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CN107714051B - College students' physical health testing device based on the Internet of Things - Google Patents

College students' physical health testing device based on the Internet of Things Download PDF

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CN107714051B
CN107714051B CN201711077802.2A CN201711077802A CN107714051B CN 107714051 B CN107714051 B CN 107714051B CN 201711077802 A CN201711077802 A CN 201711077802A CN 107714051 B CN107714051 B CN 107714051B
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田慧芬
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Nanjing Institute of Railway Technology
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/145Measuring characteristics of blood in vivo, e.g. gas concentration or pH-value ; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid or cerebral tissue
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    • A61B5/14551Measuring characteristics of blood in vivo, e.g. gas concentration or pH-value ; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid or cerebral tissue using optical sensors, e.g. spectral photometrical oximeters for measuring blood gases
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/0002Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network
    • A61B5/0015Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network characterised by features of the telemetry system
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/02Detecting, measuring or recording for evaluating the cardiovascular system, e.g. pulse, heart rate, blood pressure or blood flow
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    • AHUMAN NECESSITIES
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    • A61B5/091Measuring volume of inspired or expired gases, e.g. to determine lung capacity
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/68Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
    • A61B5/6801Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient specially adapted to be attached to or worn on the body surface
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    • A61B5/681Wristwatch-type devices

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Abstract

本发明公开了一种基于物联网的大学生体质健康测试装置,包括:血氧含量检测探头,肺活量检测装置,基座,测重平台,底置电路板,前置立柱,显示屏,摄像头,前置电路板,蓄电池,支撑柱,握力把手,支架和测量手环等;其中,血氧含量检测探头用于检测用户的血氧含量和心率;肺活量检测装置用于检测用户的肺活量,测重平台设置在基座上方,前置立柱固定摄像头以测量身高,握力把手和测量手环可以检测握力和心率等。本发明的有益之处在于:提供了一种能够有效采集大学生相应的健康数据并通过物联网进行数据分享和上传的基于物联网的大学生体质健康测试装置。

Figure 201711077802

The invention discloses a physical health test device for college students based on the Internet of Things, which includes: a blood oxygen content detection probe, a lung capacity detection device, a base, a weighing platform, a bottom circuit board, a front column, a display screen, a camera, a front Circuit boards, batteries, support columns, grip handles, brackets and measuring bracelets, etc.; Among them, the blood oxygen content detection probe is used to detect the user's blood oxygen content and heart rate; the lung capacity detection device is used to detect the user's lung capacity, and the weighing platform Set above the base, the front column fixes the camera to measure height, and the grip handle and measuring bracelet can detect grip strength and heart rate, etc. The invention is beneficial in that it provides an Internet of Things-based physical health testing device for college students that can effectively collect corresponding health data of college students and perform data sharing and uploading through the Internet of Things.

Figure 201711077802

Description

基于物联网的大学生体质健康测试装置College students' physical health testing device based on the Internet of Things

技术领域technical field

本发明涉及一种测试装置,具体涉及一种基于物联网的大学生体质健康测试装置。The invention relates to a test device, in particular to a test device for college students' physical health based on the Internet of Things.

背景技术Background technique

目前,在学校中进行静态的体质健康测试有些在推行,但是动态的测量大学生体质健康的装置缺很少见,大学阶段是大学生体质健康的重要时期,良好的身体为大学生走向社会,担负重要的工作奠定坚实的基础,因此运用物联网技术,动态测量大学生的体质健康数据,运用良好的测试技术手段,及时准确的获取体质健康的测试数据,对于大学生的体育锻炼与体质提升变得非常迫切,本发明带给高校教师与大学生及时获取体质健康数据的新方法。给大学生与老师带来极大的便利性与实用性。At present, some static physical health tests are being carried out in schools, but the lack of dynamic devices for measuring the physical health of college students is rare. The college stage is an important period for college students' physical health. A good body is an important role for college students to enter the society. The work has laid a solid foundation. Therefore, the use of Internet of Things technology to dynamically measure the physical health data of college students, and the use of good testing techniques to obtain timely and accurate physical health test data has become very urgent for college students' physical exercise and physical improvement. The invention brings a new method for college teachers and college students to obtain physical health data in time. Bring great convenience and practicality to college students and teachers.

