WO2016095281A1

WO2016095281A1 - O2o-based health management system and method for disability and semi-disability populations

Info

Publication number: WO2016095281A1
Application number: PCT/CN2014/095662
Authority: WO
Inventors: 张贯京; 陈兴明
Original assignee: 深圳市前海安测信息技术有限公司; 深圳市易特科信息技术有限公司; 深圳市贝沃德克生物技术研究院有限公司
Priority date: 2014-12-19
Filing date: 2014-12-30
Publication date: 2016-06-23
Also published as: CN104545933A

Abstract

An O2O-based health management method for disability and semi-disability populations comprises the following steps: a detection device (1) starts timing and collects a body turn signal; when a first preset time arrives, the detection device (1) determines whether a body turn signal collected in the first preset time is changed; when the body turn signal collected by the detection device (1) in the first preset time is not changed or change duration of the body turn signal is less than a second preset time, the detection device (1) determines that a detected object does not turn the body, sends body turn voice prompting information and displays the body turn prompting information; and when the change duration of the body turn signal is not less than the second preset time, the detection device (1) determines that the detected object turns the body, and performs re-timing. Also provided is an O2O-based health management system for disability and semi-disability populations. By means of the method and the system, an automatic care mode is realized, mistakes in the care are reduced, and care efficiency is improved.

Description

O2O-based disability and semi-disabled population health management system and method

Technical field

The invention relates to the field of medical device technology, in particular to a health management system and method based on O2O-based disability and semi-disabled people.

Background technique

As the proportion of aging is growing, care for the elderly is becoming more and more important. At present, in China, the management of the health of the elderly mainly stays in the information monitoring part, that is, the nursing staff is required to be monitored 24 hours a day, and the caregiver's personal care is used to find out whether the elderly's body has problems and to make a corresponding problem after finding the problem. Processing. However, under the above-mentioned methods, the elderly need to be cared for at all times, making the way of caring for the elderly more cumbersome, and it is impossible to find out the situation of the elderly in time, that is, the care of the elderly cannot be effectively realized, and in the manner of manual care, it is easy to cause care. Leakage makes nursing care less efficient.

The above content is only used to assist in understanding the technical solutions of the present invention, and does not constitute an admission that the above is prior art.

Summary of the invention

The main object of the present invention is to provide a health management system and method for people with disability and semi-disabled people based on O2O, aiming at solving the problem that the nursing care efficiency is low due to the difficulty in nursing care in the manual nursing mode.

To achieve the above object, the present invention provides an O2O-based disability and semi-disabled population health management system, including a detection device, the detection device including a microprocessor and a collection device coupled to the microprocessor signal And voice prompting device; wherein:

The collecting device is configured to collect a turning-over signal of the detecting object, and send the collected turning-over signal to the microprocessor;

The microprocessor is used for timing, and controls the collecting device to collect a rollover signal;

The microprocessor is further configured to: when the first preset time arrives, determine whether the rollover signal collected during the first preset time changes; when the microprocessor detects the first preset time When the collected turning-over signal does not change, or when the turning-over signal changes for less than the second preset time, determining that the detecting object has not turned over, and issuing a turning-over voice control signal to the voice prompting device; when the micro-processing When detecting that the change of the turning-over signal is not less than the second preset time, determining that the detecting object has turned over and re-timed;

The voice prompting device is configured to send the turn-over voice prompt information after receiving the rollover voice control signal.

Preferably, the collecting device comprises a sensor electrically connected in sequence, a filter circuit and an A/D conversion circuit, the sensor is disposed on the left and right sides of the body of the detecting object, the sensor is a pressure sensor, and the sensor is used for The rollover signal is collected, and the filter circuit is configured to filter the collected rollover signal, and the A/D conversion circuit is configured to convert the filtered rollover signal to obtain the converted rollover signal.

Preferably, the detecting device further comprises a physiological parameter detector connected to the microprocessor, wherein the physiological parameter detector is configured to collect physiological parameters of the detecting object, and send the collected physiological parameters to the micro processing Device

After receiving the physiological parameter, the microprocessor compares the physiological parameter with a preset safety physiological parameter range, and when the physiological parameter is not within the preset safety physiological parameter range, the The voice prompting device sends a physiological parameter abnormal voice control signal;

After receiving the physiological parameter abnormal voice control signal, the voice prompting device sends a physiological parameter abnormal voice prompt information.

