CN216257085U

CN216257085U - Intelligent spine curvature monitoring system

Info

Publication number: CN216257085U
Application number: CN202122335961.6U
Authority: CN
Inventors: 徐丹萍; 劳越明
Original assignee: Shaoxing University Yuanpei College
Current assignee: Shaoxing University Yuanpei College
Priority date: 2021-09-26
Filing date: 2021-09-26
Publication date: 2022-04-12
Anticipated expiration: 2031-09-26

Abstract

The utility model discloses an intelligent spine curvature monitoring system which comprises a vest, a first monitoring device, a second monitoring device and a third monitoring device, wherein the vest is arranged on the first monitoring device; the first monitoring device, the second monitoring device and the third monitoring device are respectively arranged at the upper part, the middle part and the lower part of the vest corresponding to the spine of the human body and are used for detecting the upper bending angle, the middle bending angle and the lower bending angle of the spine of the human body; the spine bending angle monitoring device carries out spine bending angle monitoring at a plurality of point positions through the first monitoring device, the second monitoring device and the third monitoring device, can accurately measure the dynamic bending curvature and the bending angle of a measured curved surface, has no influence of the tensile deformation of cloth on the bending measurement result, breaks through the common tightening type humpback preventing vests in the market, gives better experience to a wearer, reminds and corrects the spine bending phenomenon of teenagers by using an intelligent system, does not cause burden and damage to the body of the teenagers, and achieves the effect of preventing the spine bending in a healthy way.

Description

Intelligent spine curvature monitoring system

Technical Field

The utility model relates to the technical field of spinal curvature monitoring, in particular to an intelligent spinal curvature monitoring system.

Background

The prevention and treatment of the humpback are researched by domestic and foreign medical institutions and scientific research institutions, but the existing humpback prevention products for teenagers in domestic markets are still at the middle and low end level, mainly stay in the elastic body-shaping products with great restraint feeling like 'shouldering well', and inhibit the humpback phenomenon of the teenagers through tight and elastic properties. A product is a 'health and profits sitting and seeing treasure', which is in an ear-hanging type design, when a student is incorrect in reading and writing posture and eyes are too close to books, a slight 'ding-dong' sound can be given out to remind the child to keep the sitting posture correct at any time.

There are also some research utility models such as "visomate (weishimei) vision protector in this respect abroad for preventing humpback. The product and the sitting vision treasure have the design of isogeny and isogeny, the sitting posture requirement of a computer user is designed, the product is placed right above the display, and when the distance between the head and the display is within 60cm, the blue lamp is lighted; within 35cm, the LED red light will be lighted, within the distance, if the user still does not correct the sitting posture within 15 seconds, far away from the display screen, the product will sound a buzzer to remind the user to correct the sitting posture.

One of the problems existing in the existing intelligent technology is that the current market is not standard enough, and the anti-humpback reliability of the intelligent technology is mostly not strictly scientifically identified. In addition, there are aspects that need to be continuously improved, such as the aesthetic property of the clothing design in the aspect of wearability, the convenience of data collection and transmission of the intelligent module, and the like, and the aspect of price, the current intelligent clothing is still at a higher price, and is difficult to achieve the market popularization.

Meanwhile, the traditional strain sensor requires perfect fit with a human body, once a sliding measurement result is generated, the problem that continuous measurement cannot be carried out or the measurement precision is poor easily occurs, the existing spine monitoring device mostly adopts single-point monitoring, the blank monitoring easily occurs, so that errors are caused in judgment, and the humpback prevention effect is difficult to achieve.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the problem of poor measurement precision caused by the single-point monitoring adopted by the spine monitoring device in the prior art; an intelligent spinal curvature monitoring system is provided.

