阅读说明：本技术 一种脊柱纠正器及其纠正方法 (Spinal column corrector and correction method thereof ) 是由 宋吉满 于 2020-05-08 设计创作，主要内容包括：本发明公开了一种脊柱纠正器及其纠正方法,脊柱纠正器包括肩带、背带、腰带,所述肩带包括左肩带和右肩带,所述腰带内侧设有用于收紧腰带及对腰部施加推力的腰部气囊,所述背部束缚结构内侧设有用于收紧和对背部施加推力的背部气囊；所述背部束缚结构外侧设有用于检查穿戴角度的角度处理模块,所述腰带外侧设有用于接收角度处理模块信息、对腰部气囊和背部气囊检测气囊气压及进行充放气的核心控制盒；本发明的纠正器通过主动力提醒方式来纠正脊柱弯曲问题,更加智能和舒适。(The invention discloses a spine corrector and a correcting method thereof, wherein the spine corrector comprises shoulder straps, braces and a waistband, the shoulder straps comprise a left shoulder strap and a right shoulder strap, the inner side of the waistband is provided with a waist airbag for tightening the waistband and applying thrust to the waist, and the inner side of a back binding structure is provided with a back airbag for tightening and applying thrust to the back; an angle processing module for checking a wearing angle is arranged on the outer side of the back binding structure, and a core control box for receiving information of the angle processing module, detecting air pressure of the waist air bag and the back air bag and inflating and deflating the waist air bag and the back air bag is arranged on the outer side of the waistband; the corrector corrects the spinal curvature problem in a main power reminding mode, and is more intelligent and comfortable.)

1. A spine corrector comprises a shoulder strap, a back strap (4) and a waist belt (3), and is characterized in that the shoulder strap comprises a left shoulder strap (1) and a right shoulder strap (2), the rear part of the left shoulder strap (1) is connected with the rear part of the right shoulder strap (2) to form an X-shaped structure, the connection point of the left shoulder strap (1) and the right shoulder strap (2) is positioned at two sides of a back constraint structure (5), the bottom of the back constraint structure (5) is connected with the upper end of the back strap (4), the lower end of the back strap (4) is attached to the spine position of a human body and is downwards connected with the waist belt (3), a waist airbag (7) for tightening the waist belt (3) and applying thrust to the waist is arranged at the inner side of the waist belt (3), and a back airbag (8) for tightening and applying thrust to the back is arranged; back constraint structure (5) outside is equipped with angle processing module (9) that are used for the inspection angle of wearing, waistband (3) outside is equipped with and is used for receiving angle processing module (9) information, detects gasbag atmospheric pressure and fill core control box (6) of gassing to waist gasbag (7) and back gasbag.

2. The spinal column corrector according to claim 1, wherein the core control box (6) comprises a battery, a waist air release valve, a back air release valve, a waist electric air pump, a back electric air pump, a waist air pressure sensor, a back air pressure sensor and a central processing unit inside, the input end of the central processing unit is electrically connected with the output ends of the back air pressure sensor, the waist air pressure sensor and the angle processing module (9), the output end of the central processing unit is electrically connected with the control ends of the back electric air pump, the back air release valve, the waist electric air pump and the waist air release valve, the core control box (6) is inflated and deflated through an air pipe and a waist air bag (7) and a back air bag (8), the waist electric air pump, the waist air release valve, the waist air bag (7) and the waist air pressure sensor are mutually communicated through an air pipe, and the, The back air release valve, the back air bag (8) and the back air pressure sensor are communicated with each other through an air pipe.

3. The spinal corrector as claimed in claim 2, characterized in that said angle processing module (9) comprises an angle sensor for collecting spinal bending data and an angle processor for logically processing the collected spinal bending data, the data output of the angle sensor being electrically connected to the input of the angle processor and the output of the angle processor being electrically connected to the input of the central processor.

