indicator lamp 510 emits light to indicate that the test rod 3 is ready at a specified position; a stimulus source selection interface 55, a sound stimulus selection unit 56 and a color light selection stimulus unit 57 are arranged at the central position of the control and result output panel 5; a distance mode selection unit 58 is also arranged on the control and result output panel 5, and is used for carrying out mode design on the linear distance between two test points in the virtual test device 1 and the entity test device 2; a test result output interface 59 is also arranged on the control and result output panel 5, which displays the stimulation type received by the testee in the experiment process, and tests the time from receiving the information to making a response and the movement time from moving the test pen from the initial test area to the termination test area after making a response.

The singlechip 4 comprises a motion control module, a numerical calculation module and a data recording module; the motion control module controls the motion of the stepping motor in the entity testing device 2 to realize the motion of the movable testing block 29 on the linear track, and the numerical calculation module performs interval analysis on the testing result and outputs the analysis result to the data recording module.

Options displayed on stimulus source selection interface 55 include sound or light stimuli; the sound stimulation selection unit 56 comprises a sound button and a volume display interface, and the light selection stimulation unit 57 comprises a light selection button and different light display interfaces; the distance mode selection by the distance mode selection unit 58 includes a determination mode, a random mode.

The utility model has the advantages that: the device can combine virtual and entity test modes to perform reaction time and exercise test on a tester, is richer in the design of a stimulus source than the same type of experimental test device, realizes the exercise time of the tester under an uncertain test distance by randomly adjusting the test distance, and makes the experimental exploration process richer and more effective.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the entity testing device of the present invention.

The specific implementation mode is as follows:

the technical scheme of the utility model is further explained in the following with the attached drawings.

The utility model discloses device primary structure is as shown in above figure 1, 2, include: 1. the virtual testing device 11, the virtual testing stimulus source display interface 12, the virtual testing distance mode display interface 13, the virtual testing baseboard 14, the mobile testing point (termination starting point) 15, the fixed testing point (testing starting point) 16, the virtual testing display interface 2, the entity testing device 21, the entity testing baseboard 22, the fixed testing block 23, the entity testing stimulus source display interface 24, the entity testing distance mode display interface 25, the track straight rod 26, the screw 27 fixed limiting block 28, the stepping motor 29, the mobile testing block 3, the testing pen 4, the MCS-51 single chip microcomputer 5, the control and testing result output panel 51, the power switch 52, the start button 53, the reset switch 54, the testing mode selection unit 55, the stimulus source selection interface 56, the sound stimulus selection unit 57, the chromatic light stimulus selection unit 58, the distance mode selection unit 59, the testing result output interface 510 and the contact rod contact indicating lamp.

A virtual-real combined reaction time exercise testing experimental device mainly comprises five parts, namely a virtual testing device 1, a real testing device 2, a testing pen 3, a single chip microcomputer 4 and a control and testing result output panel 5. In the virtual test unit 1, a virtual test display interface 16 is arranged on the virtual test backplane 13. A fixed test point (test starting point) 15 and a movable test point (test ending point) 14 are arranged on the virtual test display interface 16, when the test pen 3 contacts the fixed test point 15, the contact rod contact indicator lamp 510 on the control and test result output panel 5 lights up, and at this moment, the virtual test device 1 enters a working state. On the other side of the virtual test display interface is a virtual test stimulus source display interface 11 and a virtual test distance mode selection interface 12. Virtual test stimulus source display interface 11 main function is for the test provides the external stimulus the utility model discloses in mainly be the light of different colours and the sound of different decibels. And the virtual test distance mode selection interface 12 mainly displays the test mode selected by the tester during the test.

In the physical testing device 2, unlike the virtual testing device 1 which relies on touch screen display to perform an interactive experiment, the device relies on a mechanical structure to test the reaction capability of a tested person. The solid testing bottom plate 21 is provided with a fixed testing block (testing starting point) 22, a movable testing block (testing ending point) 29 and a fixed limiting block 27, and the connection of the fixed testing block, the movable testing block (testing ending point) and the fixed limiting block is realized through a screw 26 and a track straight rod 25. Contact reaction areas are provided on the fixed test block 22 and the movable test block 29, and the test pen 3 marks the start and end states of the test process when it contacts the corresponding areas of the fixed test block 22 and the movable test block 29, respectively, as described above for the fixed test point 15. The position of the movable test block 29 is not fixed in different test modes, and the movement is realized by means of a stepping motor 28 fixed on a fixed limit block 27 to realize power output, and then the position movement on the linear track is realized through a screw 26. On one side of the fixed test block 22, there are a physical test stimulus source display interface 23 and a physical test distance mode selection interface 24 which have the same functions as the virtual test device.

