CN103385722A - Intelligent logical thinking testing device - Google Patents

Abstract

The invention discloses an intelligent logical thinking testing device, which comprises a subject operating module, a subject response receiving module and an embedded system. The subject operating module comprises a Hanoi Tower operating area and a Yerkes selection operating area. The Hanoi Tower operating area comprises a stand column and circular discs. An infrared sensor is embedded in the stand column. The circular discs are a group of circular objects which cannot be penetrated through by infrared rays. The Yerkes selection operating area comprises a group of luminescent lamps and a group of buttons. Each luminescent lamp corresponds to one button. The subject response receiving module is an industrial control board with a C8051F340 CPU (Central Processing Unit). The subject operating module is connected with the industrial control board through a signal line. The embedded system consists of a display and a main board. The display is connected with the main board through a data line. The industrial control board is connected with the main board through a USB (Universal Serial Bus) interface/COM (Component Object Model) interface. The intelligent logical thinking testing device with the structure can complete logical thinking ability testing and training of individuals.

Description

Intelligent logic thinking testing arrangement

Technical Field

The invention relates to the technical field of psychological experimental instruments, in particular to an instrument device which tests and trains the logical thinking ability of people through a Hentax experiment and a Yekes selection experiment, can automatically acquire experimental data, analyzes and processes the experimental data and feeds back result data in real time.

Background

At present, a power supply voltage of 220V is adopted in a known psychological experiment instrument, the power supply mode has great safety problems particularly for primary and secondary school students, and meanwhile, during experiments, each instrument needs to be equipped with an ordinary personal computer, so that resource waste is caused, and the instrument is inconvenient to carry. With the continuous development and progress of implementing psychological experiments by using a psychological experiment instrument, an embedded system is adopted to collect the tested reaction data, so that the experiment cost is reduced, and the whole experiment process is safer and more reliable.

Disclosure of Invention

Technical problem: the invention aims to overcome the defects of the prior art and provide an intelligent logical thinking testing device, which collects the tested reaction data through an industrial control board with a CPU of C8051F340 model and leads the data to a control device of the testing device, such as an embedded system, through a COM port/USB interface, thereby solving the technical and use defects of the traditional maze.

The technical scheme is as follows:in order to achieve the above purpose, the present invention designs an intelligent logical thinking testing device, which comprises a tested operation module (1), a tested reaction receiving module (2), and an embedded system (3), and is characterized in that: the tested operation module (1) is connected with the tested reaction receiving module (2) through a signal line, and the tested reaction receiving module (2) is connected with the embedded system (3) through a USB/COM port interface; the tested operation module (1) is divided into an internal-river tower operation area and a phyllex selection operation area which are respectively used for an internal-river tower experiment and a phyllex selection experiment; the river inner tower operation area comprises a stand column (4) and a disc (5), wherein an infrared sensor is embedded in the stand column (4)The disc (5) is a group of round objects which cannot be penetrated by infrared rays; when the sensor is electrified, the transmitting end of the sensor sends an infrared signal, when the infrared signal meets an obstacle, namely the disc (5), the infrared signal is refracted back, and at the moment, the receiving end of the sensor receives the infrared signal; by using the principle, when the disc (5) is moved from one upright post (4) to another upright post (4) to be tested, the instrument can automatically detect the moving process;

the leaf selection operation area comprises a group of light-emitting lamps (6) and a group of buttons (7). Each light-emitting lamp (6) corresponds to one button (7); when the test is carried out, the system controls a plurality of lamps in the luminous lamps (6) to be on, wherein one lamp is a target lamp, and when a button corresponding to a non-target lamp is pressed, the lamp is turned off; if the button corresponding to the target lamp is pressed, all the lighted luminescent lamps are extinguished, and the target lamp is found; the tested reaction receiving module (2) is an industrial control board (9) with a CPU of C8051F340 model and is powered by 5V power supply voltage; embedded system (3) comprise display (8) and mainboard (8), but display (8) adopt touch display, use winCE/Android operating system, adopt chargeable formula battery, and mains voltage is 5V, communicates with other equipment through wifi USB/Bluetooth.

Advantageous effects: compared with the prior art, the invention adopts the embedded system to replace a common PC to collect the tested reaction data, thereby not only saving the space occupied by the instrument, but also greatly saving the hardware cost and being convenient to carry; the 5V storage battery power supply device is adopted, so that the disordered connection of a power line is omitted, and meanwhile, the use safety and the operation simplification are greatly improved.

Drawings

FIG. 1 is a system connection block diagram of the present invention

FIG. 2 is a schematic perspective view of the right front side view of the present invention

FIG. 3 is a schematic view of a back side internal three-dimensional structure of the present invention

In fig. 2 to 3: 4, column 5, disk 6, light-emitting lamp 7, button 8, display 9, main board 10 and industrial control board.