发明内容Contents of the invention

一种基于物联网的大学生体质健康测试装置,包括:血氧含量检测探头,肺活量检测装置;其中,血氧含量检测探头用于检测用户的血氧含量和心率;肺活量检测装置用于检测用户的肺活量。A college student physical health testing device based on the Internet of Things, including: a blood oxygen content detection probe, a lung capacity detection device; wherein, the blood oxygen content detection probe is used to detect the user's blood oxygen content and heart rate; the lung capacity detection device is used to detect the user's blood oxygen content lung capacity.

基于物联网的大学生体质健康测试装置还包括:基座,测重平台,第一压力传感器,底置电路板,第一MCU芯片,第一无线通讯芯片,前置立柱,显示屏,摄像头,前置电路板,第二MCU芯片,第二无线通讯芯片,蓄电池,支撑柱,握力把手,第二压力传感器,支架,测量手环;其中,基座设置在底部以支撑基于物联网的大学生体质健康测试装置,基座内部设有底部容纳空间;测重平台设置在基座的顶部以用于支撑用户站立于其上;第一压力传感器设置于测重平台的下方;底置电路板容纳在基座的基座容纳空间中,第一压力传感器电性连接至底置电路板;第一MCU芯片和第一无线通讯芯片容纳在基座的基座容纳空间中并电性连接至底置电路板;前置立柱固定连接在基座的上方并位于测重平台的前侧,前置立柱设有前部容纳空间;显示屏固定安装至前置立柱并朝向用户站立的方向;摄像头安装至前置立柱的内部并位于显示屏的上方,前置立柱在对应摄像头的位置设有使是摄像头能拍摄用户的通孔;前置电路板安装至前置立柱的内部并位于显示屏的下方;显示屏,摄像头均电性连接至前置电路板;第二MCU芯片,第二无线通讯芯片容纳在前置立柱中并电性连接至前置电路板;蓄电池固定在前置立柱的内部且位于底置电路板的下方,蓄电池分别于底置电路板和前置电路板构成电性连接;支撑柱均固定在基座的上方,支撑柱的数目为4分成分别位于测重平台左右两侧的两组,属于同一组的支撑柱前后设置,握力把手设置在两个前后设置的支撑柱之间,握力把手内部设置第二压力传感器,第二压力传感器电性连接至底置电路板;支架连接在握力把手的上方,测量手环与支架构成可拆卸的连接以使测量手环位于握力把手的上方;测量手环为圆弧形,测量手环的内侧设有若干血氧含量检测探头;第一无线通讯芯片与第二无线通讯芯片构成通信连接。The college students' physical health test device based on the Internet of Things also includes: base, weighing platform, first pressure sensor, bottom circuit board, first MCU chip, first wireless communication chip, front column, display screen, camera, front circuit board, second MCU chip, second wireless communication chip, battery, support column, grip handle, second pressure sensor, bracket, and measuring bracelet; among them, the base is set at the bottom to support the physical health of college students based on the Internet of Things The test device has a bottom accommodation space inside the base; the weighing platform is set on the top of the base for supporting users to stand on it; the first pressure sensor is set under the weighing platform; the bottom circuit board is accommodated in the base In the base accommodation space of the seat, the first pressure sensor is electrically connected to the bottom circuit board; the first MCU chip and the first wireless communication chip are accommodated in the base accommodation space of the base and are electrically connected to the bottom circuit board ;The front column is fixedly connected to the top of the base and is located on the front side of the weighing platform. The front column is provided with a front accommodation space; the display screen is fixedly installed on the front column and faces the user standing direction; the camera is installed on the front The inside of the column is located above the display screen, and the front column is provided with a through hole at the position corresponding to the camera so that the camera can shoot the user; the front circuit board is installed inside the front column and located below the display screen; the display screen , the camera is electrically connected to the front circuit board; the second MCU chip and the second wireless communication chip are accommodated in the front column and electrically connected to the front circuit board; the battery is fixed inside the front column and located at the bottom Below the circuit board, the battery is electrically connected to the bottom circuit board and the front circuit board respectively; the support columns are fixed above the base, and the number of support columns is 4 and divided into two groups located on the left and right sides of the weighing platform. , the support columns belonging to the same group are arranged front and back, the grip handle is arranged between the two front and rear support columns, the second pressure sensor is arranged inside the grip handle, and the second pressure sensor is electrically connected to the bottom circuit board; the bracket is connected to the grip Above the handle, the measuring bracelet and the bracket form a detachable connection so that the measuring bracelet is located above the grip handle; the measuring bracelet is arc-shaped, and there are several blood oxygen content detection probes on the inner side of the measuring bracelet; the first wireless The communication chip forms a communication connection with the second wireless communication chip.