The control and result output panel 5 mainly realizes the input of control commands and the output of test results. The power switch 51, the start button 52 and the reset switch 53 of the device are arranged at the top of the panel, the power switch 51 realizes the on and off functions of the device, the start button 52 gives a signal for starting the action to the tested person, and the reset switch 53 realizes the return of the mobile testing device to the initial position of the testing setting after each experimental test is finished. In the lower position of the switch is a test mode selection unit 54, which consists of a virtual test button and a physical test button, by means of which different test devices can be selected for measuring the time of reaction and movement, respectively. The contact rod contact indicator lamp 510 is arranged at the lower position, and the indicator lamp can emit light to indicate that the test rod 3 is ready at the specified position only when the test rod 3 is in contact with the specified test area. In the center of the panel are a stimulus source selection interface 55, a sound stimulus selection unit 56 and a color light selection stimulus unit 57. Displayed on stimulus source selection interface 55 are various audio and light stimuli selected by the tester. The sound stimulation selection unit 56 is composed of a sound button and a volume display interface, and the light selection stimulation unit 57 is composed of a light selection button and a different light display interface. At a lower position of the panel is a distance pattern selection unit 58 which is composed of a decision button, a random button and a distance mode selection display interface, and a tester can perform two-pattern design on a straight-line distance between two test points in the virtual test apparatus 1 and the physical test apparatus 2. At the bottom of the panel is a test result output interface 59 which mainly displays the type of stimulus received by the subject during the experiment, the time from receiving the message to responding and the movement time for moving the test pen from the initial test area to the final test area after responding.

In the utility model, the single chip microcomputer MCS-51 is mainly packaged in the bottom board of the testing device, and is connected with the testing device and the control and test result output panel 5. In the function realization process, the singlechip MCS-51 mainly comprises a motion control module, a numerical calculation module and a data recording module. The motion control module mainly controls the motion of the stepping motor in the entity testing device 2 to realize the movement of the movable testing block 29 on the linear track. And the numerical value calculation module and the data recording module are used for carrying out interval analysis on the test result and outputting the interval analysis in a test result output unit of the panel.

The utility model discloses can carry out the test of reaction time and motion time to the tester through two different modes. Before the test is started, the power switch 51 in the control and test result output panel 5 is used to start the device, and then the test mode selection unit 54 is used to select a test mode, a dummy test or a physical test. After selecting the test mode, a set selection of experimental stimuli was performed: the sound stimulation is composed of a high sound mode, a middle sound mode and a low sound mode; the light stimulation is in three color modes of red, green and yellow. Different testing distance modes can be set, determined and randomized according to experimental requirements.

The utility model discloses an experimentation needs two personnel to go on in coordination, and one bit is the person of giving main test, is responsible for giving the signal that the test begins at random under the condition of doing relevant preparation by the person of being measured, and another bit is the person of being measured of experiment, and the measured object of experiment promptly is mainly responsible for removing test pen 3 from a certain appointed area to another appointed area after receiving stimulus signal.

When the experimental device is selected as the virtual testing device 1, the virtual testing button in the testing mode selecting unit 54 is pressed, and the virtual testing interface 16 starts to display the related interface contents, and the fixed testing point 15 and the movable testing point 14 appear at the same time. The fixed test point 15 keeps the same position at the beginning of each test, while the position of the movable test point 14 is set differently according to the related distance modes in the distance mode selection unit 58, if the fixed button is selected, the straight line distance between the two test points always keeps the same in the experimental process, and if the random button is selected, the position of the movable test point 14 changes in each test process, and the selected result is displayed on the virtual test distance mode display interface. After the distance mode is determined, the subject needs to contact the test pen 3 with the fixed test point 15, and the contact bar contact indicator lamp 510 is turned on to indicate that the test is ready. At this time, a main tester needing to be tested randomly presses the start button 52, the virtual test stimulus source 11 on one side of the virtual test interface 16 can send out set external stimulus, the tested tester needs to quickly transfer the test pen 15 at the fixed test point to the movable test point 14 according to own response after receiving the stimulus response, when the test pen 3 is in contact with the movable test point 14, the test device records two times, the first time is the time for the tester to receive the external stimulus and lift up the test pen 3, and the time is the response time determined by the test. The second time is the time taken for the tester to lift the test pen 3 to touch the mobile test point location, which is the experimentally determined exercise time of the tester.

When the experimental device is selected as the physical testing device 2, the physical testing button in the testing mode selecting unit 54 is pressed, and the movable testing block 29 moves the corresponding position through the screw 26 according to the setting condition of the distance mode selecting unit 58, and the selected result is displayed on the physical testing distance mode display interface 24. When the tester contacts the test pen 3 with the contact reaction area of the fixed test block 22, the contact rod contact indicator lamp 510 is turned on, the tester presses the start button 52, the physical test stimulus source display interface 23 sends out the corresponding external stimulus, and the tester needs to move the test pen 3 from the corresponding contact area of the fixed test block 22 to the corresponding contact area of the movable test block 29 after receiving the external stimulus. The same device would record the time the tester responded to seeing the indicator light change and the time of arm movement.

