CN109545396B - Monitoring method of neck brace - Google Patents

Abstract

The invention discloses a monitoring method of a neck brace, wherein a server is connected with a user terminal through a network, and a doctor terminal is connected with the server through the network; the control method comprises the following steps: the pressure sensor collects pressure signals of the neck support body and then sends the pressure signals to the signal processor; the signal processor transmits the pressure data to the user terminal through the communication device; the user terminal displays the pressure data, and the user terminal compares the pressure data with the optimal pressure range to generate a comparison result; the user terminal sends the pressure data and the comparison result to a server, and the server stores the pressure data and the comparison result; the doctor terminal or the user terminal sends a signal for checking the data of the intelligent neck brace to the server, the server sends the pressure data and the comparison result to the doctor terminal or the user terminal, and the doctor terminal or the user terminal displays the pressure data and the comparison result. The invention has the advantages of simplicity and easiness in use, reduces the dependence of patients on doctors, and is convenient for doctors to know the treatment condition of the patients.

Description

Monitoring method of neck brace

Technical Field

The invention relates to the field of medical treatment, in particular to a monitoring method of a neck brace.

Background

Cervical spondylosis is mainly caused by long-term strain hyperosteogeny of cervical vertebra or prolapse of intervertebral disc, and ligament is thickened, so that cervical spinal cord, nerve root or vertebral artery are pressed, and a series of clinical syndromes of dysfunction appear. The vertebral segment is unstable and loose; herniation or herniation of the nucleus pulposus; bone spur formation; ligament hypertrophy, secondary spinal stenosis, etc., irritate or press adjacent nerve root, spinal cord, vertebral artery, cervical sympathetic nerve, etc., causing a series of symptoms and signs. The cervical vertebra traction is a main symptom relieving means for treating cervical spondylosis, can effectively relieve the compression of nerves, blood vessels and spinal cords, can quickly relieve cervical spondylosis symptoms, and enables the cervical vertebra to recover normal functions; however, the existing neck brace is manually controlled to pull the force, the force is adjusted by the feeling of the patient, the expected treatment effect cannot be achieved when the neck brace is used without the correct guidance of a doctor, and even secondary injury is caused to cervical spondylosis patients.

Disclosure of Invention

The present invention is directed to a method for monitoring a neck brace, which solves the above-mentioned problems.

To achieve the purpose, the invention adopts the following technical scheme:

a monitoring method of a neck brace comprises an intelligent neck brace, a user terminal, a server and a doctor terminal; the intelligent neck support comprises a neck support body, a plurality of pressure sensors, a plurality of displacement sensors, wherein the pressure sensors and the displacement sensors are distributed around the neck support body, the pressure sensors and the displacement sensors are respectively and electrically connected with the signal processor, the signal processor is electrically connected with the communication device, the communication device is connected with a user terminal network, and the user terminal is preset with an optimal pressure range; the server is connected with the user terminal through a network, and the doctor terminal is connected with the server through the network; the control method further comprises the following steps:

step 1, each pressure sensor respectively collects pressure signals of all parts of the neck support body, and then sends the pressure signals to the signal processor; the displacement sensor detects displacement signals of all positions of the neck support body, and then sends the displacement signals to the signal sensor;

step 2, the signal processor converts the pressure signal into pressure data, converts the displacement signal into displacement data, and then sends the pressure data and the displacement data to the user terminal through the communication device;

step 3, the user terminal displays the pressure data and the displacement data, and then the user terminal compares and analyzes the received pressure data with an optimal pressure range and generates a comparison result;

step 4, the user terminal sends displacement data, pressure data and comparison results thereof to the server, and the server stores the displacement data, the pressure data and the comparison results thereof;

and 5, the doctor terminal or the user terminal sends a signal for checking the data of the intelligent neck brace to the server, and the server sends the displacement data, the pressure data and the comparison result thereof to the doctor terminal or the user terminal, and the doctor terminal or the user terminal displays the displacement data, the pressure data and the comparison result thereof.

The method also comprises the following steps:

step 6, the doctor terminal sends an optimal pressure range adjusting instruction to the server, and the server sends the optimal pressure range adjusting instruction to the user terminal;

the user terminal adjusts the optimal pressure range according to the optimal pressure range adjusting instruction;

and 7, returning to the step 3.