进一步地,基于物联网的大学生体质健康测试装置还包括:第一连接臂,第二连接臂;其中第一连接臂与前置立柱构成转动连接;第二连接臂与第一连接臂构成转动连接;肺活量检测装置与第二连接臂构成转动连接。Further, the college student's physical fitness test device based on the Internet of Things also includes: a first connecting arm and a second connecting arm; wherein the first connecting arm forms a rotational connection with the front column; the second connecting arm forms a rotational connection with the first connecting arm ; The spirometry detection device forms a rotational connection with the second connecting arm.

进一步地,第一无线通讯芯片为RFID芯片。Further, the first wireless communication chip is an RFID chip.

进一步地,第二无线通讯芯片为RFID芯片。Further, the second wireless communication chip is an RFID chip.

进一步地,肺活量检测装置包括一个能与第一无线通讯芯片和第二无线通信芯片通信的RFID芯片。Further, the lung capacity detection device includes an RFID chip capable of communicating with the first wireless communication chip and the second wireless communication chip.

进一步地,蓄电池为锂电池。Further, the storage battery is a lithium battery.

进一步地,支架设有一个“T”字形的接口用于卡接测量手环。Further, the bracket is provided with a "T"-shaped interface for clamping the measurement wristband.

进一步地,测量手环在其环形部分的两侧设有“T”字形的接头。Further, the measuring bracelet is provided with "T"-shaped joints on both sides of its ring portion.

进一步地,测量手环的接头处设有外连接端子,支架的接口处设有用于与外连接端子接触的内连接端子。Further, the joint of the measuring wristband is provided with an external connection terminal, and the interface of the bracket is provided with an internal connection terminal for contacting the external connection terminal.

进一步地,内连接端子电性连接至底置电路板。Further, the inner connecting terminal is electrically connected to the bottom circuit board.

本发明的有益之处在于:The benefits of the present invention are:

提供了一种能够有效采集大学生相应的健康数据并通过物联网进行数据分享和上传的基于物联网的大学生体质健康测试装置。An Internet of Things-based physical health testing device for college students is provided, which can effectively collect corresponding health data of college students and share and upload the data through the Internet of Things.

附图说明Description of drawings

图1是本发明的基于物联网的大学生体质健康测试装置的结构示意图;Fig. 1 is the structural representation of the college student's physical health testing device based on the Internet of Things of the present invention;

图2是图1所示的基于物联网的大学生体质健康测试装置内部的结构示意图;Fig. 2 is the internal structure diagram of the college students' physical health testing device based on the Internet of Things shown in Fig. 1;

图3是图1所示的基于物联网的大学生体质健康测试装置局部的结构示意图;Fig. 3 is the partial structural representation of the college student's physical health testing device based on the Internet of Things shown in Fig. 1;

图4是图1所示的基于物联网的大学生体质健康测试装置测量手环和支架处局部结构示意图。Fig. 4 is a schematic diagram of the partial structure of the measurement bracelet and bracket of the Internet of Things-based college students' physical fitness test device shown in Fig. 1 .