4. The spinal orthosis of claim 1, wherein the lumbar bladder (8) comprises a lumbar bladder pocket that changes from flat to thin to a cylindrical-like shape when inflated, and the lumbar bladder pocket is sewn to the inside of the waist belt (3) and contacts the lumbar spinal site, and the back bladder (7) comprises a back bladder pocket that changes from flat to thin to a cylindrical-like shape when inflated, and the back bladder pocket is disposed on the inside of the back restraint structure (5).

5. The spinal corrector of claim 4, wherein the detachable component comprises any one or more of a velcro, a snap, a tape, and a zipper.

6. A spinal correction method for a spinal corrector as claimed in claim 3, comprising the steps of:

(1) switching on a power supply, and initializing a waist air bag (7), a back air bag (8), an angle processing module (9), a core control box (6) and basic functions;

(2) an opening angle processing module (9) for collecting spinal curvature data;

(3) the angle sensor sends the collected spinal curvature data to the angle processor;

(4) the angle processor performs logic processing on the collected spinal curvature data to obtain a processing result and sends the processing result to the central processor;

(5) the central processing unit controls the waist electric air pump, the waist air release valve, the back electric air pump and the back air release valve according to the processing result;

(6) the central processing unit reads the air pressure values of the waist air pressure sensor and the back air pressure sensor and judges the pressure states of the waist air bag (7) and the back air bag (8);

(7) and the central processing unit reads the spine posture recovery data, and releases the gas in the waist air bag (7) and the back air bag (8) to recover the natural state.

7. The spinal correction method of a spinal corrector of claim 6, wherein said step (1) comprises: initializing an IO interface of the waist electric air pump and an IO interface of the back electric air pump, initializing an I O interface of the waist air pressure sensor and the back air pressure sensor, initializing an IO interface of the waist air release valve and the back air pressure valve, initializing an IO interface of a key and an indicator light, initializing a communication serial port of the angle processing module (9), and automatically reporting data of the starting angle sensor;

and (2) after the angle sensor is opened, starting a serial port receiving function of the central processing unit and receiving data of the angle processor.

8. The spinal correction method of a spinal corrector as claimed in claim 6, wherein in said step (3), said angle sensor transmits the collected spinal curvature data to the angle processor at a fixed period.

9. The spinal correction method of a spinal corrector as claimed in claim 6, wherein in said step (4), said logic processing method is: and (5) the central processing unit utilizes the spinal curvature data periodically sent by the angle processor as a control basis of the step (5).

10. The spinal correction method of a spinal corrector as claimed in claim 6, wherein in said step (5), said logic processing method is: the spine bending data acquired by the central processing unit and the information of the air pressure states of the waist air bag and the back air bag calculate the control quantity through a PID closed-loop control algorithm, and the control quantity is calculated into control data; the control data comprises the inflation quantity of the waist electric air pump and the back electric air pump or the deflation quantity of the waist air release valve and the back air release valve;

the waist spine bending data are acquired, the calculation result is the bending of the spine of the wearer when the acquired waist spine bending data are larger than the set threshold, and the waist electric air pump in the acquired control data is in an inflated state to drive the waist air bag (7) to inflate so as to tighten the waistband (3) and push the waist spine part to actively remind the wearer;

when the collected back spine bending data are larger than a set threshold value, the calculation result is that the spine of the wearer is bent, the state of the back electric air pump in the obtained control data is air inflation, the back air bag (8) is driven to inflate, and the back binding structure (5) is tightened and the back spine part is pushed to actively remind the wearer;

when the collected spinal curvature data is smaller than a set threshold value, the calculation result is that the spinal of the wearer is upright, the state of the waist electric air pump or the back electric air pump in the obtained control data is air leakage, the binding force and the thrust of the corresponding position are relaxed, and the relaxation work is completed.

Technical Field

The invention particularly relates to the technical field of body shape correction tools, and particularly relates to a spine corrector and a correction method thereof.