Preferably, the detecting device further includes a communication unit that is connected to the microprocessor signal, and the communication unit is connected to the information interaction platform, and when the microprocessor receives the physiological parameter sent by the physiological parameter detector, Sending a control signal to the communication unit; after receiving the sending control signal, the communication unit sends the received physiological parameter to the information interaction platform; the information interaction platform receives the physiological parameter Thereafter, saving and displaying the physiological parameter;

The communication unit is further connected to the user equipment signal, and the microprocessor controls the communication unit to send the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment when the voice prompt information is sent.

Preferably, the communication unit is further connected to the user equipment, and the microprocessor controls the communication unit to send the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment when the voice prompt information is sent.

Preferably, the detecting device further includes a button module connected to the microprocessor signal, and the button module sends a voice prompt stop signal to the microprocessor when receiving the voice prompt stop button operation, the micro The processor sends a stop signal to the voice prompting device, and the voice prompting device stops turning over the voice prompt information when receiving the stop signal.

In addition, in order to achieve the above object, the present invention also provides an O2O-based disability and semi-disabled population health management method, and the O2O-based disability and semi-disabled population health management method includes the following steps:

The detecting device starts timing and collects the turning signal;

When the first preset time of the detecting device arrives, determining whether the rollover signal collected during the first preset time changes;

When the turning-over signal collected by the detecting device in the first preset time does not change, or when the turning-over signal changes time is less than the second preset time, it is determined that the detecting object does not turn over, and the turning-over voice prompt information is sent, and Display the information for turning over;

The detecting device determines that the detecting object has turned over and re-times when the time when the turning-over signal changes is not less than the second preset time.

Preferably, the O2O-based disability and semi-disabled population health management method further comprises:

The detecting device detects a physiological parameter of the detection object, and compares the physiological parameter with a preset safety physiological parameter range;

The detecting device sends a physiological parameter abnormal voice prompt information when the physiological parameter is not within the preset safety physiological parameter range.

Preferably, after the step of detecting the physiological parameter of the detection object by the detecting device, the health management method for the O2O-based disability and the semi-disabled population further includes:

The detecting device sends the received physiological parameter to the information interaction platform;

After receiving the physiological parameter, the information interaction platform saves and displays the physiological parameter.

Preferably, after the step of the detecting device emitting a buzzer, the information warning method for health management further includes:

The detecting device sends the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment connected to the signal.

Preferably, the detecting device sends the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment.

Preferably, after the step of determining that the detection object is not turned over, issuing the turning voice prompt information, and displaying the turning over prompt information, the O2O-based disability and semi-disabled person health management method further includes:

The detecting device receives the voice prompt to stop the button operation or stops the voice prompt when the preset stop time interval arrives.

The invention detects the turning-over signal of the detecting object by the detecting device, and if the turning-over signal changes and remains above the second preset time within the first preset time, it is determined that the detecting object has turned over and re-timed; if the first preset time If the turning-over signal does not change or the turning-over signal change time is less than the second preset time, a turn-over voice prompt message is sent to prompt the user to turn over. The way to achieve automatic care, reduce care leakage, improve the efficiency of care.

DRAWINGS

1 is a schematic structural diagram of a first embodiment of an O2O-based disability and semi-disabled population health management system according to the present invention;

2 is a schematic structural diagram of a second embodiment of an O2O-based disability and semi-disabled population health management system according to the present invention;

3 is a schematic structural diagram of a third embodiment of an O2O-based disability and semi-disabled population health management system according to the present invention;

4 is a schematic structural diagram of a fourth embodiment of a health management system for a disabled and semi-disabled population based on O2O according to the present invention;

5 is a schematic structural diagram of a fifth embodiment of an O2O-based disability and semi-disabled population health management system according to the present invention;

6 is a schematic flow chart of a first embodiment of an O2O-based disability and semi-disabled population health management method according to the present invention;

7 is a schematic flow chart of a second embodiment of an O2O-based disability and semi-disabled population health management method according to the present invention;

