CN106667464B

CN106667464B - Method for monitoring rehabilitation of patients with coronary heart disease through human physiological characteristics

Info

Publication number: CN106667464B
Application number: CN201710087830.6A
Authority: CN
Inventors: 蒋磊
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-02-18
Filing date: 2017-02-18
Publication date: 2020-03-31
Anticipated expiration: 2037-02-18
Also published as: CN106667464A

Abstract

The invention discloses a method for detecting the rehabilitation of patients with coronary heart disease through human physiological characteristics, which comprises the following steps: the mobile equipment starts an application program and sends an instruction to the bracelet; the bracelet judges whether a detection key on the bracelet is opened or not; a speed sensor on the bracelet detects whether the speed of the rehabilitation exercise of the sporter is greater than a preset speed or not; the heater on the bracelet belt automatically heats to enable the bracelet belt to expand; the bracelet judges whether the collector contacts the wrist skin of the sporter; the bracelet starts a plurality of collectors to collect the pulse of cardiovascular circulation; the mobile equipment acquires cardiovascular circulation pulses acquired by the bracelet, and acquires a standard pulse value; the mobile equipment judges whether the standard pulse value accords with the normal pulse; the mobile equipment sends a control instruction to the bracelet; the bracelet generates vibration to alarm after receiving the control command. The invention can detect the amount of exercise of the sporter in real time, so that the exercise speed of the sporter cannot be too fast, and the heart rate of the sporter is ensured to be in the optimal state of exercise.

Description

Method for monitoring rehabilitation of patients with coronary heart disease through human physiological characteristics

Technical Field

The invention relates to the technical field of medical treatment, in particular to a method for monitoring the rehabilitation of patients with coronary heart disease through human body physiological characteristics.

Background

After the patients with coronary heart disease complete the operation and leave the hospital, the patients need to exercise their own body actively and keep optimistic and positive mood to help the recovery after the operation. The running exercise is a method for improving the self resistance and the physique, and has better auxiliary effect on the rehabilitation of patients with coronary heart disease after operation. However, the body after operation is weak, and the excessive exercise amount can cause certain damage to the body, so that timely knowing the body condition of the patient becomes a problem to be solved urgently for the postoperative rehabilitation of the coronary heart disease patient. In the existing medical equipment, a coronary heart disease patient needs to go to a hospital regularly for reexamination to know the recovery condition of the body of the patient, which brings great inconvenience to the patient and wastes human resources.

Disclosure of Invention

The invention mainly solves the technical problem of providing a method for monitoring the rehabilitation of patients with coronary heart disease through the physiological characteristics of human bodies, and solves the technical problems of inconvenience for the actions of the patients and waste of human resources due to the limitations of the existing medical equipment.

In order to solve the technical problems, the invention adopts a technical scheme that: there is provided a method of monitoring the rehabilitation of patients with coronary heart disease by means of human physiological characteristics, the method comprising: the mobile equipment starts an application program and sends a motion instruction to the bracelet; judging whether a detection key on the bracelet is opened or not after the bracelet receives the motion instruction; if so, detecting whether the speed of the rehabilitation exercise of the sporter is greater than a preset speed by a speed sensor on the bracelet; if so, automatically heating a heater on the bracelet band of the bracelet to enable the bracelet band to expand; the bracelet judges whether the collector on the bracelet belt contacts the wrist skin of the sporter or not; if so, the bracelet starts a plurality of collectors on the bracelet belt to collect physiological characteristics of the human body, wherein the physiological characteristics of the human body comprise cardiovascular circulation pulses, and the cardiovascular circulation pulses are sent to the mobile equipment; the mobile equipment acquires the cardiovascular circulation pulse acquired by the bracelet, and preprocesses the cardiovascular circulation pulse to acquire a preprocessed standard pulse value; the mobile equipment judges whether the standard pulse value accords with the normal pulse; if not, the mobile equipment sends a control instruction to the bracelet; the bracelet generates vibration to give an alarm after receiving the control instruction so as to remind the sporter to stop the rehabilitation exercise of the sporter.

The step of judging whether the standard pulse value accords with the normal pulse by the mobile equipment comprises the following steps: the mobile equipment judges whether the first time when the standard pulse value is not in the preset range value continuously is greater than the second time; if yes, judging that the standard pulse value does not accord with the normal pulse; if not, the standard pulse value is judged to be in accordance with the normal pulse.