Background

In recent years, the proportion of spinal curvature of primary and secondary school students in China is high, and the spinal curvature of the primary and secondary school students is related to poor long-term posture and excessive body load of children. At present, students in middle and primary schools have heavy lessons, schoolbag sinks more and more, systematic physical activities are less and less, muscle and ligament strength is not enough to exercise, and normal state and function of the spine can be directly influenced if a load is born on a certain shoulder for a long time.

The back and back good product in the market at present basically adopts the principle of passive correction of the back, the waist and the shoulders, is pushed to the market for 20 years, is improved to a certain extent only in the aspects of thinner fabric, lighter weight and stronger elasticity of a drawstring, and when used by primary and secondary school students, the spine is maintained in an ideal posture due to passive stress, but relevant muscles and ligaments do not actively exert force while maintaining the straight and straight posture, the back and back good product is worn for a long time and has strong dependence, and once the back and back good product is removed, the long-term effect of maintaining the straight and straight posture by depending on self strength is difficult to achieve in most cases.

Therefore, it is of great interest to develop a spinal orthosis that ameliorates the deficiencies of the prior art.

Disclosure of Invention

The present invention is directed to a spinal corrector, which solves the above problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a spine corrector comprises shoulder straps, braces and a waistband, wherein the shoulder straps comprise a left shoulder strap and a right shoulder strap, the rear part of the left shoulder strap is connected with the rear part of the right shoulder strap to form an X-shaped structure, the connection point of the left shoulder strap and the right shoulder strap is positioned at two sides of a back binding structure, the bottom of the back binding structure is connected with the upper end of the braces, the lower end of the braces is attached to the spine of a human body, the waistband is downwards connected with the spine position of the lower end of the braces, a waist airbag for tightening the waistband and applying thrust to the waist is arranged on the inner side of the waistband, and a back airbag for tightening and applying thrust to the back; the back constraint structure outside is equipped with the angle processing module who is used for the inspection angle of dressing, the waistband outside is equipped with and is used for receiving angle processing module information, detects the core control box that gasbag atmospheric pressure and fill the gassing to waist gasbag and back gasbag.

Further scheme: the inside battery, waist snuffle valve, back snuffle valve, waist electric air pump, back electric air pump, waist baroceptor, back baroceptor, central processing unit that include of core control box, central processing unit's input links to each other with the output electricity of back baroceptor, waist baroceptor and angle processing module respectively, the central processing unit output links to each other with the control end electricity of back electric air pump, back snuffle valve, waist electric air pump, the waist snuffle valve, the core control box fills the gassing through trachea and waist gasbag and back gasbag, and waist electric air pump, waist snuffle valve, waist gasbag and waist baroceptor communicate each other through the trachea, and back electric air pump, back snuffle valve, back gasbag and back baroceptor communicate each other through the trachea.

Further scheme: the angle processing module comprises an angle sensor for collecting spinal curvature data and an angle processor for performing logic processing on the collected spinal curvature data, the data output end of the angle sensor is electrically connected with the input end of the angle processor, and the output end of the angle processor is electrically connected with the input end of the central processing unit.

Further scheme: the angle processing module adopts a nine-axis sensor module and communicates with the central processing unit in a serial port mode.

Further scheme: the waist gasbag is including becoming similar columniform waist gasbag parcel bag from flat thin after inflating, waist gasbag parcel bag sews up in the waistband inboard and contacts with waist backbone position, the back gasbag is including inflating the back gasbag parcel bag that can become similar columniform from flat thin, back gasbag parcel bag sets up at back constraint structure medial surface.

Further scheme: the both ends of waistband are provided with detachable components, the waistband is fixed in wearer's waist through detachable components.

Further scheme: the detachable component comprises any one or a combination of a magic tape, a buckle, a hasp, a thin belt and a zipper.

