CN113713359A

CN113713359A - Running timing counting device based on microwave technology

Info

Publication number: CN113713359A
Application number: CN202110912550.0A
Authority: CN
Inventors: 窦希伟; 何伟; 赵彦民
Original assignee: Shenzhen Hengkang Jiaye Technology Co ltd
Current assignee: Shenzhen Hengkang Jiaye Technology Co ltd
Priority date: 2021-08-10
Filing date: 2021-08-10
Publication date: 2021-11-30

Abstract

The invention relates to the technical field of timers, in particular to a running timing counting device based on microwave technology, which comprises: the utility model provides a test host computer, the test host computer is used for the timing of running of the personnel of being surveyed, the cursor, the terminal point position is arranged in to the cursor, through microwave detection personnel of being surveyed pass through, and send to the test host computer and stop the timing instruction, and then reachs this personnel's score of being surveyed, wearable smart machine is used for being surveyed personnel and wears, when the cursor position of personnel's process terminal point of being surveyed, the cursor passes through microwave detection personnel's wearable smart machine of being surveyed, and send to the test host computer and stop the timing instruction, and then reachs this personnel's score of being surveyed, the test host computer, adopt wireless communication to connect between cursor and the wearable smart machine. The invention adopts the structure, replaces the existing body measuring equipment of the infrared technology by the microwave detection technology, has better effect, more accurate measuring time precision, simple structure and convenient use.

Description

Running timing counting device based on microwave technology

Technical Field

The invention relates to the technical field of timers, in particular to a running timing counting device based on a microwave technology.

Background

At present, intelligent agent survey equipment on the market is designed based on infrared technology basically, and infrared technology is used for when the project runs for a long time, and the personnel under test need unify the start-up to by the precedence order that many referees record the personnel under test and arrive the terminal point at the terminal point, use and get up to waste time and energy, the test time precision is difficult to guarantee because artificial factor, also can't guarantee simultaneously or judge whether the personnel under test have the action of cheating, can't reach quick, efficient test effect.

Therefore, there is a need for improvements in the prior art.

Disclosure of Invention

Aiming at the problems, the invention provides a running timing counting device based on a microwave technology, which effectively solves the defects of body measuring equipment based on an infrared technology in the prior art.

In order to achieve the purpose, the technical scheme applied by the invention is as follows:

a running timing counting device based on microwave technology comprises:

the utility model provides a test host computer, the test host computer is used for the timing of running of the personnel of being surveyed, the cursor, the terminal point position is arranged in to the cursor, through microwave detection personnel of being surveyed pass through, and send to the test host computer and stop the timing instruction, and then reachs this personnel's score of being surveyed, wearable smart machine is used for being surveyed personnel and wears, when the cursor position of personnel's process terminal point of being surveyed, the cursor passes through microwave detection personnel's wearable smart machine of being surveyed, and send to the test host computer and stop the timing instruction, and then reachs this personnel's score of being surveyed, the test host computer, adopt wireless communication to connect between cursor and the wearable smart machine.

According to the scheme, the cursor comprises a bottom cover and a face cover, the bottom cover is fixedly connected with the face cover, a cavity is formed in the cursor, a lithium battery is arranged in the cavity, a main board support, a PCB main board, a microwave mobile sensor, a liquid crystal screen adapter plate, a liquid crystal screen support, a liquid crystal display screen, a liquid crystal screen lens, a lampshade and a wireless module are arranged on the main board support, the main board support is arranged in the cavity, the lithium battery is connected with a circuit of the PCB main board, the microwave mobile sensor and the wireless module are fixed on the PCB main board, a plurality of indicating lamps are arranged on the PCB main board, the lampshade is installed on the indicating lamps in a matched mode, the liquid crystal screen adapter plate and the liquid crystal display screen are installed on the liquid crystal screen support, the liquid crystal screen support is installed on the PCB main board, the liquid crystal screen lens corresponds to the liquid crystal display screen, a power switch is arranged on the bottom cover, and the power switch is connected with the circuit of the PCB main board.

According to the scheme, the middle frame decorative ring used for decorating attractive appearance is arranged between the bottom cover and the bottom cover.

According to the scheme, the wearable intelligent device is internally provided with the heart rate detection module which can be used for checking the heart rate of the tested person and the induction coil used for counting the end point, and sends data to the test host for checking.

According to the scheme, the test host and the wearable intelligent device both adopt built-in power supply components.

According to the scheme, the test host can display the test information of all tested personnel in a split screen mode.

The invention has the beneficial effects that:

the invention adopts the structure, replaces the existing body measuring equipment of the infrared technology by the microwave detection technology, has better effect, more accurate measuring time precision, simple structure and convenient use.