Wherein, the method also comprises: judging whether a detection key on the bracelet is closed or not after the bracelet vibrates; if not, the bracelet continues to heat the heater on the bracelet band so that the bracelet continues to expand to tighten the athlete's wrist.

Wherein, bracelet area includes thermal expansion material region, and the heater setting is in thermal expansion material region.

Wherein, the method also comprises: and the mobile equipment acquires the third time when the standard pulse value is in the preset range value, and calculates the average speed value of the standard pulse value corresponding to the third time.

Wherein, the bracelet produces vibration still includes with reporting to the police: the alarm on the bracelet produces voice alarm, and set up on the bracelet and the sheetmetal of the skin contact of wrist and produce the weak current that is less than 36V with the electric shock sporter.

Wherein, the collector sets up on the bracelet area towards a side of sporter's wrist.

Compared with the prior art, the invention has the following beneficial effects: the invention provides a method for monitoring the rehabilitation of patients with coronary heart disease through human physiological characteristics, which comprises the following steps: the mobile equipment starts an application program and sends a motion instruction to the bracelet; judging whether a detection key on the bracelet is opened or not after the bracelet receives the motion instruction; if so, detecting whether the speed of the rehabilitation exercise of the sporter is greater than a preset speed by a speed sensor on the bracelet; if so, automatically heating a heater on the bracelet band of the bracelet to enable the bracelet band to expand; the bracelet judges whether the collector on the bracelet belt contacts the wrist skin of the sporter or not; if so, the bracelet starts a plurality of collectors on the bracelet belt to collect physiological characteristics of the human body, wherein the physiological characteristics of the human body comprise cardiovascular circulation pulses, and the cardiovascular circulation pulses are sent to the mobile equipment; the mobile equipment acquires the cardiovascular circulation pulse acquired by the bracelet, and preprocesses the cardiovascular circulation pulse to acquire a preprocessed standard pulse value; the mobile equipment judges whether the standard pulse value accords with the normal pulse; if not, the mobile equipment sends a control instruction to the bracelet; the bracelet generates vibration to give an alarm after receiving the control instruction so as to remind the sporter to stop the rehabilitation exercise of the sporter. Through the mode, the exercise amount of the exerciser can be detected in real time, the exercise speed of the exerciser cannot be too fast, and the heart rate of the exerciser is ensured to be in the optimal exercise state.

Drawings

Fig. 1 is a flow structure diagram of the method for monitoring the rehabilitation of a coronary heart disease patient through the physiological characteristics of a human body.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

Referring to fig. 1, fig. 1 is a schematic flow chart and structure diagram of a method for monitoring the rehabilitation of a coronary heart disease patient through human body physiological characteristics according to the present invention. The method comprises the following steps:

in this embodiment, it should be understood that the physiological characteristics of the human body include the pulse of the cardiovascular circulation, which can be reflected by the change of the pulse and also by the heart rate. When the exerciser moves, the pulse of the cardiovascular circulation will change correspondingly, and when the pulse is reflected to the whole body, the pulse will change correspondingly. Of course, the physiological characteristics of the human body also include blood oxygen concentration, blood pressure and the like.

Step S101: the mobile device starts an application program and sends a motion instruction to the bracelet.

In step S101, the bracelet is fitted over the wrist of the exerciser, and the bracelet is provided with a collector disposed on a side of the bracelet facing the wrist of the exerciser for collecting the pulse signal of the cardiovascular circulation. When the sporter moves, the mobile device is arranged on the sporter body, the mobile device is started, the mobile device starts the application program, and a movement instruction is sent to the bracelet.

Step S102: the bracelet judges whether the detection button on the bracelet is opened after receiving the motion instruction.

In step S102, the bracelet determines whether the detection key of the bracelet uplink is open after receiving the movement instruction. If open, the bracelet begins to monitor the athlete's motion and monitor the athlete's physiological characteristics. When the detection button on the bracelet is opened, step S103 is executed: the speed sensor on the bracelet detects whether the speed of the rehabilitation exercise of the sporter is greater than the preset speed. The rehabilitation exercise of the sporter is monitored in real time by the speed sensor to obtain the exercise speed data of the sporter and compare the exercise speed data with the cardiovascular circulation pulse signals collected by the collector to judge the health state of the sporter. When the speed of the rehabilitation exercise of the exerciser is greater than the preset speed, executing the step S104: the heater on the bracelet area heats automatically and makes bracelet area inflation.