Compared with the prior art, the invention has the beneficial effects that:

1. the spine corrector of the invention improves the defects of the prior art, corrects the bending problem of the spine by a main power reminding mode, and particularly, the spine corrector detects the forward and lateral bending degrees of the back through an angle sensor, gives out the main power reminding when the bending exceeds a normal range, enables teenagers to actively change the body posture, push up the chest and exert force, exercises related muscles and ligaments, maintains the normal push-up and pull-up body posture, strengthens the exercise of the related muscles, forms muscle memory, and finally can be separated from the corrector;

2. the corrector of the invention is more comfortable to wear for a long time, more flexible to move and free from generating tight feeling on the body;

3. the corrector has certain intellectualization, has greater attraction to teenagers, and reduces the resistance psychology of the teenagers to the spine corrector.

Another object of the present invention is to provide a spine correction method of a spine corrector, comprising the steps of:

(1) switching on a power supply, and initializing the waist airbag, the back airbag, the angle processing module, the core control box and the basic functions;

(2) opening the angle processor and collecting spinal curvature data;

(3) the angle sensor sends the collected spinal curvature data to the angle processor;

(4) the angle processor performs logic processing on the collected spinal curvature data to obtain a processing result and sends the processing result to the central processor;

(5) the central processing unit controls the waist electric air pump, the waist air escape valve, the back electric air pump and the back air escape valve according to the processing result;

(6) the central processing unit reads the air pressure values of the waist air pressure sensor and the back air pressure sensor and judges the pressure states of the waist air bag and the back air bag;

(7) the central processing unit reads the spine posture recovery data, and releases the air in the waist air bag and the back air bag to recover the natural state;

the step (1) comprises the following steps: initializing IO interfaces of the waist electric air pump and the back electric air pump, initializing IO interfaces of the waist air pressure sensor and the back air pressure sensor, initializing IO interfaces of the waist air release valve and the back air pressure valve, initializing IO interfaces of a key and an indicator light, initializing a communication serial port of the angle processing module, and automatically reporting data of the starting angle sensor;

and (2) after the angle sensor is opened, starting a serial port receiving function of the central processing unit and receiving data of the angle processor.

In the step (3), the angle sensor sends the collected spinal curvature data to the angle processor in a fixed period.

In the step (4), the logic processing method includes: and (5) the central processing unit utilizes the spinal curvature data periodically sent by the angle processor as a control basis of the step (5).

In the step (5), the logic processing method includes: the spine bending data acquired by the central processing unit and the information of the air pressure states of the waist air bag and the back air bag calculate the control quantity through a PID closed-loop control algorithm, and the control quantity is calculated into control data; the control data comprises the inflation quantity of the waist electric air pump and the back electric air pump or the deflation quantity of the waist air release valve and the back air release valve.

In the step (6), the central processing unit judges the inflation and deflation logic of the waist air bag by taking the air pressure value of the waist air pressure sensor, and judges the inflation and deflation logic of the back air bag by taking the air pressure value of the back air pressure sensor;

in the step (7), after the reminding, the wearer corrects the posture, if the angle processing module returns the spine posture recovery data, the central processing unit controls the waist air release valve to release gas in the waist air bag and controls the back air release valve to release gas in the back air bag, so that the air bag is completely recovered to the normal atmospheric pressure state.

The waist spine bending data are acquired, the calculation result is the bending of the spine of the wearer when the acquired waist spine bending data are larger than the set threshold, and the waist electric air pump in the acquired control data is in an inflated state to drive the waist air bag to inflate so as to tighten the waistband and push the waist spine part to actively remind the wearer;

when the collected back spine bending data is larger than a set threshold value, the calculation result is that the spine of the wearer is bent, the state of the back electric air pump in the obtained control data is air inflation, a back air bag is driven to inflate, and tightening of back binding cloth and pushing of the back spine position are completed to actively remind the wearer;

when the collected spinal curvature data is smaller than a set threshold value, the calculation result is that the spinal of the wearer is upright, the state of the waist electric air pump or the back electric air pump in the obtained control data is air leakage, the binding force and the thrust of the corresponding position are relaxed, and the relaxation work is completed.