Drawings

FIG. 1 is a diagram of a cursor structure of the present invention;

FIG. 2 is an exploded view of the cursor of the present invention;

FIG. 3 is a block diagram of a wearable smart device of the present invention;

1. a power switch; 2. a bottom cover; 3. a middle frame decorative ring; 4. a lithium battery; 5. a main board support; 6, a PCB mainboard; 7. a microwave motion sensor; 8. a liquid crystal screen adapter plate; 9. a liquid crystal screen bracket; 10. a liquid crystal display screen; 11. a liquid crystal screen lens; 12. a face cover; 13. a lamp shade; 14. a wireless module; 20. a cursor; 30. wearable smart devices.

Detailed Description

The technical solution of the present invention is described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 3, the running timing counting apparatus based on microwave technology of the present invention includes: the utility model provides a test host computer, the test host computer is used for the running timing of the personnel of being surveyed, cursor 20 arranges the terminal point position in, it is through the microwave detection personnel of being surveyed pass through, and send to the test host computer and stop the timing instruction, and then reachs this personnel's score of being surveyed, wearable intelligent device 30 is used for being worn by the personnel of being surveyed, when the personnel of being surveyed pass through the cursor 20 position of terminal point, cursor 20 passes through the wearable intelligent device 30 of microwave detection personnel of being surveyed, and send to the test host computer and stop the timing instruction, and then reachs this personnel's score of being surveyed, the test host computer, adopt wireless communication to connect between cursor 20 and the wearable intelligent device 30. The above constitutes the basic structure of the present invention.

The invention adopts the structure, replaces the existing body measuring equipment of the infrared technology by the microwave detection technology, has better effect, more accurate measuring time precision, simple structure and convenient use. The working principle is as follows: the cursor 20 is placed at the end point during testing, when a sprint item is tested, after an instruction is initiated from the starting point, a tested person starts to run from the starting point, the testing host computer starts to time, when the tested person passes through the end point, the cursor 20 placed at the end point detects that the tested person passes through according to microwaves, and sends a timing stopping instruction to the testing host computer, so that the testing host computer obtains the score of the tested person; when testing a long-distance running project, a tested person wears the wearable intelligent device 30, after an instruction is initiated from a starting point, the tested person starts running from the starting point, the testing host starts timing, when the tested person passes through a terminal point, the cursor 20 placed at the terminal point detects that the wearable intelligent device 30 passes through, a signal is sent to the testing host once, the number of turns is recorded, when the tested person passes through the terminal point after running for a set distance of turns, a timing stopping instruction is sent to the testing host, and then the testing host obtains the score of the tested person.

In practical application, when a plurality of people test simultaneously, the ID values of the wearable smart devices 30 worn by each tested person are different, and each wearable smart device 30 has an independent ID, and the wearable smart devices 30 with different ID values are recorded after swiping a card on the test host in advance, that is, the test host can swipe a tag card to record the information of the tested person for testing.

In practical application, the cursors are arranged at two ends of the terminal runway or beside the terminal runway, the cursors are connected in a back-to-back mode, the microwaves between the two cursors shield redundant microwaves through a technology, only the microwaves which are between the two cursors and are close to a straight line shape are reserved, and detection precision is improved.

It should be noted that the test host may also be connected to and extend a plurality of peripherals, such as a video camera, which can record the test process video in real time and provide video playback. The testing host can also be connected with an extended face recognition module, and can read the image information of the identity card to judge whether the tested person cheats when the tested person takes the tag card. The test host can also be connected with an expansion printer module, and student scores can be printed in real time after the test is finished.