In step S104, the bracelet band includes a thermally expansive material region in which a heater is disposed. It should be understood that when the rehabilitation exercise speed of the exerciser is greater than the preset speed, it indicates that the exercise intensity of the exerciser may be too high to be beneficial to the recovery of the body, and therefore, the exerciser needs to be reminded to reduce the exercise intensity or the exercise amount. The heater on the bracelet belt heats automatically to expand the bracelet belt, so that the wrist of the sporter can feel oppressive to remind the sporter.

Step S105: the bracelet judges whether the collector on the bracelet belt contacts the wrist skin of the sporter.

In step S105, the heart rate of the exerciser fluctuates during exercise, and when the collector on the bracelet touches the skin of the wrist of the exerciser, the collector can detect the fluctuation of the pulse on the surface of the wrist. When the collector on the bracelet band contacts the wrist skin of the sporter, step S106 is executed: the bracelet starts a plurality of collectors on the bracelet belt to collect human physiological characteristics, wherein the human physiological characteristics comprise cardiovascular circulation pulses, and the cardiovascular circulation pulses are sent to the mobile device. It should be understood that the collector can acquire the pulse of the cardiovascular circulation by detecting the pulse on the wrist, and after the pulse of the cardiovascular circulation is acquired by the collector, the pulse signal is sent to the mobile device for processing.

Step S107: the mobile device acquires the cardiovascular circulation pulse acquired by the bracelet, and preprocesses the cardiovascular circulation pulse to acquire a preprocessed standard pulse value.

It should be understood that the mobile device pre-processes the cardiovascular circulatory pulses to obtain standard pulse values, which may be electrical signals or other signals that the mobile device can directly read and manipulate.

Step S108: the mobile device determines whether the standard pulse value corresponds to a normal pulse.

Step S108 further includes the mobile device determining whether the first time that the standard pulse value is not within the preset range of values continuously is greater than the second time. And when the mobile equipment judges that the first time when the standard pulse value is not in the preset range value continuously is longer than the second time, judging that the standard pulse value does not conform to the normal pulse. At this time, the rehabilitation exercise should be stopped to make the cardiovascular pulse value of the exerciser return to the normal pulse value range, so as to avoid injury caused by excessive exercise. And when the mobile equipment judges that the first time when the standard pulse value is not in the preset range value continuously is less than the second time, judging that the standard pulse value accords with the normal pulse. It is explained that the intensity of the rehabilitation exercise and the amount of exercise of the exerciser belong to the normal range.

It should be understood that the preset range value is the value of the cardiovascular circulation pulse of the exerciser or the ordinary person in the state of not participating in exercise. The first time is a time when the standard pulse value is not within the preset range value. The second time is a preset time of the mobile device. After the comparison of the first time and the second time, the health condition of the sporter can be obtained.

When the mobile device determines that the standard pulse value does not conform to the normal pulse, step S109 is executed: the mobile device sends a control instruction to the bracelet.

In step S109, the control command sent by the mobile device is a result obtained by comparing the standard pulse value with the preset range value, and the mobile device converts the result into the control command and sends the control command to the bracelet.

Step S110: the bracelet generates vibration to give an alarm after receiving the control instruction so as to remind the sporter to stop the rehabilitation exercise of the sporter.

Specifically, in step S110, the generating of the vibration by the bracelet further includes: the alarm on the bracelet produces voice alarm, and set up on the bracelet and the sheetmetal of the skin contact of wrist and produce the weak current that is less than 36V with the electric shock sporter. When the sporter finds that the amount of exercise is too high and the rehabilitation is not beneficial, the sporter stops exercising and carries out rest adjustment on the pulse value of the cardiovascular circulation of the sporter so as to reduce the pulse value to be in accordance with the normal pulse.

The method also comprises the following steps of: after the bracelet produced the vibration, judge whether detection button on the bracelet closes.

In step a, when judging that the detection button on the bracelet is not closed, the bracelet continues to heat the heater on the bracelet area this moment for the bracelet continues to expand in order to tighten sporter's wrist. The pulse value which indicates the cardiovascular circulation of the sporter does not conform to the normal pulse.