FIG. 8 is a schematic flow chart of a third embodiment of an O2O-based disability and semi-disabled population health management method according to the present invention.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the present invention is: detecting the start timing of the device, and collecting the rollover signal; when the first preset time of the detecting device arrives, determining whether the rollover signal collected during the first preset time changes; When the turning-over signal collected by the detecting device in the first preset time does not change, or when the turning-over signal changes time is less than the second preset time, it is determined that the detecting object has not turned over, and the turning-over voice prompt information is sent and displayed. Turning over the prompt information; when the length of the turning-over signal changes is not less than the second preset time, the detecting device determines that the detecting object has turned over and re-timed. Detecting the turning-over signal of the detecting object by the detecting device, if the turning-over signal changes and remains above the second preset time within the first preset time, determining that the detecting object has turned over and re-clocking; if the first preset time is over If the signal does not change or the turning signal change time is less than the second preset time, a turn-over voice prompt message is sent to prompt the user to turn over. The way to achieve automatic care, reduce care leakage, improve the efficiency of care.

Because the existing nursing care method is in the way of manual care, the situation of the elderly cannot be found in time, which is easy to cause leakage, which makes the nursing efficiency low.

Based on the above problems, the present invention provides an O2O based (online to Offline, online and offline e-commerce) The disability and semi-disabled population health management system, the O2O-based disability and semi-disabled population health management system detects the detection object's turning-over signal through the detection device, if at first If the turning signal changes within the preset time and remains above the second preset time, it is determined that the detecting object has turned over and is re-timed; if the turning signal does not change in the first preset time or the turning signal change time is less than the second preset At the time, a turn-over voice prompt message is issued to indicate that the test subject needs to be turned over. The way to achieve automatic care, reduce care leakage, improve the efficiency of care.

Referring to FIG. 1, the O2O-based disability and semi-disabled population health management system includes: a detecting device 1 including a microprocessor 10 and a collecting device 11 connected to the microprocessor 10 And a voice prompting device 12, wherein:

The collecting device 11 is configured to collect the turning-over signal of the detecting object, and send the collected turning-over signal to the microprocessor 10;

The collection device 11 is a pressure sensor or a wearable device including a pressure sensor. The pressure sensor is preferably disposed on the left and right sides of the body of the detection object, and the rollover signal of the detection object is collected by the pressure sensor. The acquisition device 11 transmits the collected turn-over signal to the microprocessor 10. Preferably, the collecting device 11 includes a sensor, a filter circuit and an A/D conversion circuit which are electrically connected in sequence, the sensor is disposed on the left and right sides of the body of the detecting object, and the sensor is a pressure sensor, and the sensor is used for the sensor The sweeping circuit is configured to filter the collected turning-over signal, and the A/D converting circuit is configured to convert the filtered turning-over signal to obtain the converted turning-over signal. In other embodiments of the present invention, the pressure sensor may also be disposed on the back or chest of the object to be detected. When the back or chest of the object to be detected is set, the pressure value collected by the pressure sensor can be used as a turning-over signal, and the time during which the change is continued can be used to determine whether the object is turned over.

The microprocessor 10 is used for timing, and controls the collecting device 11 to collect a rollover signal;

The microprocessor 10 is used for timing, and controls the collecting device 11 to collect the turning-over signal, that is, the microprocessor 10 controls the collecting device 11 when it is powered on, or when receiving the turning-over signal acquisition control signal. Collect the turn-over signal.

The microprocessor 10 is further configured to: when the first preset time arrives, determine whether the rollover signal collected during the first preset time changes; when the microprocessor 10 detects the first preset When the rollover signal collected during the time does not change, or when the time when the rollover signal changes is less than the second preset time, determining that the detection object has not turned over, and issuing a rollover voice control signal to the voice prompting device; When the microprocessor 10 detects that the change of the turning-over signal is not less than the second preset time, it is determined that the detecting object has turned over and is re-timed;

The voice prompting device 12 is configured to send the turn-over voice prompt information after receiving the rollover voice control signal.

The microprocessor 10 determines, when the first preset time arrives, whether the turning-over signal collected by the detecting object in the first preset time is sent, and the first preset time is 1 hour and 2 hours. Etc., according to the needs of the user, for example, according to the hemorrhoid management time setting, that is, how long it is not to turn over the detection object to generate hemorrhoids to set the first preset time. When the microprocessor 10 determines that the detected turning-over signal changes within the first preset time, it is further determined whether the length of the change is less than the second preset time, and the second preset time is set according to the user's needs. Set to 3 minutes or 5 minutes, etc., for example, according to the hemorrhoid management time setting, that is, when the turning time is not long enough, hemorrhoids may occur to set the second preset time. When the duration of the change of the rollover signal is less than the second preset duration, it is determined that the detection object has not turned over, and the microprocessor 10 sends a turn-over voice control signal to the voice prompting device 12; when the microprocessor 10 detects the location When the duration of the change of the turning-over signal is not less than the second preset time, it is judged that the detecting object has turned over, and the microprocessor 10 re-times. The voice prompting device 12 is configured to send the turn-over voice prompt information after receiving the rollover voice control signal. The voice prompting device 12 may be a voice prompting device such as a buzzer. The voice prompt information may be a voice such as "please turn over" or "click".

