CN115381435B - Cervical vertebra state detection instrument and application method - Google Patents

Abstract

The invention relates to a cervical vertebra state detection instrument and an application method, wherein the instrument comprises a detection sleeve, a plurality of rows of groove groups are annularly distributed on the outer side surface of the detection sleeve, an elastic water bag is arranged in each groove, a plurality of baffle plates are arranged on the outer side surface of the detection sleeve, a plurality of rotating seats and miniature pressure sensors are arranged on the outer side surface of the detection sleeve, and the baffle plates and the rotating seats form a lever assembly for amplifying extrusion force of the elastic water bag; one end of the baffle blocks the elastic water bag, and the other end acts on the miniature pressure sensor; through a row of fluting that sets up, can prescribe a limit to the deformation position of bending, redesign elasticity water pocket comes and lever assembly realizes the amplification and the change detection of extrusion force on this basis, can also utilize the toper working of plastics to stimulate the nonstandard bending of skin neck simultaneously and remind, after obtaining miniature pressure sensor change data, just can simulate the bending form of neck, reaches the accurate detection purpose of cervical vertebra bending degree.

Description

Cervical vertebra state detection instrument and application method

Technical Field

The invention relates to the technical field of cervical vertebra state detection, in particular to a cervical vertebra state detection instrument and an application method.

Background

The cervical vertebra diseases are usually caused by irregular behaviors in daily life and work, such as long-time low head looking mobile phones, and the like, and the currently adopted detection equipment can detect whether bending occurs or not due to the position specificity of the cervical vertebra, but the degree of bending of the cervical vertebra is difficult to further accurately detect, and a detection instrument needs to be further improved to obtain a more accurate judgment basis.

Disclosure of Invention

The invention aims to solve the technical problems of the prior art, provides a cervical vertebra state detection instrument and also provides an application method of the cervical vertebra state detection instrument.

The technical scheme adopted for solving the technical problems is as follows:

the method comprises the steps of constructing a cervical vertebra state detection instrument, wherein the cervical vertebra state detection instrument comprises a detection sleeve which is matched with the neck of a human body to be worn, a plurality of rows of grooved groups are annularly distributed on the outer side surface of the detection sleeve, each row of grooved groups comprises at least three grooves which are longitudinally distributed, the cross section of each groove is in an isosceles triangle shape, and the inner walls of two sides of each groove are respectively two waists of an isosceles triangle; an elastic water bag is arranged in the slot, a plurality of blocking sheets which are positioned at the opening of the slot and used for preventing the elastic water bag from falling off are arranged on the outer side surface of the detection sleeve in a one-to-one correspondence manner, a plurality of rotating seats which are connected with the non-two ends of the blocking sheets in a one-to-one correspondence manner and a plurality of miniature pressure sensors which are in one-to-one correspondence with the blocking sheets are arranged on the outer side surface of the detection sleeve, and the blocking sheets and the rotating seats form a lever assembly for amplifying extrusion force of the elastic water bag; one end of the baffle piece is used for blocking the elastic water bag, and the other end of the baffle piece acts on the miniature pressure sensor; the elastic water bag is connected with a conical plastic part through an elastic telescopic pipe, the elastic water bag is communicated with the elastic telescopic pipe, a plurality of holes which are in one-to-one correspondence with the slots are formed in the inner wall of the detection sleeve, and the conical plastic part and the elastic telescopic pipe are both located in the holes when the elastic water bag is not extruded.

The invention relates to a cervical vertebra state detection instrument, which further comprises an external server, wherein a communication unit, a data processing unit and a power supply battery which are communicated with the external server are connected to the detection sleeve;

the data processing unit is used for recording reading time and continuously detecting the reading of the miniature pressure sensor and the reading of the miniature pressure sensor around the miniature pressure sensor when the miniature pressure sensor reads, recording reading change and sending the reading change to an external server through the communication unit;

the external server correspondingly simulates dynamic images of stress changes in the established three-dimensional model of the detection sleeve according to the readings of the miniature pressure sensors, and takes the dynamic images as a basis file for judging cervical vertebra movements;

the power supply battery is used for supplying power to the communication unit, the data processing unit and the miniature pressure sensors.