The technical problem of the utility model is mainly solved by the following technical scheme: an intelligent spine curvature monitoring system comprises a vest, a first monitoring device, a second monitoring device and a third monitoring device; the first monitoring device, the second monitoring device and the third monitoring device are respectively arranged at the upper part, the middle part and the lower part of the vest corresponding to the spine of the human body and are used for detecting the upper bending angle, the middle bending angle and the lower bending angle of the spine of the human body; the first monitoring device, the second monitoring device and the third monitoring device all include: the patch type angle detection sensor is used for detecting the information of the spinal bending angle; the single chip microcomputer is used for acquiring angle detection information of the surface mount type angle detection sensor, comparing a threshold value according to the detection information, judging whether spinal curvature is in a bad posture or not, and connecting the single chip microcomputer with the surface mount type angle detection sensor; the alarm module comprises a vibration alarm circuit and a sound alarm circuit, and is used for performing vibration and sound alarm when the singlechip judges that the spinal column is bent to be in a bad posture and connected with the singlechip; the power supply module supplies power to the surface mount type angle detection sensor, the single chip microcomputer and the alarm module; and the display module is used for displaying the electric quantity information and is connected with the single chip microcomputer. The multi-point monitoring of the spinal curvature angle is realized by arranging the first monitoring device, the second monitoring device and the third monitoring device, the accuracy of spinal curvature angle detection is improved, the measurement precision is higher, the sitting posture prompt is carried out through the alarm module, and the device is different from the traditional forced correction.

Preferably, the monitoring system further comprises a first wireless communication module and an intelligent terminal, and the first monitoring device is connected with the intelligent terminal through the first wireless communication module. The intelligent terminal is a mobile phone, and monitoring information is received and displayed in the mobile phone, so that parents can remotely control the sitting posture state of children in real time.

Preferably, the monitoring device further comprises a second wireless communication module, the second monitoring device and the third monitoring device are connected with the first monitoring device through the second wireless communication module, and the second wireless communication module is used for monitoring that the information of the bending angle of the spine monitored by the second monitoring device and the third monitoring device is transmitted to the first monitoring device. Remote information transmission is carried out through a single monitoring device, power consumption is reduced, cost is saved, and intelligent products can better enter the mass market.

Preferably, the first wireless communication module comprises a bluetooth sending module and a bluetooth receiving module, the second wireless communication module comprises a first WIFI sending module, a first WIFI receiving module, a second WIFI sending module and a second WIFI receiving module, the bluetooth sending module is installed in the first monitoring device, the bluetooth receiving module is installed in the intelligent terminal, the first WIFI sending module is installed in the second monitoring device, the second WIFI sending module is installed in the third monitoring device, the first WIFI receiving module and the second WIFI receiving module are connected with a single chip microcomputer in the first monitoring device, and the single chip microcomputer in the first monitoring device is connected with the bluetooth sending module.

Preferably, the patch type angle detection sensor is a flexible pressure sensor. The flexible pressure sensor is adopted, so that the flexible pressure sensor can be better matched with the design of the vest and is not easy to damage.

Preferably, the chip angle detection sensor further comprises a signal adjusting resistor, an operational amplifier and a gyroscope module, wherein the signal adjusting resistor is connected with the patch angle detection sensor in parallel and then is connected to the positive phase input end of the operational amplifier, the negative phase input end and the output end of the operational amplifier are connected to the input end of the gyroscope module, and the output end of the gyroscope module is connected to the single chip microcomputer. The range of voltage acquisition data can be changed by changing the size of the signal adjusting resistor, so that the sensitivity of the sensor is changed, the resistance of the sensor is greatly reduced by arranging the operational amplifier, the loss of signals is reduced, and the accuracy of the circuit for measuring data is improved.

Preferably, the vest is provided with elongated pockets for accommodating the first monitoring device, the second monitoring device and the third monitoring device at positions corresponding to the spine. Adopt the first monitoring devices of rectangular shape pocket fixed mounting, second monitoring devices and third monitoring devices, make things convenient for first monitoring devices, second monitoring devices and third monitoring devices dismantle, make the undershirt wash, and simultaneously, the product is not direct contact with human backbone, the security is improved, the sensor need not laminate with human perfect, only need to fix the inductor device on the central line behind the undershirt, the crooked action of humpback takes place when human backbone, through the data acquisition to the different three points of back backbone, can accurately reflect the crooked state of backbone, and its crooked testing result is difficult for receiving surface fabric tensile deformation's influence.

Preferably, the singlechip adopts an esp8266 development module.