In the embodiment of the present invention, the detecting device detects the turning-over signal of the detecting object, and if the turning-over signal changes and remains above the second preset time within the first preset time, it is determined that the detecting object has turned over and re-timed; If the turning-over signal does not change or the turning-over signal change time is less than the second preset time, the turning-over voice prompt information is sent to prompt the user to turn over. The way to achieve automatic care, reduce care leakage, improve the efficiency of care.

Referring to FIG. 2, a second embodiment of the O2O-based disability and semi-disabled population health management system of the present invention is proposed. The detecting device 1 further includes: a physiological parameter detector 13 that is signally coupled to the microprocessor 10. ,

The physiological parameter detector 13 is used to collect physiological parameters of the detection object, and send the collected physiological parameters to the microprocessor 10;

After receiving the physiological parameter, the microprocessor 10 compares the physiological parameter with a preset safety physiological parameter range, and when the physiological parameter is not within the preset safety physiological parameter range, the The voice prompting device 12 emits a physiological parameter abnormal voice control signal;

The voice prompting device 12 sends the physiological parameter abnormal voice prompt information after receiving the physiological parameter abnormal voice control signal.

The physiological parameter detector 13 collects physiological signals of the detection object to generate physiological parameters, and sends the physiological parameters to the microprocessor 10. After receiving the physiological parameter, the microprocessor 10 compares the physiological parameter with a preset safety physiological parameter range, and when the physiological parameter is not within the preset safety physiological parameter range, the The voice prompting device 13 emits a physiological parameter abnormal voice control signal.

Preferably, the microprocessor 10 receives the physiological parameters sent by the physiological parameter detector 13, performs digital filtering, debounce, and deburring on the received physiological parameters, and counts the measured values obtained by the frequency per minute. That is, specific physiological parameters are obtained, for example, heart rate values and respiratory rate values are obtained. The microprocessor 10 compares the physiological parameter with a preset safety physiological parameter range, and sends a physiological parameter abnormality to the voice prompting device 13 when the physiological parameter is not within the preset safety physiological parameter range. Voice control signal. The preset safety physiological parameter range may be a safe heart rate value and a respiratory rate value range. For example, taking the elderly as an example, if the heart rate value is s, 60bmp<s<100bmp, if the respiratory rate value is p, then 18bmp< p<24bmp. In other embodiments of the present invention, if only the heart rate signal is detected, the respiratory rate value is less than 7 bmp, indicating that the apnea is paused, and the physiological parameter abnormal voice control signal is sent to the voice prompting device 12 to wake up the user to make the user breathe spontaneously. In this safety threshold range, in order to monitor the user's apnea, the purpose of detecting different health conditions can be achieved by writing different safety physiological parameter ranges in advance.

The voice prompting device 12 sends the physiological parameter abnormal voice prompt information after receiving the physiological parameter abnormal voice control signal. Taking the buzzer as an example, the buzzer of the buzzer can intermittently emit a "drip" sound to prompt the caregiver, and the user of the detecting device 1 has a problem with the health condition, and needs to be dealt with in time. The buzzer can also be a continuous beep, and beep according to the advance setting. For example, when performing a pause breath monitoring, a continuous beep or the like is required. When the physiological parameter is not within the preset safety physiological parameter range, the voice prompting device 12 is controlled to issue the physiological parameter abnormality prompting information, and the caregiver is quickly prompted to handle the treated user, and the nursing and processing process is completed in a timely and effective manner. Improve the efficiency of care.