The method also comprises the following steps, step b: and the mobile equipment acquires the third time when the standard pulse value is in the preset range value, and calculates the average speed value of the standard pulse value corresponding to the third time. And the third time is the preset time of the mobile equipment.

In summary, the present invention provides a method for monitoring the rehabilitation of patients with coronary heart disease through the physiological characteristics of human body, the method comprising: the mobile equipment starts an application program and sends a motion instruction to the bracelet; judging whether a detection key on the bracelet is opened or not after the bracelet receives the motion instruction; if so, detecting whether the speed of the rehabilitation exercise of the sporter is greater than a preset speed by a speed sensor on the bracelet; if so, automatically heating a heater on the bracelet band of the bracelet to enable the bracelet band to expand; the bracelet judges whether the collector on the bracelet belt contacts the wrist skin of the sporter or not; if so, the bracelet starts a plurality of collectors on the bracelet belt to collect the pulse of the cardiovascular circulation and sends the pulse of the cardiovascular circulation to the mobile equipment; the mobile equipment acquires the cardiovascular circulation pulse acquired by the bracelet, and preprocesses the cardiovascular circulation pulse to acquire a preprocessed standard pulse value; the mobile equipment judges whether the standard pulse value accords with the normal pulse; if not, the mobile equipment sends a control instruction to the bracelet; the bracelet generates vibration to give an alarm after receiving the control instruction so as to remind the sporter to stop the rehabilitation exercise of the sporter. Through the mode, the exercise amount of the exerciser can be detected in real time, the exercise speed of the exerciser cannot be too fast, and the heart rate of the exerciser is ensured to be in the optimal exercise state.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A method of monitoring the rehabilitation of patients with coronary heart disease through human physiological characteristics, the method comprising:

the mobile equipment starts an application program and sends a motion instruction to the bracelet;

the bracelet judges whether a detection key on the bracelet is opened or not after receiving the motion instruction;

if so, detecting whether the speed of the rehabilitation exercise of the sporter is greater than a preset speed by a speed sensor on the bracelet;

if yes, a heater on a bracelet belt of the bracelet automatically heats the bracelet belt to enable the bracelet belt to expand;

the bracelet judges whether the collector on the bracelet belt contacts the wrist skin of the sporter or not;

if so, the bracelet starts a plurality of collectors on the bracelet band to collect human physiological characteristics, wherein the human physiological characteristics comprise cardiovascular circulation pulses, and the cardiovascular circulation pulses are sent to the mobile equipment;

the mobile equipment acquires the cardiovascular circulation pulse acquired by the bracelet, and pre-processes the cardiovascular circulation pulse to acquire a pre-processed standard pulse value;

the mobile equipment judges whether the standard pulse value accords with a normal pulse;

if not, the mobile equipment sends a control instruction to the bracelet;

the bracelet generates vibration to give an alarm after receiving the control command so as to remind the sporter to stop the rehabilitation exercise of the sporter.

2. The method of claim 1, wherein the step of the mobile device determining whether the standard pulse value corresponds to a normal pulse comprises:

the mobile equipment judges whether the first time that the standard pulse value is not in the preset range value continuously is greater than the second time;

if yes, judging that the standard pulse value does not accord with the normal pulse;

if not, judging that the standard pulse value accords with the normal pulse.

3. The method of claim 2, further comprising:

judging whether the detection key on the bracelet is closed or not after the bracelet vibrates;

if not, the bracelet continues to heat the heater on the bracelet band, so that the bracelet continues to expand to tighten the wrist of the sportsman.

4. The method of claim 3, wherein the cuff band includes a region of thermally expansive material, the heater being disposed in the region of thermally expansive material.

5. The method of claim 3, further comprising:

and the mobile equipment acquires the third time when the standard pulse value is in the preset range value, and calculates the average speed value of the standard pulse value corresponding to the third time.

6. The method of claim 5, wherein the bracelet generating vibrations to alarm further comprises:

the alarm on the bracelet produces voice alarm, just set up on the bracelet with the sheetmetal of the skin contact of wrist produces the weak current that is less than 36V with the electric shock sporter.

7. The method of claim 6, wherein the collector is disposed on a side of the bracelet strand facing a wrist of the athlete.