The utility model has the beneficial effects that: (1) the spine bending angle monitoring is carried out at a plurality of point positions through the first monitoring device, the second monitoring device and the third monitoring device, so that the dynamic bending curvature and the bending angle of the measured curved surface can be accurately measured, and the bending measurement result is not influenced by the stretching deformation of the cloth; (2) the first monitoring device, the second monitoring device and the third monitoring device can be disassembled on the vest of the garment, so that the vest can be conveniently cleaned; (3) the vest breaks through the common tightening type humpback preventing vests in the market, gives better experience feeling to wearers, reminds and corrects the phenomenon of spinal curvature of teenagers by using an intelligent system, does not cause burden and damage to bodies of the teenagers, and achieves the effect of preventing the spinal curvature in a healthy way.

Drawings

Fig. 1 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention.

Fig. 2 is a circuit schematic diagram of a signal detection section of an embodiment of the present invention.

In the figure, 1, a vest, 2, a first monitoring device, 3, a second monitoring device, 4 and a third monitoring device.

Detailed Description

The technical scheme of the utility model is further specifically described by the following embodiments and the accompanying drawings.

Example (b): the utility model provides an intelligence backbone bending monitoring system, as shown in figure 1, including undershirt 1, first monitoring device 2, second monitoring device 3 and third monitoring device 4, the position that the undershirt corresponds with the backbone is provided with the rectangular shape pocket that is used for holding first monitoring device, second monitoring device and third monitoring device, first monitoring device, second monitoring device and third monitoring device install respectively in the upper portion that the undershirt corresponds with human backbone, middle part and lower part position, be used for detecting the upper portion bending angle of human backbone, middle part bending angle and lower part bending angle.

The first monitoring device, the second monitoring device and the third monitoring device all include: the patch type angle detection sensor is used for detecting the information of the spinal bending angle; the single chip microcomputer is used for acquiring angle detection information of the surface mount type angle detection sensor, comparing a threshold value according to the detection information, judging whether spinal curvature is in a bad posture or not, and connecting the single chip microcomputer with the surface mount type angle detection sensor; the alarm module comprises a vibration alarm circuit and a sound alarm circuit, and is used for performing vibration and sound alarm when the singlechip judges that the spinal column is bent to be in a bad posture and connected with the singlechip; and the power supply module supplies power to the patch type angle detection sensor, the singlechip and the alarm module, and the singlechip adopts an esp8266 development module.

The surface mount type angle detection sensor is a flexible pressure sensor, the flexible material is a concept corresponding to the rigid material, and generally, the flexible material has the properties of softness, low modulus, easy deformation and the like. Common flexible materials are: polyvinyl alcohol (PV A), Polyester (PT), polyimide (P I), polyethylene naphthalate (PE N), paper sheets, textile materials and the like, wherein the flexible sensor is a sensor made of a flexible material, has good flexibility, extensibility, and can be freely bent or even folded, and the structure form is flexible and various, and can be randomly arranged according to the requirement of measurement conditions, so that the complex measured quantity can be conveniently detected.

The utility model is also provided with a first wireless communication module, a second wireless communication module and an intelligent terminal, wherein the first monitoring device is connected with the intelligent terminal through the first wireless communication module, the second monitoring device and a third monitoring device are connected with the first monitoring device through the second wireless communication module, the second wireless communication module is used for monitoring spinal bending angle information monitored by the second monitoring device and the third monitoring device and transmitting the spinal bending angle information to the first monitoring device, the first wireless communication module comprises a Bluetooth transmitting module and a Bluetooth receiving module, the second wireless communication module comprises a first WIFI transmitting module, a first WIFI receiving module, a second WIFI transmitting module and a second WIFI receiving module, the Bluetooth transmitting module is arranged in the first monitoring device, the Bluetooth receiving module is arranged in the intelligent terminal, the first WIFI transmitting module is arranged in the second monitoring device, the second WIFI transmitting module is arranged in the third monitoring device, the first WIFI receiving module and the second WIFI receiving module are connected with a single chip microcomputer in the first monitoring device, and the single chip microcomputer in the first monitoring device is connected with the Bluetooth sending module.