Referring to FIG. 3, a third embodiment of the O2O-based disability and semi-disabled population health management system of the present invention is proposed. The detecting device 1 further includes: a communication unit 14 coupled to the microprocessor 10, The communication unit 14 is connected to the information interaction platform. When receiving the physiological parameter sent by the physiological parameter detector 13, the microprocessor 10 sends a transmission control signal to the communication unit 14; the communication unit 14 receives the After the control signal is sent, the received physiological parameter is sent to the information interaction platform; after receiving the physiological parameter, the information interaction platform saves and displays the physiological parameter.

The communication unit 14 may be a wireless module, for example, a WiFi module, a 3G module, a 4G module, or the like, or may be a wired network interface, and the communication unit 14 is connected to the information interaction platform by a wired or wireless interface. The communication unit 14 sends the physiological parameter to the information interaction platform when receiving the transmission control signal sent by the microprocessor 10, and the information interaction platform saves and receives the physiological parameter. The physiological parameters are displayed. The information interaction platform is preferably a community management platform, and after displaying the physiological parameters, the information interaction platform can be used by a doctor of the information interaction platform to view the physiological parameters, and find out that an abnormality occurs (not within a safety threshold range). The reason and find a solution in time. The information interaction platform saves the received physiological parameters for subsequent query. The information interaction platform, after receiving the physiological parameter, sends a prompt message to prompt the user on the platform of the information interaction platform to view the physiological parameter in time. The microprocessor 10 may further be configured to send the detected physiological parameters to the information interaction platform, and the information interaction platform analyzes the received physiological parameters, and obtains reasonable intervals and care time of the physiological parameters corresponding to the user. . For example, taking sleep time as an example, the information interaction platform calculates the time of light sleep and deep sleep every day according to the heart rate value, and selects the longest sleep time of 5 days in a month, and calculates the average sleep time as the best sleep time feedback to the user. .

In the embodiment of the invention, the physiological parameter is collected by the physiological parameter detector and the physiological parameter is generated. When the physiological parameter is not within the preset safety physiological parameter range, the voice prompting device is configured to issue the physiological parameter abnormality prompting information and send the physiological parameter to the information interaction platform. And display. The way to achieve automatic care, reduce leakage, improve the efficiency of care.

Further, the information interaction platform is further connected to the user equipment signal, and the information interaction platform sends the physiological parameter to the user equipment when receiving the physiological parameter.

The user equipment is a caregiver or a friend, a family member, a hospital, a nursing home (nursing home, a nursing home, etc.) nurse, a caregiver, etc. associated with the user of the detecting device 1 side, and the information interaction platform receives the physiological parameter. And sending the physiological parameter to the user equipment to prompt the user of the user of the detecting device 1 to have a problem of the health of the user on the detecting device 1 side, and the user of the detecting device 1 needs to be processed to maintain the user of the detecting device 1 side. Health status. In this embodiment, the physiological parameter and the prompting information are sent to the user equipment through the information interaction platform, so that the user equipment side user promptly processes the health problem occurring on the detecting device side user in time, thereby reducing the nursing leakage and improving the nursing efficiency.

Referring to FIG. 4, a fourth embodiment of the O2O-based disability and semi-disabled population health management system of the present invention is proposed. The O2O-based disability and semi-disabled population health management system further includes: The processor 10 is signally coupled to the display unit 15, which controls the communication unit 14 to transmit the physiological parameters to the display unit 15, the display unit 15 displaying the physiological parameters.

The display unit 15 may be a display, an external display device that is signally connected to the microprocessor 10, and the like, for example, a heart rate value detection display device, a respiratory rate value detection display device, and the like. When the display device 15 receives the physiological parameter, that is, when receiving a physiological parameter that is not within the preset safety physiological parameter range, the physiological parameter is displayed in red. The microprocessor 10 may also send a physiological parameter that is within the safety threshold range to the display unit 15 when the physiological parameter is within the preset safety physiological parameter range, and the display unit according to the display unit The default color (color other than red) shows the physiological parameters within the preset safe physiological range. In this embodiment, when the physiological parameter is not within the preset safety physiological parameter range, the display unit 15 distinguishes the display, so that the caregiver can more accurately discover the health condition of the user, and timely process, thereby improving the nursing efficiency.

Referring to FIG. 5, a fifth embodiment of the O2O-based disability and semi-disabled population health management system of the present invention is proposed. The detecting device 1 further includes a button module 16 that is signally coupled to the microprocessor 10, When receiving the stop voice prompt button operation, the button module 16 sends a voice prompt stop signal to the microprocessor 10, and the microprocessor 10 sends a stop signal to the voice prompt device 12, and the voice prompt device 12 is When the stop signal is received, the voice prompt is stopped, and the voice prompt includes a turn-over voice prompt and a physiological parameter abnormal prompt.