实施方式Implementation

如图1至图4所示,基于物联网的大学生体质健康测试装置100包括血氧含量检测探头101,肺活量检测装置102;其中,血氧含量检测探头101用于检测用户的血氧含量和心率;肺活量检测装置102用于检测用户的肺活量。As shown in Figures 1 to 4, the college students' physical health testing device 100 based on the Internet of Things includes a blood oxygen content detection probe 101 and a lung capacity detection device 102; wherein, the blood oxygen content detection probe 101 is used to detect the blood oxygen content and heart rate of the user ; The vital capacity detection device 102 is used to detect the vital capacity of the user.

基于物联网的大学生体质健康测试装置100还包括:基座103,测重平台104,第一压力传感器105,底置电路板106,第一MCU芯片107,第一无线通讯芯片108,前置立柱109,显示屏110,摄像头111,前置电路板112,第二MCU芯片113,第二无线通讯芯片114,蓄电池115,支撑柱116,握力把手117,第二压力传感器118,支架119,测量手环120;其中,基座103设置在底部以支撑基于物联网的大学生体质健康测试装置100,基座103内部设有底部容纳空间;测重平台104设置在基座103的顶部以用于支撑用户站立于其上;第一压力传感器105设置于测重平台104的下方;底置电路板106容纳在基座103的基座103容纳空间中,第一压力传感器105电性连接至底置电路板106;第一MCU芯片107和第一无线通讯芯片108容纳在基座103的基座103容纳空间中并电性连接至底置电路板106;前置立柱109固定连接在基座103的上方并位于测重平台104的前侧,前置立柱109设有前部容纳空间;显示屏110固定安装至前置立柱109并朝向用户站立的方向;摄像头111安装至前置立柱109的内部并位于显示屏110的上方,前置立柱109在对应摄像头111的位置设有使是摄像头111能拍摄用户的通孔;前置电路板112安装至前置立柱109的内部并位于显示屏110的下方;显示屏110,摄像头111均电性连接至前置电路板112;第二MCU芯片113,第二无线通讯芯片114容纳在前置立柱109中并电性连接至前置电路板112;蓄电池115固定在前置立柱109的内部且位于底置电路板106的下方,蓄电池115分别于底置电路板106和前置电路板112构成电性连接;支撑柱116均固定在基座103的上方,支撑柱116的数目为4分成分别位于测重平台104左右两侧的两组,属于同一组的支撑柱116前后设置,握力把手117设置在两个前后设置的支撑柱116之间,握力把手117内部设置第二压力传感器118,第二压力传感器118电性连接至底置电路板106;支架119连接在握力把手117的上方,测量手环120与支架119构成可拆卸的连接以使测量手环120位于握力把手117的上方;测量手环120为圆弧形,测量手环120的内侧设有若干血氧含量检测探头101;第一无线通讯芯片108与第二无线通讯芯片114构成通信连接。The college student's physical fitness test device 100 based on the Internet of Things also includes: a base 103, a weighing platform 104, a first pressure sensor 105, a bottom circuit board 106, a first MCU chip 107, a first wireless communication chip 108, and a front column 109, display screen 110, camera 111, front circuit board 112, second MCU chip 113, second wireless communication chip 114, battery 115, support column 116, grip handle 117, second pressure sensor 118, bracket 119, measuring hand Ring 120; wherein, the base 103 is arranged at the bottom to support the college student's physical fitness test device 100 based on the Internet of Things, and the inside of the base 103 is provided with a bottom accommodation space; the weighing platform 104 is arranged on the top of the base 103 for supporting the user Standing on it; the first pressure sensor 105 is arranged below the weighing platform 104; the bottom circuit board 106 is accommodated in the accommodation space of the base 103 of the base 103, and the first pressure sensor 105 is electrically connected to the bottom circuit board 106; the first MCU chip 107 and the first wireless communication chip 108 are accommodated in the base 103 accommodation space of the base 103 and electrically connected to the bottom circuit board 106; the front column 109 is fixedly connected above the base 103 and Located on the front side of the weighing platform 104, the front column 109 is provided with a front accommodation space; the display screen 110 is fixedly installed on the front column 109 and faces the user standing direction; the camera 111 is installed on the inside of the front column 109 and is located on the display Above the screen 110, the front column 109 is provided with a through hole at the position corresponding to the camera 111 so that the camera 111 can take pictures of the user; the front circuit board 112 is installed to the inside of the front column 109 and is located below the display screen 110; The screen 110 and the camera 111 are electrically connected to the front circuit board 112; the second MCU chip 113 and the second wireless communication chip 114 are accommodated in the front column 109 and electrically connected to the front circuit board 112; the battery 115 is fixed on The inside of the front column 109 is located below the bottom circuit board 106, and the battery 115 is electrically connected to the bottom circuit board 106 and the front circuit board 112 respectively; the support columns 116 are all fixed on the top of the base 103, and the support columns The number of 116 is 4 and divided into two groups respectively located on the left and right sides of the weighing platform 104. The support columns 116 belonging to the same group are arranged front and back, and the grip handle 117 is arranged between the two support columns 116 arranged front and back, and the grip handle 117 is arranged inside The second pressure sensor 118, the second pressure sensor 118 is electrically connected to the bottom circuit board 106; the bracket 119 is connected above the grip handle 117, and the measuring bracelet 120 and the bracket 119 form a detachable connection so that the measuring bracelet 120 is located Above the grip handle 117; the measuring bracelet 120 is arc-shaped, and a number of blood oxygen content detection probes 101 are arranged on the inner side of the measuring bracelet 120; the first wireless communication chip 108 and the second wireless communication chip 114 form a communication connection.