The invention discloses a cervical vertebra state detection instrument, which comprises a mounting shell for mounting a communication unit, a data processing unit and a power supply battery, wherein the mounting shell is connected with a detection sleeve through a data line.

The invention discloses a cervical vertebra state detection instrument, wherein the outer side surface of a detection sleeve is provided with a mounting groove for mounting a miniature pressure sensor, and the shape of the mounting groove is matched with that of the miniature pressure sensor.

The invention discloses a cervical vertebra state detection instrument, wherein a baffle plate comprises a first arc-shaped section and a second arc-shaped section which are connected, the connection part of the first arc-shaped section and the second arc-shaped section is rotationally connected with a rotating seat, an opening of the first arc-shaped section faces towards a corresponding slotting, and an opening of the second arc-shaped section faces towards one side away from a detection sleeve.

The invention relates to a cervical vertebra state detecting instrument, wherein a baffle is made of an elastic material.

The invention discloses a cervical vertebra state detection instrument, wherein the slotting group at least comprises four rows and is respectively positioned at the front, back, left and right directions of a detection sleeve.

The application method of the cervical vertebra state detection instrument is as follows by applying the cervical vertebra state detection instrument as described above:

after the detection sleeve is worn, a plurality of miniature pressure sensors are started to enter a detection state;

when the neck of a human body is bent, the neck of the human body acts on the detection sleeve and drives the detection sleeve to bend at one or more corresponding rows of grooves, the grooves are gradually closed and squeeze the elastic water bag when bending, one end of the elastic water bag deforms and squeezes the baffle plate to act on the miniature pressure sensor after being amplified by a lever formed by the baffle plate and the rotating seat, and the other end of the elastic water bag deforms at the elastic telescopic pipe to drive the conical plastic piece to move and extend out of the holes to act on the skin of the human body for reminding;

when the miniature pressure sensor reads, recording the reading time, continuously detecting the reading of the miniature pressure sensor and the reading of the miniature pressure sensor around the miniature pressure sensor, recording the reading change, and sending the reading change to an external server;

and the external server correspondingly simulates dynamic images of stress changes in the established three-dimensional model of the detection sleeve according to the readings of the miniature pressure sensor, and takes the dynamic images as a basis file for judging the cervical vertebra movement.

The invention has the beneficial effects that: after the detection sleeve is worn, a plurality of miniature pressure sensors are started to enter a detection state; when the neck of a human body is bent, the neck of the human body acts on the detection sleeve and drives the detection sleeve to bend at one or more corresponding rows of grooves, the grooves are gradually closed and squeeze the elastic water bag when bending, one end of the elastic water bag deforms and squeezes the baffle plate to act on the miniature pressure sensor after being amplified by a lever formed by the baffle plate and the rotating seat, and the other end of the elastic water bag deforms at the elastic telescopic pipe to drive the conical plastic piece to move and extend out of the holes to act on the skin of the human body for reminding; when the miniature pressure sensor reads, recording the reading time, continuously detecting the reading of the miniature pressure sensor and the reading of the miniature pressure sensor around the miniature pressure sensor, recording the reading change, and sending the reading change to an external server; according to the reading of the miniature pressure sensor, the external server can simulate the dynamic image of the stress change correspondingly in the established three-dimensional model of the detection sleeve, and the dynamic image is used as a basis file for judging the cervical vertebra movement;

through a row of fluting that sets up, can prescribe a limit to the deformation position of bending, redesign elasticity water pocket comes and lever assembly realizes the amplification and the change detection of extrusion force on this basis, can also utilize the toper working of plastics to stimulate the nonstandard bending of skin neck simultaneously and remind, after obtaining miniature pressure sensor change data, just can simulate the bending form of neck, reaches the accurate detection purpose of cervical vertebra bending degree.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, in which the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained by those skilled in the art without inventive effort:

FIG. 1 is a schematic block diagram of a cervical vertebra state detecting instrument according to a preferred embodiment of the present invention;

FIG. 2 is a top view of a cervical vertebra state detecting instrument detecting sleeve according to a preferred embodiment of the present invention;

fig. 3 is a partial sectional view of a cervical vertebrae state detecting instrument detecting sleeve according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the following description will be made in detail with reference to the technical solutions in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present invention, based on the embodiments of the present invention.