The user of the detecting device 1 can input an instruction through the button module 16, turn on or off the power, view the information, and stop the prompt of the voice prompting device 12. The button module 16 receives a voice prompt stop signal to the microprocessor 10 when receiving a button operation of the stop voice prompting device 12 input by the user, and the microprocessor 10 issues a voice prompt to the voice prompt device 12 to stop. The voice prompting device 12 stops the voice prompt when receiving the voice prompt stop signal. In other embodiments of the present invention, the voice prompting device 12 may also automatically stop the voice prompt after a certain time (for example, 10s or 15s). The user can also establish a signal connection with the button module 16 through a remote control device, for example, establishing a signal connection through infrared, radio frequency, WiFi, Bluetooth, etc., and the user can issue an instruction through a remote controller, the button module 16 After receiving the button operation issued by the user through the remote controller, the corresponding operations are completed, for example, stopping the buzzer, turning off the power, and the like.

Correspondingly, based on the above O2O-based disability and semi-disabled population health management system, an O2O-based disability and semi-disabled population health management method is provided.

Referring to FIG. 6, FIG. 6 is a schematic flowchart diagram of a first embodiment of an O2O-based disability and semi-disabled population health management method according to the present invention.

In an embodiment, the O2O-based disability and semi-disabled population health management method comprises:

Step S10, the detecting device starts timing, and collects a turning-over signal;

The detecting device includes a pressure sensor or a wearable device including a pressure sensor. The pressure sensor is preferably disposed on the left and right sides of the body of the detecting object, and the turning-over signal of the detecting object is collected by the pressure sensor. The detecting device transmits the collected turn-over signal to the microprocessor. Preferably, the detecting device comprises a sensor electrically connected in sequence, a filter circuit and an A/D conversion circuit, the sensor is disposed on the left and right sides of the body of the detecting object, the sensor is a pressure sensor, and the sensor is used for The rollover signal is collected, and the filter circuit is configured to filter the collected rollover signal, and the A/D conversion circuit is configured to convert the filtered rollover signal to obtain the converted rollover signal. In other embodiments of the present invention, the pressure sensor may also be disposed on the back or chest of the object to be detected.

The detecting device counts and collects the turning-over signal by controlling the pressure sensor, that is, the detecting device controls the pressure sensor to collect the turning-over signal when the power is turned on, or when receiving the turning-over signal acquisition control signal.

Step S20: When the first preset time of the detecting device arrives, determine whether the rollover signal collected during the first preset time changes;

In step S30, when the turning-over signal collected by the detecting device in the first preset time does not change, or when the turning-over signal changes time is less than the second preset time, it is determined that the detecting object has not turned over, and the turning voice prompt is issued. Information and display information about the rollover prompt;

Step S40: When the length of time when the turning-over signal changes is not less than the second preset time, the detecting device determines that the detecting object has turned over and re-times.

When the detecting device arrives at the first preset time, it is determined whether the turning-over signal collected by the detecting object in the first preset time is sent, and the first preset time is 1 hour, 2 hours, and the like. The first preset time is set according to the user's needs, for example, according to the acne management time, that is, how long it takes for the test subject to turn over and generate acne. When it is determined that the detected turning-over signal changes within the first preset time, it is further determined whether the length of the change is less than the second preset time, and the second preset time is set to be 3 minutes according to the user's needs. 5 minutes, etc., for example, according to the hemorrhoid management time setting, that is, when the turning time is not long enough, hemorrhoids may occur to set the second preset time. When the duration of the change of the rollover signal is less than the second preset duration, it is determined that the detection object has not turned over, and the detecting device sends the turn-over voice prompt information; when it is detected that the change of the rollover signal is not less than the second preset time And determining that the detection object has turned over, and the detecting device re-times. The detecting device can issue a voice prompt through a voice prompting device such as a buzzer or a speaker. The voice prompt information may be a voice such as "please turn over" or "click".