用户站在测重平台104后第一压力传感器105可以通过压力检测换算用户的体重,第一MCU芯片107将体重的数据存储并通过第一无线通讯芯片108上传至物联网或者是云空间的服务器,当用户站在测重平台104上时,用户的手掌可以握紧握力把手117从而通过第二压力传感器118上传握力数据,于此同时测量手环120可以对准用户的腕部,从而使血氧含量检测探头101检测用户的血氧含量,心率等基于血液流动的健康参数指标。作为具体的方案,血氧含量检测探头101是基于光学检测原理的光学检测探头,一般而言包括光线发射的摄像头111和光线接收的传感器。通过这样的检测可以将用户的握力、血氧含量和心率等数据进行上传。摄像头111可以包括红外摄像头111和真实视觉的摄像头111,红外摄像头111可以测定用户的体温等信息,真实摄像头111可以根据用户的图像给出用户的身高。After the user stands on the weighing platform 104, the first pressure sensor 105 can convert the user's weight through pressure detection, and the first MCU chip 107 stores the data of the weight and uploads it to the server of the Internet of Things or cloud space through the first wireless communication chip 108 , when the user stands on the weighing platform 104, the user's palm can hold the grip handle 117 so as to upload the grip data through the second pressure sensor 118, and at the same time, the measuring bracelet 120 can be aligned with the user's wrist, so that The blood oxygen content detection probe 101 detects the user's blood oxygen content, heart rate and other health parameter indicators based on blood flow. As a specific solution, the blood oxygen content detection probe 101 is an optical detection probe based on the principle of optical detection, and generally includes a camera 111 for emitting light and a sensor for receiving light. Through such detection, data such as the user's grip strength, blood oxygen content and heart rate can be uploaded. The camera 111 can include an infrared camera 111 and a real vision camera 111. The infrared camera 111 can measure information such as the user's body temperature, and the real camera 111 can give the user's height according to the user's image.