Further, after the central processing unit receives the complete data sent by the angle processor, the central processing unit analyzes the data according to the communication protocol of the angle processor, if the current information is available, the current spinal curvature information is updated, and if not, the central processing unit abandons waiting for the next data. Specifically, the data transmission has a fixed format or a fixed protocol, and the parsing is performed according to the protocol, and if the parsing is abnormal (e.g., a check bit error or an abnormal data length), the data is discarded.

Further, in the idle period of data reception, central processing unit entering control program carries out gasbag atmospheric pressure according to the crooked information of backbone and resolves, and the result of resolving includes that the wearing person backbone is crooked, the wearing person backbone is upright, when the wearing person backbone is crooked, utilizes the crooked data of backbone to resolve the inflation atmospheric pressure value of waist gasbag and back gasbag, then aerifys corresponding gasbag, makes the wearing person experience binding force and thrust to the realization reminds the straight thoracic vertebra of wearing person.

Furthermore, once the angle sensor detects that the spine of the human body is bent to a certain degree, the central processing unit controls the waist airbag and the back airbag to inflate to drive the waistband and the back wrapping structure to tighten, so that the back of the human body can feel pulling force and can generate pushing force to the back spine and the waist spine, and a wearer is reminded more practically; otherwise, in case angle sensor detects the human body and resumes the upright gesture of backbone, triggers waist gasbag and back gasbag gassing, drives waistband and back parcel structure release pulling force, reduces back vertebra and waist vertebra thrust simultaneously to play the purpose of initiatively reminding.

Drawings

FIG. 1 shows a front view of a spinal corrector according to an embodiment of the present invention worn on a human body.

FIG. 2 illustrates a rear view of a spinal corrector of an embodiment of the present invention worn on a human body.

FIG. 3 illustrates a system component diagram of a spinal corrector, in accordance with an embodiment of the present invention.

In the figure: 1-left shoulder strap, 2-right shoulder strap, 3-waistband, 4-harness, 5-back binding structure, 6-core control box, 7-waist airbag, 8-back airbag and 9-angle processing module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, in an embodiment of the present invention, a spine corrector includes a shoulder strap, a back strap 4, and a waist belt 3; the shoulder straps comprise a left shoulder strap 1 and a right shoulder strap 2, the rear part of the left shoulder strap 1 is connected with the rear part of the right shoulder strap 2 to form an X-shaped structure, the connection point of the left shoulder strap 1 and the right shoulder strap 2 is positioned at two sides of a back binding structure 5, the bottom of the back binding structure 5 is connected with the upper end of a back strap 4, the lower end of the back strap 4 is attached to the spine position of a human body and is downwards connected with a waistband 3, a waist airbag 7 for tightening the waistband 3 and exerting thrust on the waist is arranged at the inner side of the waistband 3, and a back airbag 8 for tightening and exerting thrust on the back is arranged at the inner side of; the back constraint structure 5 outside is equipped with the angle processing module 9 that is used for the inspection angle of wearing, the waistband 3 outside is equipped with and is used for receiving angle processing module 9 information, detects gasbag atmospheric pressure and fills the core control box 6 of gassing to waist gasbag 7 and back gasbag.

6 inside batteries, waist snuffle valve, back snuffle valve, waist electric air pump, back electric air pump, waist baroceptor, back baroceptor, central processing unit including of core control box, central processing unit's input links to each other with back baroceptor, waist baroceptor and angle processing module 9's output electricity respectively, the central processing unit output links to each other with back electric air pump, back snuffle valve, waist electric air pump, the control end electricity that the waist was snuffle, core control box 6 fills the gassing through trachea and waist gasbag 7 and back gasbag 8, waist electric air pump, waist snuffle valve, waist gasbag 7 and waist baroceptor communicate each other through the trachea, back electric air pump, back snuffle valve, back gasbag 8 and back baroceptor pass through the trachea and communicate each other, therefore, back gasbag 8 and waist gasbag 7 can be in core control through one set of independent inflation and gassing mechanism respectively The automatic independent inflation and deflation functions are realized under the control of the box 6.