Referring to FIG. 7, FIG. 7 is a schematic flowchart diagram of a second embodiment of an O2O-based disability and semi-disabled population health management method according to the present invention. The O2O-based disability and semi-disabled population health management method further includes the steps of:

Step S50, the detecting device detects a physiological parameter of the detection object, and compares the physiological parameter with a preset safety physiological parameter range;

Step S60: The detecting device sends abnormal voice prompt information of the physiological parameter when the physiological parameter is not within the preset safety physiological parameter range.

The detecting device generates a physiological parameter by detecting a physiological signal of the detection object through a physiological parameter detector, and compares the physiological parameter with a preset safety physiological parameter range, where the physiological parameter is not within the preset safety physiological parameter range When the physiological parameter abnormal voice prompt information is issued. After the step S40 is performed in the step S40, in the other embodiments of the present invention, the step S50 and the step S60 may also be performed before any step between the steps S10 to S40 or Thereafter, it may also be performed before the step S10. The physiological parameter and the turning-over signal can be detected at the same time, or the physiological parameter can be detected after detecting the turning-over signal, or the turning-over signal can be detected after detecting the physiological parameter first.

Preferably, after detecting the physiological parameter by the physiological parameter detector, the detecting device performs digital filtering, debounce, and deburring on the physiological parameter, and collects the measured value obtained by the frequency per minute, that is, obtains a specific Physiological parameters, for example, give heart rate values and respiratory rate values, and the like. The detecting device compares the physiological parameter with a preset safety physiological parameter range, and when the physiological parameter is not within the preset safety physiological parameter range, the physiological parameter abnormal voice prompt information is issued. The preset safety physiological parameter range may be a safe heart rate value and a respiratory rate value range. For example, taking the elderly as an example, if the heart rate value is s, then 60bmp<s<100bmp, if the respiratory rate value is p, then 18bmp <p<24bmp. In other embodiments of the present invention, if only the heart rate signal is detected, the respiratory rate value is less than 7 bmp, indicating that the apnea is paused, and the physiological parameter abnormal voice prompt information is issued to wake up the user to allow the user to breathe spontaneously, in this safety threshold range. In order to monitor the apnea of the user, the purpose of detecting different health conditions can be achieved by writing different ranges of safety physiological parameters in advance.

Taking the buzzer as an example, the buzzer's buzzer mode can intermittently emit a "drop" sound to prompt the caregiver, and the user of the detecting device side has a problem with the health condition, and needs to be dealt with in time. The buzzer can also be a continuous beep, and beep according to the advance setting. For example, when performing a pause breath monitoring, a continuous beep or the like is required. When the physiological parameter is not within the preset safety physiological parameter range, the physiological parameter abnormality prompting information is issued, and the caregiver is quickly prompted to treat the treated user, and the nursing and processing process is completed in a timely and effective manner, thereby improving the efficiency of the nursing care.

Referring to FIG. 8, FIG. 8 is a schematic flowchart diagram of a third embodiment of an O2O-based disability and semi-disabled population health management method according to the present invention. After the step S50, the method further includes:

Step S70, the detecting device sends the received physiological parameter to the information interaction platform;

Step S80: After receiving the physiological parameter, the information interaction platform saves and displays the physiological parameter.

The detecting device sends the physiological parameter to the information interaction platform through the communication unit, and the communication unit may be a wireless module, for example, a WiFi module, a 3G module or a 4G module, or a wired network interface, and the communication unit is wired or The wireless interface is coupled to the information exchange platform signal. The detecting device sends the physiological parameter to the information interaction platform, and the information interaction platform saves and displays the physiological parameter when receiving the physiological parameter. The information interaction platform is preferably a community management platform, and after displaying the physiological parameters, the information interaction platform can be used by a doctor of the information interaction platform to view the physiological parameters, and find out that an abnormality occurs (not within a safety threshold range). The reason and find a solution in time. The information interaction platform saves the received physiological parameters for subsequent query. The information interaction platform, after receiving the physiological parameter, sends a prompt message to prompt the user on the platform of the information interaction platform to view the physiological parameter in time. The detecting device may further send the detected physiological parameters to the information interaction platform, and the information interaction platform analyzes the received physiological parameters to obtain a reasonable working schedule and a care time for the physiological parameters. For example, taking sleep time as an example, the information interaction platform calculates the time of light sleep and deep sleep every day according to the heart rate value, and selects the longest sleep time of 5 days in a month, and calculates the average sleep time as the best sleep time feedback to the user. .

Further, the detecting device sends the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment connected to the signal.