具体而言,基于物联网的大学生体质健康测试装置100还包括:第二连接臂122,第一连接臂121;其中第一连接臂121与前置立柱109构成转动连接;第一连接臂121与第二连接臂122构成转动连接;肺活量检测装置102与第二连接臂构成转动连接。可调节的第二连接臂122和第一连接臂121使肺活量检测装置102可调节地对准用户,从而测得肺活量。肺活量检测装置102可以采用利用气流流速原理检测的电子肺活量检测装置102,即在肺活量检测装置102包括一个能被气流驱动风轮,通过测定风轮的速度和圈数从而测定肺活量。Specifically, the college student's physical fitness test device 100 based on the Internet of Things also includes: a second connecting arm 122 and a first connecting arm 121; wherein the first connecting arm 121 forms a rotational connection with the front column 109; the first connecting arm 121 and The second connecting arm 122 forms a rotational connection; the lung capacity detection device 102 forms a rotational connection with the second connecting arm. The adjustable second connecting arm 122 and the first connecting arm 121 allow the lung capacity detection device 102 to be adjusted to align with the user, so as to measure the lung capacity. The lung capacity detection device 102 can adopt the electronic lung capacity detection device 102 that utilizes the principle of air flow velocity detection, that is, the lung capacity detection device 102 includes a wind wheel that can be driven by the air flow, and the lung capacity can be measured by measuring the speed and the number of turns of the wind wheel.

具体而言,第一无线通讯芯片108为RFID芯片。Specifically, the first wireless communication chip 108 is an RFID chip.

具体而言,第二无线通讯芯片114为RFID芯片。Specifically, the second wireless communication chip 114 is an RFID chip.

具体而言,肺活量检测装置102包括一个能与第一无线通讯芯片108和第二无线通信芯片通信的RFID芯片。这样无论如何调节肺活量检测装置102的位置都可以实现数据的传输。Specifically, the lung capacity detection device 102 includes an RFID chip capable of communicating with the first wireless communication chip 108 and the second wireless communication chip. In this way, no matter how the position of the spirometry detection device 102 is adjusted, data transmission can be realized.

具体而言,蓄电池115为锂电池。锂电池可以提供良好的续航能力。作为扩展Specifically, the storage battery 115 is a lithium battery. Lithium batteries can provide good battery life. as an extension

具体而言,支架119设有一个“T”字形的接口123用于卡接测量手环120。测量手环120在其环形部分的两侧设有“T”字形的接头124。测量手环120的接头124处设有外连接端子125,支架119的接口123处设有用于与外连接端子125接触的内连接端子126,并且内连接端子126电性连接至底置电路板106。这样一来,便于安装和更换测量手环120。Specifically, the bracket 119 is provided with a "T"-shaped interface 123 for clamping the measurement wristband 120 . The measurement wristband 120 is provided with "T"-shaped connectors 124 on both sides of its ring portion. The joint 124 of the measuring bracelet 120 is provided with an external connection terminal 125, and the interface 123 of the bracket 119 is provided with an internal connection terminal 126 for contacting the external connection terminal 125, and the internal connection terminal 126 is electrically connected to the bottom circuit board 106 . In this way, it is convenient to install and replace the measuring bracelet 120 .

基于物联网的大学生体质健康测试装置使大学生在运动中进行体质健康数据的测量与存储,避免以前只能进行静态测量的缺陷,可以更好地掌握大学生的真实的体质健康数据,在真实测量中通过物联网实时地获得体质健康的相关数据,实现数据共享,有针对的提升大学生的体质,为大学生的体质健康奠定良好的基础,同时为国家的体质科学研究积累有效的数据。The college students' physical health testing device based on the Internet of Things enables college students to measure and store their physical health data during exercise, avoiding the defects of static measurement in the past, and can better grasp the real physical health data of college students. In the real measurement Real-time data related to physical health can be obtained through the Internet of Things, data sharing can be realized, and the physical fitness of college students can be improved in a targeted manner.

以上显示和描述了本发明的基本原理、主要特征和优点。本行业的技术人员应该了解,上述实施例不以任何形式限制本发明,凡采用等同替换或等效变换的方式所获得的技术方案,均落在本发明的保护范围内。The basic principles, main features and advantages of the present invention have been shown and described above. Those skilled in the industry should understand that the above-mentioned embodiments do not limit the present invention in any form, and all technical solutions obtained by means of equivalent replacement or equivalent transformation fall within the protection scope of the present invention.