The user terminal is internally preset with a pressure difference threshold value, each pressure sensor corresponds to a number, the signal processor respectively sends the pressure data detected by each pressure sensor and the number corresponding to the pressure data to the user terminal, and then the user terminal compares the pressure data:

when the difference value between the pressure data exceeds the pressure difference threshold value, the user terminal gives an alarm and displays the number corresponding to the abnormal pressure data;

and when the difference value between the pressure data does not exceed the pressure difference threshold value, the user terminal displays that the pressure difference is normal.

In the step 3:

when the pressure data is larger than the optimal pressure range, the user terminal displays a warning signal of overlarge pressure;

when the pressure data is smaller than the optimal pressure range, the user terminal displays a warning signal that the pressure is too small;

and when the pressure data is within the optimal pressure range, the user terminal displays a pressure normal signal.

In the step 3, the user terminal stores the pressure data, automatically records the time point corresponding to each pressure data, and then performs comparison analysis on the pressure data corresponding to each time point and the optimal pressure range, and generates a comparison result.

In the step 5, the server generates a time-pressure curve according to the pressure data and the corresponding time point, and then sends the time-pressure curve to the doctor terminal or the user terminal.

The doctor terminal sends a first text message to the server, the server sends the first text message to the user terminal, and the user terminal displays the first text message after receiving the first text message;

the user terminal sends a second text message to the server, the server sends the second text message to the doctor terminal, and the doctor terminal displays the second text message after receiving the second text message.

The beneficial effects of the invention are as follows: 1. the pressure sensor is arranged on the intelligent neck support, so that the traction force of the intelligent neck support can be judged more accurately according to the pressure data, and the intelligent neck support is simpler and easier to use; 2. the optimal pressure range is set on the user terminal, so that the cervical spondylosis patient can correctly adjust the traction force of the intelligent neck brace under the condition of no doctor; 3. a doctor can check the treatment condition of the cervical spondylosis patient through the doctor terminal, so that the disease condition of the cervical spondylosis patient can be conveniently tracked; 4. the treatment data of the cervical spondylosis patients are stored in the server, so that doctors and the cervical spondylosis patients can conveniently check the historical data at any time, and the doctors can more accurately guide the treatment of the cervical spondylosis patients according to the historical data.

Drawings

The present invention is further illustrated by the accompanying drawings, which are not to be construed as limiting the invention in any way.

FIG. 1 is a schematic illustration of the connection of one embodiment of the present invention;

FIG. 2 is a schematic diagram of an interactive flow according to one embodiment of the present invention;

FIG. 3 is a schematic diagram of an interactive flow according to another embodiment of the present invention;

FIG. 4 is a message interaction flow diagram of one embodiment of the present invention;

wherein: intelligent neck brace 1, user terminal 2, server 3, doctor terminal 4.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

The monitoring method of the neck brace of the embodiment, as shown in fig. 1, comprises an intelligent neck brace, a user terminal, a server and a doctor terminal; the intelligent neck support comprises a neck support body, a plurality of pressure sensors, a plurality of displacement sensors, wherein the pressure sensors and the displacement sensors are distributed around the neck support body, the pressure sensors and the displacement sensors are respectively and electrically connected with the signal processor, the signal processor is electrically connected with the communication device, the communication device is connected with a user terminal network, and the user terminal is preset with an optimal pressure range; the server is connected with the user terminal through a network, and the doctor terminal is connected with the server through the network; as shown in fig. 2, the control method further includes the steps of:

step 1, each pressure sensor respectively collects pressure signals of all parts of the neck support body, and then sends the pressure signals to the signal processor; the displacement sensor detects displacement signals of all positions of the neck support body, and then sends the displacement signals to the signal sensor;

step 2, the signal processor converts the pressure signal into pressure data, converts the displacement signal into displacement data, and then sends the pressure data and the displacement data to the user terminal through the communication device;

step 3, the user terminal displays the pressure data and the displacement data, and then the user terminal compares and analyzes the received pressure data with an optimal pressure range and generates a comparison result;

step 4, the user terminal sends displacement data, pressure data and comparison results thereof to the server, and the server stores the displacement data, the pressure data and the comparison results thereof;

and 5, the doctor terminal or the user terminal sends a signal for checking the data of the intelligent neck brace to the server, and the server sends the displacement data, the pressure data and the comparison result thereof to the doctor terminal or the user terminal, and the doctor terminal or the user terminal displays the displacement data, the pressure data and the comparison result thereof.