The angle processing module 9 comprises an angle sensor for collecting spinal curvature data and an angle processor for performing logic processing on the collected spinal curvature data, the data output end of the angle sensor is electrically connected with the input end of the angle processor, and the output end of the angle processor is electrically connected with the input end of the central processing unit.

The angle processing module adopts a nine-axis sensor module, can collect original data of a gyroscope, acceleration and magnetic moment and carries out corresponding data calculation, the angle processing module communicates with the central processing unit in a serial port mode, and the central processing unit controls the waist air bag 7 and the back air bag 8 to inflate and deflate according to requirements by using the calculated data and the feedback data of the waist air pressure sensor and the back air pressure sensor.

Waist gasbag 8 can become similar columniform waist gasbag parcel bag from flat thin after aerifing, waist gasbag parcel bag sews up in 3 inboards of waistband and with the contact of waist backbone position, back gasbag 7 can become similar columniform back gasbag parcel bag from flat thin after aerifing, back gasbag parcel bag sets up at 5 medial surfaces of back constraint structure, and the waist gasbag that wherein set up inflates, drives waist gasbag bag and becomes cylindrically by flat thin shape, waist gasbag bag causes waistband length to shorten because of taking place deformation, thereby the constraint power strengthens, and waist gasbag 8 is inflated deformation and is caused the waist backbone to receive the thrust that the waist gasbag inflation produced for remind the person of dress to correct the spinal curvature, and in the same way, back gasbag parcel bag can produce thrust to the back backbone, is used for reminding the person of dress to correct the spinal curvature.

Both ends of the waistband 3 are provided with detachable parts, and the waistband 3 is fixed on the waist of a wearer through the detachable parts.

The detachable component comprises any one or more of a magic tape, a buckle, a hasp, a thin belt and a zipper, when the detachable component is selected from the magic tape, the two ends of the waistband 3 are respectively provided with a first magic tape and a second magic tape, and the waistband 3 is fixed on the waist of a wearer through the adhesion of the first magic tape and the second magic tape.

Another object of the present invention is to provide a spine correction method, comprising the steps of:

(1) the power supply is switched on, and the waist air bag 7, the back air bag 8, the angle processing module 9, the core control box 6 and the basic functions are initialized;

(2) opening the angle processor and collecting spinal curvature data;

(3) the angle sensor sends the collected spinal curvature data to the angle processor;

(4) the angle processor performs logic processing on the collected spinal curvature data to obtain a processing result and sends the processing result to the central processor;

(5) the central processing unit controls the waist electric air pump, the waist air escape valve, the back electric air pump and the back air escape valve according to the processing result;

(6) the central processing unit reads the air pressure values of the waist air pressure sensor and the back air pressure sensor and judges the pressure states of the waist air bag 7 and the back air bag 8;

(7) the central processing unit reads the spine posture recovery data, and then releases the air in the waist air bag 7 and the back air bag 8 to recover the natural state;

the step (1) comprises the following steps: initializing an IO interface of the waist electric air pump and the back electric air pump, an IO interface of the waist air pressure sensor and the back air pressure sensor, an IO interface of the waist air release valve and the back air pressure valve, an IO interface of the key and the indicator light, a communication serial port of the angle processing module 9, and an automatic data reporting function of starting the angle sensor;

and (2) after the angle sensor is opened, starting a serial port receiving function of the central processing unit and receiving data of the angle processor.

In the step (3), the angle sensor sends the collected spinal curvature data to the angle processor in a fixed period.

In the step (4), the logic processing method includes: and (5) the central processing unit utilizes the spinal curvature data periodically sent by the angle processor as a control basis of the step (5).

In the step (5), the logic processing method includes: the spine bending data acquired by the central processing unit and the information of the air pressure states of the waist air bag and the back air bag calculate the control quantity through a PID closed-loop control algorithm, and the control quantity is calculated into control data; the control data comprises the inflation quantity of the waist electric air pump and the back electric air pump or the deflation quantity of the waist air release valve and the back air release valve.