The utility model discloses a testing arrangement under two kinds of different modes of virtual and entity can use these two kinds of different testing arrangements alone or in combination according to the design of experiment, utilizes the different advantages of two kinds of testing arrangements to improve the precision of test result. Just the utility model discloses increased the kind of outside stimulus, broken away from the shortcoming of the single stimulus of traditional experiment testing arrangement to through random adjustment test distance realization to the tester at the time of motion under the uncertain test distance, the test result can be kept in and carry out analysis processes to it, has important guide effect to the man-machine design.

Claims (2)

1. The utility model provides a test experimental apparatus during reaction time motion of virtuality and reality combination which characterized in that: comprises a virtual testing device (1), an entity testing device (2), a testing pen (3), a singlechip (4) and a control and testing result output panel (5); the virtual testing device (1), the entity testing device (2) and the control and test result output panel (5) are respectively in interactive data connection with the singlechip (4);

in the virtual testing device (1), a virtual testing display interface (16) is arranged on a virtual testing bottom plate (13); a fixed test point (15) used as a test starting point and a movable test point (14) used as a test ending point are arranged on the virtual test display interface (16), and when the test pen (3) is respectively contacted with the fixed test point (15) and the movable test point (14), the virtual test device (1) outputs a starting signal and an ending signal of a test process to the single chip microcomputer (4); the other side of the virtual test display interface (16) is provided with a virtual test stimulus source display interface (11) and a virtual test distance mode selection interface (12); the virtual test stimulus source display interface (11) displays the external stimulus adopted by the current test; the virtual testing distance mode selection interface (12) displays the testing mode selected by the tester in the testing process;

in the entity testing device (2), a fixed testing block (22) as a testing starting point, a movable testing block (29) as a testing ending point and a fixed limiting block (27) are arranged on an entity testing bottom plate (21), the fixed testing block, the movable testing block and the fixed limiting block are connected with a track straight rod (25) through a screw rod (26), a stepping motor (28) is connected on the fixed limiting block (27), and an output shaft of the stepping motor (28) is connected with the screw rod (26); contact reaction areas are arranged on the fixed test block (22) and the movable test block (29), and when the test pen (3) contacts the fixed test block (22) and the movable test block (29) respectively, the entity test device (2) outputs a start signal and an end signal of a test process to the single chip microcomputer (4); the movable testing block (29) is changed under different testing modes, the movement is realized by depending on a stepping motor (28) fixed on a fixed limiting block (27) to realize power output, and then the position movement on a linear track is realized through a screw rod (26); an entity test stimulus source display interface (23) with the same function as the virtual test device and an entity test distance mode selection interface (24) are arranged on one side of the fixed test block (22);

the top of the control and result output panel (5) is a power switch (51), a start button (52) and a reset switch (53) of the device, and the start button (52) gives a signal for starting the action to the testee; a test mode selection unit (54) is arranged below the switch, the test mode selection unit (54) consists of a virtual test button and an entity test button, and the virtual test device (1) and the entity test device (2) are respectively selected to measure the reaction and movement time; when the test pen (3) is in contact with the specified test area, the contact rod contact indicator lamp (510) emits light to indicate that the test pen (3) is ready at the specified position; a stimulus source selection interface (55), a sound stimulus selection unit (56) and a color light selection stimulus unit (57) are arranged at the central position of the control and result output panel (5); a distance mode selection unit (58) is also arranged on the control and result output panel (5) for carrying out mode design on the linear distance between two test points in the virtual test device (1) and the entity test device (2); a test result output interface (59) is also arranged on the control and result output panel (5) to display the stimulus type received by the testee in the experimental process, and test the time from receiving the information to making a response and the movement time from moving the test pen from the initial test area to the termination test area after making a response;

the singlechip (4) comprises a motion control module, a numerical calculation module and a data recording module; the motion control module realizes the movement of the movable test block (29) on the linear track aiming at the motion control of the stepping motor in the entity test device (2), and the numerical value calculation module carries out interval analysis on the test result and outputs the analysis result to the data recording module.

2. The experimental apparatus for testing the reaction time of movement of the virtual-real combination as claimed in claim 1, wherein: the options displayed on the stimulus source selection interface (55) include sound or light stimuli; the sound stimulation selection unit (56) comprises a sound button and a volume display interface, and the light selection stimulation unit (57) consists of a light selection button and different light display interfaces; the distance mode selection of the distance mode selection unit (58) includes a determination mode and a random mode.

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