The invention can help patients to know the traction force and time of the cervical vertebra in real time during self rehabilitation training, and standardizes 'cervical vertebra non-operative treatment' so as to promote cervical muscle force and cervical vertebra curvature recovery. Meanwhile, the intelligent neck support and the user terminal can monitor the use condition of a patient in real time, and help the patient to achieve the maximum curative effect and safely use the neck support. The patient can evaluate the treatment effect by oneself and upload the training result to the remote server through the network, can supply medical expert to look over at any time, and medical expert also can utilize the network to carry out corresponding adjustment to the training plan on the remote device, effectively solves the patient and carries out rehabilitation training to the hospital and cause the problem that hospital bed is tense or the place is limited.

According to the invention, the plurality of pressure sensors and the displacement sensors are arranged on the neck support body so as to detect the pressure values of all parts of the neck support body and the displacement of the neck support body in real time, and then the user terminal 2 displays the pressure data and the displacement, so that a cervical spondylosis patient can judge the traction force of the intelligent neck support 1 according to the pressure data detected by the pressure sensors when using the neck support, the traction force is quantized into the pressure data in detail, and the judgment of the traction force of the intelligent neck support 1 is simpler; in addition, the action gesture of the neck support body can be judged according to the displacement so as to be convenient for adjusting the neck support.

The optimal pressure range is preset in the user terminal 2, so that a cervical spondylosis patient can correctly adjust the traction force of the intelligent neck brace 1 according to the optimal pressure range by himself, and even if no doctor exists, the traction force of the neck brace can be correctly adjusted, thereby achieving the expected treatment effect and reducing the dependence of the cervical spondylosis patient on the doctor.

The pressure data and the optimal pressure data of the cervical spondylosis patients when the intelligent neck brace 1 is used are compared and analyzed, and then the pressure data and the comparison result are uploaded to the server 3 for storage, so that the patients or doctors can check the historical treatment data at any time, the doctors can conveniently analyze the historical treatment data, and then more accurate treatment guidance is provided for the cervical spondylosis patients, and a better treatment effect is achieved.

As shown in fig. 3, the method further comprises the following steps:

step 6, the doctor terminal sends an optimal pressure range adjusting instruction to the server, and the server sends the optimal pressure range adjusting instruction to the user terminal;

the user terminal adjusts the optimal pressure range according to the optimal pressure range adjusting instruction;

and 7, returning to the step 3.

When a cervical spondylosis patient just begins to use the intelligent neck support 1 for traction treatment, in order to avoid discomfort of the cervical spondylosis patient in the treatment process or secondary injury of the cervical vertebra caused by overlarge traction force, smaller traction force can be used in the initial treatment stage, so that the cervical spondylosis patient has an adaptive process, and then the traction force of the intelligent neck support 1 is gradually increased in the treatment process; the cervical vertebra function of the cervical vertebra patient after the repeated traction treatment can be gradually recovered along with the traction treatment, so that the traction force of the intelligent neck support 1 is gradually reduced to achieve the optimal treatment effect in order to adapt to the recovered cervical vertebra; in the whole treatment process, a doctor can check the treatment condition of a cervical spondylosis patient through the doctor terminal 4, then sends an instruction for adjusting the optimal pressure range to the user terminal 2 through the server 3 according to the treatment condition of the patient so as to change the preset optimal pressure range in the user terminal 2, and the cervical spondylosis patient can adjust the traction force of the intelligent neck brace 1 according to the optimal pressure range in the treatment process, and the traction force which is suitable for the cervical spondylosis patient in different treatment stages is accurately used, so that the treatment effect is more remarkable; in addition, doctors can adjust the optimal pressure range of the intelligent neck brace 1 remotely, so that the time for cervical spondylosis patients to go back and forth to hospitals and wait in line can be reduced, and the treatment experience of cervical spondylosis patients is better.