As shown in figure 1, the cervical vertebra state detection instrument of the preferred embodiment of the invention comprises a detection sleeve 1 which is matched with the neck of a human body, wherein a plurality of rows of grooved groups are annularly distributed on the outer side surface of the detection sleeve 1, each row of grooved groups comprises at least three grooves 2 which are longitudinally distributed, the section of each groove 2 is in an isosceles triangle shape, and two side inner walls of each groove 2 are respectively two waists of the isosceles triangle shape; the groove 2 is internally provided with an elastic water bag 3, the outer side surface of the detection sleeve 1 is provided with a plurality of blocking pieces 4 which are positioned at the opening of the groove 2 and are in one-to-one correspondence to prevent the elastic water bag 3 from falling off, the outer side surface of the detection sleeve 1 is provided with a plurality of rotating seats 5 which are in one-to-one correspondence to the positions of the non-two ends of the blocking pieces 4 and a plurality of miniature pressure sensors 6 which are in one-to-one correspondence to the blocking pieces 4, and the blocking pieces 4 and the rotating seats 5 form a lever assembly for amplifying the extrusion force of the elastic water bag 3; one end of the baffle 4 blocks the elastic water bag 3, and the other end acts on the miniature pressure sensor 6; the elastic water bag 3 is connected with a conical plastic part 8 through an elastic telescopic pipe 7 (the head is preferably blunt and round when the elastic water bag is arranged, so that the neck of a human body cannot be hurt when the elastic water bag is reminded), the elastic water bag 3 is communicated with the elastic telescopic pipe 7, a plurality of openings 10 which are in one-to-one correspondence with the slots are formed in the inner wall of the detection sleeve 1, and the conical plastic part 8 and the elastic telescopic pipe 7 are both positioned in the openings 10 when the elastic water bag 3 is not extruded;

after the detection sleeve is worn, a plurality of miniature pressure sensors 6 are started to enter a detection state; when the neck of a human body is bent, the neck of the human body acts on the detection sleeve 1 and drives the detection sleeve 1 to bend at one or more corresponding rows of grooves 2, the grooves 2 are gradually closed and squeeze the elastic water bag 3 during bending, one end of the elastic water bag 3 deforms and squeezes to act on the baffle plate 4, a lever formed by the baffle plate 4 and the rotating seat 5 is amplified and acts on the miniature pressure sensor 6, the other end of the elastic water bag 3 deforms at the elastic telescopic tube 7 and drives the conical plastic piece 8 to move and extend out of the opening 10 to act on the skin of the human body to remind; when the miniature pressure sensor 6 reads, the reading time is recorded, the reading of the miniature pressure sensor 6 is continuously detected, the reading change is recorded, and the miniature pressure sensor 6 is transmitted to the external server 9; according to the reading of the miniature pressure sensor 6, the external server 9 can simulate the dynamic image of the stress change correspondingly in the established three-dimensional model of the detection sleeve, and the dynamic image is used as a basis file for judging the cervical vertebra movement;

the bending deformation position can be limited through the arranged row of grooves 2, the elastic water bag 3 and the lever assembly are designed on the basis to realize the amplification and change detection of extrusion force, meanwhile, the conical plastic piece 8 can be used for prompting the irregular bending of the skin neck, and after the change data of the miniature pressure sensor 6 are obtained, the bending form of the neck can be simulated, so that the purpose of accurately detecting the bending degree of the cervical vertebra is achieved;

it should be noted that, the detection sleeve 1 may be made of soft rubber materials with appropriate hardness, and the detection sleeve may be designed into an open loop shape (when open loop, the openings may be connected by a zipper, a snap fastener, etc.), or may be set into a multi-flap splicing shape (as shown in fig. 2, a two-flap combination mode is shown, and the splicing position may be in a form of a snap fastener assembly, etc.), so as to facilitate wearing;

when the device is arranged, the slotting set is preferably arranged to at least comprise four rows and is respectively positioned at the front, the back, the left and the right of the detection sleeve so as to detect four states of the most basic head lowering, head lifting and head deflection.