In the step (6), the central processing unit judges the inflation and deflation logic of the waist air bag 7 by taking the air pressure value of the waist air pressure sensor, and judges the inflation and deflation logic of the back air bag 8 by taking the air pressure value of the back air pressure sensor;

in the step (7), after the reminding, the wearer corrects the posture, if the angle processing module returns the spine posture recovery data, the central processing unit controls the waist air release valve to release gas in the waist air bag 7 and controls the back air release valve to release gas in the back air bag 8, so that the air bags are all restored to the normal atmospheric pressure state.

The waist spine bending data are acquired, the calculation result is the bending of the spine of the wearer when the acquired waist spine bending data are larger than the set threshold, and the waist electric air pump in the acquired control data is in an inflated state to drive the waist air bag 7 to inflate so as to tighten the waistband 3 and push the waist spine part to actively remind the wearer;

when the collected back spine bending data is larger than a set threshold value, the calculation result is that the spine of the wearer is bent, the state of the back electric air pump in the obtained control data is air inflation, the back air bag 8 is driven to inflate, and the tightening of the back binding cloth 5 material and the pushing of the back spine position are completed to actively remind the wearer;

when the collected spinal curvature data is smaller than a set threshold value, the calculation result is that the spinal of the wearer is upright, the state of the waist electric air pump or the back electric air pump in the obtained control data is air leakage, the binding force and the thrust of the corresponding position are relaxed, and the relaxation work is completed.

Further, after the central processing unit receives the complete data sent by the angle processing unit, the central processing unit analyzes the data according to the communication protocol of the angle processing unit, if the current information is available, the current spinal curvature information is updated, otherwise, the next data is waited to be transmitted, specifically, the data is transmitted with a fixed format or a fixed protocol, the data is analyzed according to the protocol, and if the analysis is abnormal (such as a check bit error and an abnormal data length), the data is abandoned.

Further, in the idle period of data receiving, the central processing unit enters a control program and carries out air bag air pressure calculation according to the spinal curvature information, and the calculation result comprises spinal curvature of the wearer and spinal erection of the wearer. When the spine of the wearer is bent, the inflation air pressure values of the waist air bag 7 and the back air bag 8 are calculated by using the spine bending data, then the corresponding air bags are inflated, so that the wearer feels the binding force and the pushing force, and the straight thoracic vertebra of the wearer is reminded.

Further, once the angle sensor detects that the spine of the human body is bent to a certain degree, the central processing unit controls the waist airbag 7 and the back airbag 8 to inflate to drive the waistband 3 and the back wrapping structure 5 to tighten, so that the back of the human body can feel pulling force and can generate pushing force to the back spine and the waist spine, and a wearer is reminded more practically; on the contrary, once the angle sensor detects that the human body restores the upright posture of the spine, the waist air bag 7 and the back air bag 8 are triggered to deflate, the waistband 3 and the back wrapping structure 5 are driven to release the pulling force, and meanwhile, the pushing force of the back spine and the waist spine is reduced, so that the purpose of active reminding is achieved.

The central processing unit of the invention monitors the angle processing module 9 in real time through the serial port, returns data, and starts the data resolving process of the human body spinal curvature information once the serial port normally receives the data, thereby completing the acquisition and the update of the corresponding human body spinal curvature information.

The spine corrector provided by the invention overcomes the defects of the prior art, corrects the spine bending problem in a main power prompting mode, and particularly, the spine corrector detects the forward and lateral bending degrees of the back through the angle sensor, gives out a main power prompt when the bending exceeds a normal range, enables teenagers to actively change the body posture, push up the chest and exert force, exercises related muscles and ligaments, maintains the normal push-up and pull-up body posture, strengthens the exercise of the related muscles, forms muscle memory, and finally can be separated from the corrector.

In addition, the corrector of the invention is more comfortable to wear for a long time, is more flexible to move, and does not generate tight feeling on the body.

In addition, the corrector has certain intellectualization, has greater attraction to teenagers, and reduces the resistance psychology of the teenagers to the spine corrector.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art.