In this embodiment, the cursor comprises a bottom cover 2 and a face cover 12, the bottom cover 2 is fixedly connected with the face cover 12, and a cavity is formed, a lithium battery 4, a main board bracket 5, a PCB main board 6, a microwave motion sensor 7, a liquid crystal panel adapter plate 8, a liquid crystal panel bracket 9, a liquid crystal display screen 10, a liquid crystal screen lens 11, a lampshade 13 and a wireless module 14 are arranged in the cavity, the PCB main board 6 is mounted on the main board bracket 5, the main board bracket 5 is mounted in the cavity, the lithium battery 4 is electrically connected with the PCB main board 6, the microwave motion sensor 7 and the wireless module 14 are fixed on the PCB main board 6, a plurality of indicator lamps are arranged on the PCB main board 6, the lampshade 13 is mounted on the indicator lamps in a matching way, the liquid crystal panel adapter plate 8 and the liquid crystal display screen 10 are mounted on the liquid crystal panel bracket 9, the liquid crystal panel bracket 9 is mounted on the PCB main board 6, and the liquid crystal screen lens 11 is arranged corresponding to the liquid crystal display screen 10, the bottom cover 2 is provided with a power switch 1, and the power switch 1 is in circuit connection with the PCB mainboard 6. Adopt such structure setting, through be equipped with lithium cell 4 in the cavity, can use for a long time, and need not connect socket, it is very convenient, through be equipped with LCD screen keysets 8 in the cavity, LCD 10 and LCD screen lens 11 can be used to show the runway pass, wherein, LCD screen support 9 is convenient for LCD screen keysets 8, the installation of LCD 10 and LCD screen lens 11, it is very convenient, be used for receiving the signal that detects wearable smart machine process through being equipped with wireless module 14 in the cavity. Through be equipped with microwave mobile sensor 7 in the cavity and be used for detecting the microwave when surveyed personnel pass through, wherein, microwave mobile sensor 7 and wireless module 14 are all installed on PCB mainboard 6, and are very convenient, can be used to the suggestion through the pilot lamp and whether normally work, and lamp shade 13 can play the guard action to the pilot lamp. Wherein, PCB mainboard 6 is installed in the cavity through mainboard support 5, and is very convenient.

In practical application, the bottom cover 2 and the face cover 12 are fixed through bolts, and the installation and the disassembly are very convenient.

In the embodiment, a middle frame decorating ring 3 for decorating the beautiful appearance is arranged between the bottom cover 2 and the face cover 12. By adopting the structure, the cursor is more attractive and eye-catching, and other people are prevented from being damaged.

In this embodiment, be equipped with the heart rate detection module that can be used to look over the personnel's heart rate under test and the induction coil that is used for the terminal point count in the wearable smart machine 30 to look over data transmission to the test host computer.

In this embodiment, the test host and the wearable smart device 30 both employ a built-in power supply component.

In this embodiment, the test host may display the test information of all the tested persons on a screen.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and those skilled in the art can make various modifications without departing from the spirit and scope of the present invention.

Claims

1. A running timing counting device based on microwave technology is characterized by comprising: the testing host computer, the testing host computer is used for the running timing of the personnel under test, cursor (20), the terminal point position is arranged in to cursor (20), the personnel under test passes through the microwave detection to send to the testing host computer and stop the timing instruction, and then reach this personnel under test score, wearable smart device (30) are used for being worn by the personnel under test, when the personnel under test passes through cursor (20) position at terminal point, cursor (20) pass through wearable smart device (30) of the personnel under test of microwave detection to send to the testing host computer and stop the timing instruction, and then reach this personnel under test score, adopt wireless communication to connect between testing host computer, cursor (20) and wearable smart device (30).

2. A running timing and counting device based on microwave technology as claimed in claim 1, wherein: the cursor (20) comprises a bottom cover (2) and a face cover (12), the bottom cover (2) is fixedly connected with the face cover (12), a cavity is formed, a lithium battery (4), a main board support (5), a PCB main board (6), a microwave mobile sensor (7), a liquid crystal screen adapter plate (8), a liquid crystal screen support (9), a liquid crystal display screen (10), a liquid crystal screen lens (11), a lampshade (13) and a wireless module (14) are arranged in the cavity, the PCB main board (6) is installed on the main board support (5), the main board support (5) is installed in the cavity, the lithium battery (4) is in circuit connection with the PCB main board (6), the microwave mobile sensor (7) and the wireless module (14) are fixed on the PCB main board (6), a plurality of indicator lamps are arranged on the PCB main board (6), and the lampshade (13) is installed on the indicator lamps in a matching mode, the liquid crystal display adapter plate (8) and the liquid crystal display (10) are installed on the liquid crystal display support (9), the liquid crystal display support (9) is installed on the PCB mainboard (6), the liquid crystal display lenses (11) correspond to the liquid crystal display (10) in arrangement, the bottom cover (2) is provided with the power switch (1), and the power switch (1) is in circuit connection with the PCB mainboard (6).

3. A running timing and counting device based on microwave technology as claimed in claim 2, wherein: and a middle frame decorative ring (3) used for decorating attractive appearance is arranged between the bottom cover (2) and the surface cover (12).

4. A running timing and counting device based on microwave technology as claimed in claim 1, wherein: be equipped with the heart rate detection module that can be used to look over the personnel's heart rate of being surveyed and the induction coil that is used for the terminal point count in wearable smart machine (30) to look over data transmission to the test host computer.

5. A running timing and counting device based on microwave technology as claimed in claim 1, wherein: the test host and the wearable intelligent device (30) both adopt built-in power supply components.

6. A running timing and counting device based on microwave technology as claimed in claim 1, wherein: the test host can display the test information of all tested personnel in a screen-sharing manner.