Preferably, the cervical vertebra state detecting instrument further comprises an external server 9, and the detecting sleeve 1 is connected with a communication unit 11, a data processing unit 12 and a power supply battery 13 which are communicated with the external server;

the data processing unit 12 is used for recording the reading time and continuously detecting the reading of the miniature pressure sensor and the reading of the miniature pressure sensor around the miniature pressure sensor when the miniature pressure sensor reads, recording the reading change and sending the reading change to an external server through the communication unit;

the external server 9 correspondingly simulates dynamic images of stress changes in the established three-dimensional model of the detection sleeve according to the readings of the plurality of miniature pressure sensors, and takes the dynamic images as a basis file for judging the cervical vertebra movements;

a power supply battery 13 for supplying power to the communication unit, the data processing unit, and the plurality of micro pressure sensors;

the data can be well transmitted through the combination form, the dynamic image of stress change is simulated through three-dimensional modeling, and the dynamic image is used as a basis file for judging cervical vertebra movement.

The cervical vertebra state detecting instrument comprises a mounting communication unit 11, a data processing unit 12 and a mounting shell of a power supply battery 13, wherein the mounting shell is connected with a detecting sleeve through a data line.

Preferably, the outer side surface of the detection sleeve 1 is provided with a mounting groove for mounting the miniature pressure sensor 6, and the shape of the mounting groove is matched with that of the miniature pressure sensor 6; the baffle 4 is made of elastic materials and comprises a first arc-shaped section 40 and a second arc-shaped section 41 which are connected, the connection part of the first arc-shaped section 40 and the second arc-shaped section 41 is rotationally connected with the rotating seat 5, the opening of the first arc-shaped section 40 faces towards the corresponding slotting, and the opening of the second arc-shaped section 41 faces towards one side away from the detection sleeve 1; the whole is good, and the external object is not easy to hang, and the structural design is more reasonable.

The application method of the cervical vertebra state detection instrument is as follows by applying the cervical vertebra state detection instrument as described above:

after the detection sleeve is worn, a plurality of miniature pressure sensors are started to enter a detection state;

when the neck of a human body is bent, the neck of the human body acts on the detection sleeve and drives the detection sleeve to bend at one or more corresponding rows of grooves, the grooves are gradually closed and squeeze the elastic water bag when bending, one end of the elastic water bag deforms and squeezes the baffle plate to act on the miniature pressure sensor after being amplified by a lever formed by the baffle plate and the rotating seat, and the other end of the elastic water bag deforms at the elastic telescopic pipe to drive the conical plastic piece to move and extend out of the holes to act on the skin of the human body for reminding;

when the miniature pressure sensor reads, recording the reading time, continuously detecting the reading of the miniature pressure sensor and the reading of the miniature pressure sensor around the miniature pressure sensor, recording the reading change, and sending the reading change to an external server;

the external server simulates a stress change dynamic image correspondingly in the established three-dimensional model of the detection sleeve according to the reading of the miniature pressure sensor, and takes the dynamic image as a basis file for judging the cervical vertebra movement;

through a row of fluting that sets up, can prescribe a limit to the deformation position of bending, redesign elasticity water pocket comes and lever assembly realizes the amplification and the change detection of extrusion force on this basis, can also utilize the toper working of plastics to stimulate the nonstandard bending of skin neck simultaneously and remind, after obtaining miniature pressure sensor change data, just can simulate the bending form of neck, reaches the accurate detection purpose of cervical vertebra bending degree.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (5)