Claims (8)

1. College student physical health testing arrangement based on thing networking includes: a blood oxygen content detection probe and a vital capacity detection device; the blood oxygen content detection probe is used for detecting the blood oxygen content and the heart rate of a user; the vital capacity detection device is used for detecting the vital capacity of the user; the method is characterized in that: college student physical health testing arrangement based on thing networking still includes: the device comprises a base, a weight measuring platform, a first pressure sensor, a bottom circuit board, a first MCU chip, a first wireless communication chip, a front upright post, a display screen, a camera, a front circuit board, a second MCU chip, a second wireless communication chip, a storage battery, a support column, a grip handle, a second pressure sensor, a support and a measuring bracelet; the base is arranged at the bottom to support the college student physical health testing device based on the Internet of things, and a bottom accommodating space is formed in the base; the weight measurement platform is arranged on the top of the base and is used for supporting a user to stand on the weight measurement platform; the first pressure sensor is arranged below the weight measurement platform; the bottom circuit board is accommodated in the base accommodating space of the base, and the first pressure sensor is electrically connected to the bottom circuit board; the first MCU chip and the first wireless communication chip are accommodated in the pedestal accommodating space of the pedestal and are electrically connected to the underlying circuit board; the front upright post is fixedly connected above the base and positioned at the front side of the weight measuring platform, and is provided with a front accommodating space; the display screen is fixedly arranged on the front upright post and faces the standing direction of the user; the camera is mounted in the front upright post and is positioned above the display screen, and a through hole enabling the camera to shoot a user is formed in the front upright post at a position corresponding to the camera; the front circuit board is mounted in the front upright post and is positioned below the display screen; the cameras are electrically connected to the front-mounted circuit board; the second MCU chip is accommodated in the front upright post and is electrically connected to the front circuit board; the storage battery is fixed in the front upright post and positioned below the bottom circuit board, and the storage battery is electrically connected with the bottom circuit board and the front circuit board respectively; the support columns are all fixed above the base, the number of the support columns is 4, the support columns are respectively positioned at the left side and the right side of the weight measurement platform, the support columns belonging to the same group are arranged front and back, the grip handles are arranged between the two support columns arranged front and back, the second pressure sensor is arranged inside the grip handles, and the second pressure sensor is electrically connected to the underlying circuit board; the support is connected above the grip handle, and the measuring bracelet and the support form detachable connection so that the measuring bracelet is positioned above the grip handle; the measuring bracelet is arc-shaped, and a plurality of blood oxygen content detection probes are arranged on the inner side of the measuring bracelet; the first wireless communication chip and the second wireless communication chip form communication connection;
college student physical health testing arrangement based on thing networking still includes: a first connecting arm and a second connecting arm; wherein the first connecting arm and the front upright post form rotary connection; the second connecting arm and the first connecting arm form rotary connection; the vital capacity detection device and the second connecting arm form a rotary connection;
the first wireless communication chip is an RFID chip.
2. The college student physical health testing device based on the internet of things according to claim 1, wherein: the second wireless communication chip is an RFID chip.
3. The college student physical health testing device based on the internet of things according to claim 1, wherein: the vital capacity detection device includes an RFID chip capable of communicating with the first wireless communication chip and the second wireless communication chip.
4. The college student physical health testing device based on the internet of things according to claim 1, wherein: the storage battery is a lithium battery.
5. The college student physical health testing device based on the internet of things according to claim 1, wherein: the bracket is provided with a T-shaped interface for clamping the measuring bracelet.
6. The college student physical health testing device based on the internet of things according to claim 5, wherein: the measuring bracelet is provided with T-shaped connectors on two sides of the annular part of the measuring bracelet.
7. The college student physical health testing device based on the internet of things according to claim 6, wherein: the joint of the measuring bracelet is provided with an outer connecting terminal, and the interface of the bracket is provided with an inner connecting terminal for contacting with the outer connecting terminal.
8. The college student physical health testing device based on the internet of things according to claim 7, wherein: the inner connecting terminal is electrically connected to the bottom circuit board.
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