Detailed Description

The technical scheme of the invention is explained in detail in the following with the accompanying drawings:

as shown in fig. 1, the device comprises a tested operation module (1), a tested reaction receiving module (2) and an embedded system (3), wherein the tested operation module (1) communicates with the tested reaction receiving module (2) through a signal line, and the tested reaction receiving module (2) transmits experiment result data to the embedded system (3) through a USB/COM port; the tested operation module (1) generates different electric signals in the tested reaction receiving module (2) according to different tested operations, the electric signals are processed by the tested reaction receiving module (2) and converted into different experimental data, the experimental data are transmitted to the embedded system (3) through the USB/COM port, the embedded system (3) processes and stores the received experimental data and feeds the experimental data back to a user in time, and the embedded system (3) can also send commands of starting, closing and the like to the tested reaction receiving module (2) according to different user operations to control the tested reaction receiving module (2).

As shown in fig. 2 to 3, the operation module (1) to be tested is divided into an internal tower operation area and a saxophone selection operation area for the internal tower experiment and the saxophone selection experiment, respectively; the river interior tower operation area comprises a stand column (4) and a disc (5), wherein an infrared sensor is embedded in the stand column (4), and the disc (5) is a group of round objects which cannot be penetrated by infrared rays. When the sensor is electrified, the transmitting end of the sensor sends out an infrared signal, when the infrared signal meets an obstacle, namely the disc (5), the infrared signal is refracted back, and at the moment, the receiving end of the sensor receives the infrared signal. By using the principle, when the disc (5) is moved from one upright post (4) to another upright post (4) to be tested, the instrument can automatically detect the moving process; the leaf selection operation area comprises a group of light-emitting lamps (6) and a group of buttons (7). Each light-emitting lamp (6) corresponds to one button (7), when in test, the system controls a plurality of lamps in the light-emitting lamps (6) to be on, wherein one lamp is a target lamp, and when the button corresponding to the non-target lamp is pressed, the lamp is turned off; if the button corresponding to the target lamp is pressed, all the lighted luminescent lamps are turned off to indicate that the target lamp is found, and a group of luminescent lamps (6) are lighted up again for a moment, wherein the position of the lighted lamp at each time can be different, but the position of the target lamp has a certain rule, so that the position of the target lamp can be found as soon as possible according to self judgment and reasoning; meanwhile, the display (8) can also receive the operation from the user, and the commands of starting, closing and the like are sent to the tested reaction receiving module (2) through the processing and analysis of the mainboard (9) so as to control the tested reaction receiving module (2).

Claims (9)

1. An intelligent logic thinking test device comprises a tested operation module (1), a tested reaction receiving module (2) and an embedded system (3); wherein,

the tested operation module (1) is used for the tested experiment operation, and the tested reaction receiving module (2) can record the tested reaction data transmitted by the tested operation module (1) at any time;

the tested reaction receiving module (2) is used for collecting tested reaction data transmitted by the tested operation module (1) and transmitting the signal to the embedded system (3) through the USB interface/COM port;

the embedded system (3) analyzes, processes and stores the data received from the tested reaction module (2), and feeds the data back to the user in due time;

the embedded system (3) can also send commands of starting, closing and the like to the tested reaction receiving module (2) according to different operations of a user to control the tested reaction receiving module (2).

2. The intelligent logical thinking testing device of claim 1, wherein: the tested operation module (1) is divided into an internal-river tower operation area and a phyllex selection operation area which are respectively used for an internal-river tower experiment and a phyllex selection experiment.

3. The operation module under test (1) according to claim 2, characterized in that: the river interior tower operating area comprises an upright post (4) and a disc (5), wherein an infrared sensor is embedded in the upright post (4), and the disc (5) is a group of round objects which cannot be penetrated by infrared rays; when the sensor is electrified, the transmitting end of the sensor sends an infrared signal, when the infrared signal meets an obstacle, namely the disc (5), the infrared signal is refracted back, and at the moment, the receiving end of the sensor receives the infrared signal; by using the principle, when the disc (5) is moved from one upright (4) to another upright (4), the instrument can automatically detect the moving process.

4. The operation module under test (1) according to claim 2, characterized in that: the leaf-spring selection operation area comprises a group of light-emitting lamps (6) and a group of buttons (7), each light-emitting lamp (6) corresponds to one button (7), when in test, the system controls a plurality of lamps in the light-emitting lamps (6) to be on, one of the lamps is a target lamp, and when a user tries to press the button corresponding to the non-target lamp, the lamp is turned off; if the button corresponding to the target lamp is pressed, all the lighted luminescent lamps are turned off to indicate that the target lamp is found, and a group of luminescent lamps (6) are lighted up again for a moment, the position of the lighted lamp at each time can be different, but the position of the target lamp has a certain rule, so that the position of the target lamp can be found as soon as possible according to self judgment and reasoning.

5. The intelligent logical thinking testing device of claim 1, wherein: the tested reaction receiving module (2) is an industrial control board (10) with a CPU of C8051F340 model and is powered by 5V power supply voltage.

6. The intelligent logical thinking testing device of claim 1, wherein: the embedded system (3) is composed of a display (8) and a main board (9), and the display (8) adopts a touch display.

7. The intelligent logical thinking testing device of claim 1, wherein: the embedded system (3) adopts a rechargeable storage battery, and the power supply voltage is 5V.

8. The intelligent logical thinking testing device of claim 1, wherein: the embedded system (3) adopts wifi/USB/Bluetooth to communicate with other devices.

9. The intelligent logical thinking testing device of claim 1, wherein: and the embedded system (3) adopts a WINCE/Android operating system.

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