The user terminal 2 is preset with a pressure difference threshold value, each pressure sensor corresponds to a number, the signal processor sends the pressure data detected by each pressure sensor and the number corresponding to the pressure data to the user terminal 2 respectively, and then the user terminal 2 compares the pressure data:

when the difference value between the pressure data exceeds the pressure difference threshold value, the user terminal 2 gives an alarm and displays the number corresponding to the abnormal pressure data;

when the difference between the pressure data does not exceed the pressure difference threshold, the user terminal 2 displays that the pressure difference is normal.

When a cervical spondylosis patient uses the intelligent neck support 1 for traction treatment, the situation that traction force of the intelligent neck support 1 is uneven exists, if the cervical spondylosis patient uses the uneven traction force for long-term treatment, the expected treatment effect cannot be achieved, and the cervical vertebra is easily damaged for the second time; the traction force of the intelligent neck support 1 can be directly reflected by the pressure data, each pressure sensor can be corresponding to each position of the intelligent neck support 1 by numbering each pressure sensor, the pressure difference threshold can limit the pressure difference of each position of the intelligent neck support 1, and when the traction force of the intelligent neck support 1 is uneven and the pressure difference of each position exceeds the pressure difference threshold, the user terminal 2 gives an alarm to enable a cervical spondylosis patient to adjust the intelligent neck support 1 in time; in addition, the user terminal 2 displays the numbers of the two pressure sensors with the pressure difference exceeding the pressure difference threshold value, so that the cervical spondylosis patient can know two positions with larger pressure difference of the intelligent neck support 1, and then the traction force of the two positions is readjusted, so that the stress on the cervical vertebra is uniform.

In step 3:

when the pressure data is larger than the optimal pressure range, the user terminal 2 displays an excessive pressure warning signal;

when the pressure data is smaller than the optimal pressure range, the user terminal 2 displays a warning signal of too small pressure;

when the pressure data is within the optimal pressure range, the user terminal 2 displays a pressure normal signal.

In the process of adjusting the intelligent neck brace 1, the cervical spondylosis patient is inevitably stressed too much or too little, at this time, the user terminal 2 sends out a stress too much warning signal or a stress too little warning signal, preferably, the user terminal 2 is a mobile phone, and when the stress data is larger than the optimal stress range, the screen of the user terminal 2 flashes red; when the pressure data is smaller than the optimal pressure range, the screen of the user terminal 2 flashes to yellow, and when the pressure data is within the optimal pressure range, the user terminal 2 flashes to green, so that a prompting effect can be played for a cervical spondylosis patient, the visual degree of the cervical spondylosis patient is higher, the cervical spondylosis patient is easy to distinguish, and the cervical spondylosis patient can be timely reminded of adjusting the traction force of the intelligent neck brace 1 to be within the optimal pressure range.

In the step 3, the user terminal 2 stores the pressure data, automatically records a time point corresponding to each pressure data, and then performs a comparison analysis on the pressure data corresponding to each time point and the optimal pressure range, and generates a comparison result.

When the cervical spondylosis patient uses the intelligent neck brace 1 to carry out traction treatment, the pressures generated at different time points are different, and the doctor can judge the treatment condition of the cervical spondylosis patient through the pressure change by recording the pressure generated at each time point so as to make correct treatment guidance.

In the step 5, the server 3 generates a time-pressure curve from the pressure data and the corresponding time point thereof, and then transmits the time-pressure curve to the doctor terminal 4 or the user terminal 2.

Compared with the checking of the pressure data and the corresponding time points, the checking of the time-pressure curve can more intuitively find the problems of the cervical spondylosis patients in the treatment process, the treatment condition of the cervical spondylosis patients can be mastered more easily, and the workload of doctors can be reduced effectively.

As shown in fig. 4, the doctor terminal 4 sends a first text message to the server 3, the server 3 sends the first text message to the user terminal 2, and the user terminal 2 displays the first text message after receiving the first text message;

the user terminal 2 sends a second text message to the server 3, the server 3 sends the second text message to the doctor terminal 4, and the doctor terminal 4 displays the second text message after receiving the second text message.