The utility model is provided with an autonomous detection reminding mode and a parent monitoring reminding mode, under the autonomous detection reminding mode, a user carries out autonomous sitting posture correction according to the vibration or the prompt of a buzzer, and under the home owner monitoring reminding mode, a parent carries out remote prompt according to the spinal curvature angle displayed in a mobile phone.

As shown in fig. 2, the utility model is further provided with an adjusting resistor R2, an operational amplifier U1 and a gyroscope module for signal processing, the signal adjusting resistor R2 is connected in parallel with the patch type angle detection sensor R1 and then is connected to the positive phase input end of the operational amplifier U1, the negative phase input end and the output end of the operational amplifier U1 are connected to the input end of the gyroscope module, and the output end of the gyroscope module is connected to the single chip microcomputer. Because paster formula angle detection sensor R1 can make resistance change through the bending, therefore the voltage of VOUT end will change, and the change of voltage can be gathered to the analog port that is connected to the singlechip, changes into the digital quantity to measure out crooked sensor's change, can change the scope of voltage acquisition data through the resistance size that changes signal conditioning resistance R2 in addition, thereby change the sensitivity of sensor. Because the resistance of the patch type angle detection sensor R1 is very large (22k-40k), the impedance buffer area is added, so that the output resistance is greatly reduced, the loss of signals is reduced, and the accuracy of the data measured by the circuit is improved.

According to the utility model, the electric quantity display screen is also arranged in the strip-shaped pocket of the vest and is used for displaying the residual electric quantity of the first monitoring device, the second monitoring device and the third monitoring device, and the bending measurement results of the first monitoring device, the second monitoring device and the third monitoring device are not influenced by the tensile deformation of cloth, so that in the practical application process, the sensor is not required to be perfectly bonded with the curved surface of the body to be measured, only the fabric is required to be attached, and the small-range fluctuation is allowed.

In practical application, different modes can be selected through the display to adjust to the best suitable mode of the display. The speaker may also be turned on or off via the display. A vibration or mute mode may also be selected. The data of the user in one day can be checked at the mobile phone end, the spine is too bent when the data is read, the spine state is good when the data is read, and the user is reminded in such a mode. So as to improve the bending condition of the spine consciously. The bending degree can be set through the mobile phone end to grasp the self spinal state.

The vest selects the surface auxiliary materials with certain air permeability, stiffness, softness, wearing resistance and low cost, selects different fabrics to perform comparison test of wearing comfort, and performs specific function analysis on the test result. The test items comprise the analysis and comparison of the soft and hard degree, the washability, the wear resistance, the safety, the air permeability and other performances of the fabric, and the final selection and analysis are carried out. Meanwhile, the inner-layer structure and the outer-layer structure of the vest are optimized, so that the mounting and the use of the back spine curvature detection system are facilitated, the functionality is met, the flexibility is as light and thin as possible, and the factors of attractiveness, physiological and psychological health of teenagers, no influence of stretching deformation of the fabric on the bending measurement result and the like are considered.

According to the utility model, the wearable back spine bending angle sensor is combined with the back spine bending degree detection system, so that the bending measurement result is not influenced by the stretching deformation of the garment material; the sensor and the detection sensing system are combined with the soft close-fitting and easy-to-clean fabric, and the designed anti-humpback intelligent garment has both comfort and functionality. The detachable sensor, the detection system and other equipment are convenient to clean the vest, the sensor is very convenient to wear, better use experience is brought to a user, and the cost performance of the detachable sensor is effectively improved; breaks through the common tightening type humpback preventing waistcoat in the market and provides better experience for wearers. An intelligent system is utilized to remind and correct the phenomenon of spinal curvature of the teenager. The spine curvature can be prevented in a healthy way without causing burden and damage to the body of the teenagers.

The utility model is different from the existing humpback correction belt which is used for correcting humpback, the elasticity of the correction belt is utilized to force people to straighten and adjust the posture, the adjustment mode can cause binding feeling and uncomfortable feeling for people, and the adjustment is not carried out by the people independently, the effect is difficult to achieve.