1. The cervical vertebra state detecting instrument is characterized by comprising a detecting sleeve which is matched with the neck of a human body to be worn, wherein a plurality of rows of grooved groups are annularly distributed on the outer side surface of the detecting sleeve, each row of grooved groups comprises at least three grooves which are longitudinally distributed, the cross section of each groove is in an isosceles triangle shape, and the inner walls of two sides of each groove are respectively two waists of an isosceles triangle; an elastic water bag is arranged in the slot, a plurality of blocking sheets which are positioned at the opening of the slot and used for preventing the elastic water bag from falling off are arranged on the outer side surface of the detection sleeve in a one-to-one correspondence manner, a plurality of rotating seats which are connected with the non-two ends of the blocking sheets in a one-to-one correspondence manner and a plurality of miniature pressure sensors which are in one-to-one correspondence with the blocking sheets are arranged on the outer side surface of the detection sleeve, and the blocking sheets and the rotating seats form a lever assembly for amplifying extrusion force of the elastic water bag; one end of the baffle piece is used for blocking the elastic water bag, and the other end of the baffle piece acts on the miniature pressure sensor; the elastic water bag is connected with a conical plastic part through an elastic telescopic pipe, the elastic water bag is communicated with the elastic telescopic pipe, a plurality of openings which are in one-to-one correspondence with the slots are formed in the inner wall of the detection sleeve, and the conical plastic part and the elastic telescopic pipe are both positioned in the openings when the elastic water bag is not extruded;

the outer side surface of the detection sleeve is provided with a mounting groove for mounting the miniature pressure sensor, and the shape of the mounting groove is matched with that of the miniature pressure sensor; the baffle comprises a first arc-shaped section and a second arc-shaped section which are connected, the joint of the first arc-shaped section and the second arc-shaped section is rotationally connected with the rotating seat, the opening of the first arc-shaped section faces towards the corresponding slotting, and the opening of the second arc-shaped section faces towards one side deviating from the detection sleeve; the baffle is made of an elastic material.

2. The cervical vertebra state detecting instrument according to claim 1, further comprising an external server, wherein the detecting sleeve is connected with a communication unit, a data processing unit and a power supply battery, wherein the communication unit, the data processing unit and the power supply battery are communicated with the external server;

the data processing unit is used for recording reading time and continuously detecting the reading of the miniature pressure sensor and the reading of the miniature pressure sensor around the miniature pressure sensor when the miniature pressure sensor reads, recording reading change and sending the reading change to an external server through the communication unit;

the external server correspondingly simulates dynamic images of stress changes in the established three-dimensional model of the detection sleeve according to the readings of the miniature pressure sensors, and takes the dynamic images as a basis file for judging cervical vertebra movements;

the power supply battery is used for supplying power to the communication unit, the data processing unit and the miniature pressure sensors.

3. The cervical vertebrae state detecting instrument according to claim 2, wherein the cervical vertebrae state detecting instrument includes a mounting case to which the communication unit, the data processing unit, and the power supply battery are mounted, the mounting case being connected with the detecting sleeve through a data line.

4. The apparatus according to any one of claims 1 to 3, wherein the slot group comprises at least four rows and is positioned in four directions of front, rear, left and right of the detection sleeve.

5. An application method of a cervical vertebra state detection instrument, which is applied to the cervical vertebra state detection instrument as claimed in any one of claims 1-4, and is characterized in that the implementation method is as follows:

after the detection sleeve is worn, a plurality of miniature pressure sensors are started to enter a detection state;

when the neck of a human body is bent, the neck of the human body acts on the detection sleeve and drives the detection sleeve to bend at one or more corresponding rows of grooves, the grooves are gradually closed and squeeze the elastic water bag when bending, one end of the elastic water bag deforms and squeezes the baffle plate to act on the miniature pressure sensor after being amplified by a lever formed by the baffle plate and the rotating seat, and the other end of the elastic water bag deforms at the elastic telescopic pipe to drive the conical plastic piece to move and extend out of the holes to act on the skin of the human body for reminding;

when the miniature pressure sensor reads, recording the reading time, continuously detecting the reading of the miniature pressure sensor and the reading of the miniature pressure sensor around the miniature pressure sensor, recording the reading change, and sending the reading change to an external server;

and the external server correspondingly simulates dynamic images of stress changes in the established three-dimensional model of the detection sleeve according to the readings of the miniature pressure sensor, and takes the dynamic images as a basis file for judging the cervical vertebra movement.

Images