The doctor terminal 4 and the user terminal 2 mutually send the text message so that the communication between the doctor and the cervical spondylosis patients is more convenient, and the text message can be more understood than the voice message due to the condition that the voice message can be inaudible or inaudible, so that the text message is not easy to generate misunderstanding, and disputes caused by misunderstanding of both sides of a doctor and a patient can be effectively avoided.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (5)

1. The monitoring method of the neck brace is characterized by comprising an intelligent neck brace, a user terminal, a server and a doctor terminal; the intelligent neck support comprises a neck support body, a plurality of pressure sensors, a plurality of displacement sensors, wherein the pressure sensors and the displacement sensors are distributed around the neck support body, the pressure sensors and the displacement sensors are respectively and electrically connected with the signal processor, the signal processor is electrically connected with the communication device, the communication device is connected with a user terminal network, and the user terminal is preset with an optimal pressure range; the server is connected with the user terminal through a network, and the doctor terminal is connected with the server through the network; the monitoring method further comprises the following steps:

step 1, each pressure sensor respectively collects pressure signals of all parts of the neck support body, and then sends the pressure signals to the signal processor; the displacement sensor detects displacement signals of all positions of the neck support body and then sends the displacement signals to the signal processor;

step 2, the signal processor converts the pressure signal into pressure data, converts the displacement signal into displacement data, and then sends the pressure data and the displacement data to the user terminal through the communication device;

step 3, the user terminal displays the pressure data and the displacement data, and then the user terminal compares and analyzes the received pressure data with an optimal pressure range and generates a comparison result;

step 4, the user terminal sends displacement data, pressure data and comparison results thereof to the server, and the server stores the displacement data, the pressure data and the comparison results thereof;

step 5, the doctor terminal or the user terminal sends a signal for checking the data of the intelligent neck brace to the server, the server sends the displacement data, the pressure data and the comparison result thereof to the doctor terminal or the user terminal, and the doctor terminal or the user terminal displays the displacement data, the pressure data and the comparison result thereof;

step 6, the doctor terminal sends an optimal pressure range adjusting instruction to the server, and the server sends the optimal pressure range adjusting instruction to the user terminal;

the user terminal adjusts the optimal pressure range according to the optimal pressure range adjusting instruction;

step 7, returning to the step 3;

the method further comprises the steps of:

the user terminal is internally preset with a pressure difference threshold value, each pressure sensor corresponds to a number, the signal processor respectively sends the pressure data detected by each pressure sensor and the number corresponding to the pressure data to the user terminal, and then the user terminal compares the pressure data: when the difference value between the pressure data exceeds the pressure difference threshold value, the user terminal gives an alarm and displays the number corresponding to the abnormal pressure data; and when the difference value between the pressure data does not exceed the pressure difference threshold value, the user terminal displays that the pressure difference is normal.

2. A method of monitoring a neck brace according to claim 1, wherein: in the step 3:

when the pressure data is larger than the optimal pressure range, the user terminal displays a warning signal of overlarge pressure;

when the pressure data is smaller than the optimal pressure range, the user terminal displays a warning signal that the pressure is too small;

and when the pressure data is within the optimal pressure range, the user terminal displays a pressure normal signal.

3. A method of monitoring a cervical collar according to claim 1, wherein in step 3 the user

The terminal stores the pressure data, automatically records the time point corresponding to each pressure data, and then stores each time point

And comparing and analyzing the corresponding pressure data with the optimal pressure range respectively, and generating a comparison result.

4. A method of monitoring a cervical collar as in claim 3 wherein in step 5 the service

The device generates a time-pressure curve according to the pressure data and the corresponding time point, and then the time-pressure curve is generated

To the doctor terminal or the user terminal.

5. The method for monitoring a neck brace according to claim 1, wherein the doctor terminal sends a first text message to the server, the server sends the first text message to the user terminal, and the user terminal displays the first text message after receiving the first text message;

the user terminal sends a second text message to the server, the server sends the second text message to the doctor terminal, and the doctor terminal displays the second text message after receiving the second text message.

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