According to the utility model, the wearable device spine bending angle sensor is combined with the back spine bending degree detection system, the function of accurately measuring the dynamic bending curvature and the bending angle of the back curved surface of the human body by using the sensor is utilized, the back bending degree of the wearer is accurately mastered, and the wearable device spine bending degree detection system is different from other functions of reminding the wearer to adjust the sitting posture more accurately and effectively by using the distance between the wearer and the object to be detected.

The utility model aims to prevent the humpback phenomenon by prompting the wearer to adjust the posture in a conscious way when the posture is improper, and the daily work and study of the wearer cannot be interfered. There is currently a humpback prevention vest that alerts the wearer by vibrating and massaging the wearer after the humpback of the wearer is discovered. The utility model has different technical methods for designing the humpback preventing core.

The above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and other variations and modifications may be made without departing from the spirit of the utility model as set forth in the claims.

Claims

1. An intelligent spinal curvature monitoring system, comprising:

a vest, a first monitoring device, a second monitoring device, and a third monitoring device; the first monitoring device, the second monitoring device and the third monitoring device are respectively arranged at the upper part, the middle part and the lower part of the vest corresponding to the spine of the human body and are used for detecting the upper bending angle, the middle bending angle and the lower bending angle of the spine of the human body;

the first monitoring device, the second monitoring device and the third monitoring device all include:

the patch type angle detection sensor is used for detecting the information of the spinal bending angle;

the single chip microcomputer is used for acquiring angle detection information of the surface mount type angle detection sensor, comparing a threshold value according to the detection information, judging whether spinal curvature is in a bad posture or not, and connecting the single chip microcomputer with the surface mount type angle detection sensor;

the alarm module comprises a vibration alarm circuit and a sound alarm circuit, and is used for performing vibration and sound alarm when the singlechip judges that the spinal column is bent to be in a bad posture and connected with the singlechip;

the power supply module supplies power to the surface mount type angle detection sensor, the single chip microcomputer and the alarm module;

and the display module is used for displaying the electric quantity information and is connected with the single chip microcomputer.

2. An intelligent spinal curvature monitoring system according to claim 1,

the intelligent monitoring system is characterized by further comprising a first wireless communication module and an intelligent terminal, wherein the first monitoring device is connected with the intelligent terminal through the first wireless communication module.

3. An intelligent spinal curvature monitoring system according to claim 2,

the spine bending angle monitoring device comprises a first monitoring device and a second monitoring device, and is characterized by further comprising a second wireless communication module, wherein the second monitoring device and the third monitoring device are connected with the first monitoring device through the second wireless communication module, and the second wireless communication module is used for monitoring the spine bending angle information monitored by the second monitoring device and the third monitoring device and transmitting the spine bending angle information to the first monitoring device.

4. An intelligent spinal curvature monitoring system according to claim 3,

the first wireless communication module comprises a Bluetooth sending module and a Bluetooth receiving module, the second wireless communication module comprises a first WIFI sending module, a first WIFI receiving module, a second WIFI sending module and a second WIFI receiving module, the Bluetooth sending module is installed in the first monitoring device, the Bluetooth receiving module is installed in the intelligent terminal, the first WIFI sending module is installed in the second monitoring device, the second WIFI sending module is installed in the third monitoring device, the first WIFI receiving module and the second WIFI receiving module are connected with a single chip microcomputer in the first monitoring device, and the single chip microcomputer in the first monitoring device is connected with the Bluetooth sending module.

5. An intelligent spinal curvature monitoring system according to claim 1,

the patch type angle detection sensor is a flexible pressure sensor.

6. An intelligent spinal curvature monitoring system according to claim 1,

the chip angle detection sensor is characterized by further comprising a signal adjusting resistor, an operational amplifier and a gyroscope module, wherein the signal adjusting resistor is connected with the patch angle detection sensor in parallel and then is connected with a positive phase input end of the operational amplifier, a negative phase input end and an output end of the operational amplifier are connected with an input end of the gyroscope module, and an output end of the gyroscope module is connected with the single chip microcomputer.

7. An intelligent spinal curvature monitoring system according to claim 1,

the vest is provided with elongated pockets for accommodating the first monitoring device, the second monitoring device and the third monitoring device at positions corresponding to the spine.

8. An intelligent spinal curvature monitoring system according to claim 1,

the singlechip adopts an esp8266 development module.