The user equipment is a caregiver or a friend, a family member, a hospital, a nursing home (nursing home, a nursing home, etc.) nurse, a caregiver, etc. associated with the detecting device side user, and the information interaction platform receives the physiological parameter. And sending the physiological parameter to the user equipment to prompt the user on the device side to detect the health of the user on the device side, and the user on the detecting device side needs to be processed to maintain the health status of the user on the detecting device side. In this embodiment, the physiological parameter and the prompting information are sent to the user equipment through the information interaction platform, so that the user equipment side user promptly processes the health problem occurring on the detecting device side user in time, thereby reducing the nursing leakage and improving the nursing efficiency.

Preferably, the detecting device displays the physiological parameter in red when the detected physiological parameter is not in a physiological parameter within a preset safety physiological parameter range. It is also possible that when the physiological parameter is within the preset safety physiological parameter range, the physiological parameter within the preset safety physiological range is displayed according to a default color (a color other than red). In this embodiment, by distinguishing the display when the physiological parameter is not within the preset safety physiological parameter range, the caregiver can more accurately discover the health condition of the user, and timely processing, thereby improving the nursing efficiency.

Further, the detecting device stops the turning voice prompt when receiving the voice prompt stop button operation or when the preset stop time interval arrives.

Users can turn on or off the power, view information, and stop voice prompts by entering commands from the button module of the test device. When the button module receives the button operation for stopping the voice prompt input by the user, when the voice prompt stop signal is received, the voice prompt is stopped. In other embodiments of the present invention, it is also possible to automatically stop the voice prompt after a certain time (for example, 10s or 15s). The user can also establish a signal connection with the button module through a remote control device, for example, establishing a signal connection through infrared, radio frequency, WiFi, Bluetooth, etc., the user can issue an instruction through a remote controller, and the button module is receiving After the user presses the button issued by the remote controller, the corresponding operations are completed, for example, stopping the buzzer, turning off the power, and the like.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

A health management system for a disabled and semi-disabled population based on O2O, characterized in that the health management system comprises a detection device, the detection device comprising a microprocessor and a collection device connected to the microprocessor signal And voice prompting device; wherein:

The collecting device is configured to collect a turning-over signal of the detecting object, and send the collected turning-over signal to the microprocessor;

The microprocessor is used for timing, and controls the collecting device to collect a rollover signal;

The microprocessor is further configured to: when the first preset time arrives, determine whether the rollover signal collected during the first preset time changes; when the microprocessor detects the first preset time When the collected turning-over signal does not change, or when the turning-over signal changes for less than the second preset time, determining that the detecting object has not turned over, and issuing a turning-over voice control signal to the voice prompting device; when the micro-processing When detecting that the change of the turning-over signal is not less than the second preset time, determining that the detecting object has turned over and re-timed;

The voice prompting device is configured to send the turn-over voice prompt information after receiving the rollover voice control signal.
The O2O-based disability and semi-disabled population health management system according to claim 1, wherein said detecting device further comprises a button module connected to said microprocessor signal, said button module receiving When the voice prompt stops the button operation, a voice prompt stop signal is sent to the microprocessor, and the microprocessor sends a stop signal to the voice prompting device, and the voice prompting device stops when receiving the stop signal Turn over the voice prompts.
The O2O-based disability and semi-disabled population health management system according to claim 1, wherein said collecting means comprises a sensor electrically connected in sequence, a filter circuit and an A/D conversion circuit, said sensor setting On the left and right sides of the body of the detection object, the sensor is a pressure sensor, the sensor is used to collect a rollover signal, and the filter circuit is configured to filter the collected rollover signal, and the A/D conversion circuit is used. Converting the filtered rollover signal to obtain a converted rollover signal.
The O2O-based disability and semi-disabled population health management system of claim 3, wherein the detecting device further comprises a button module coupled to the microprocessor signal, the button module receiving When the voice prompt stops the button operation, a voice prompt stop signal is sent to the microprocessor, and the microprocessor sends a stop signal to the voice prompting device, and the voice prompting device stops when receiving the stop signal Turn over the voice prompts.
The O2O-based disability and semi-disabled population health management system according to claim 1, wherein said detecting device further comprises a physiological parameter detector connected to said microprocessor signal, said physiological parameter The detector is configured to collect physiological parameters of the detection object, and send the collected physiological parameters to the microprocessor;

After receiving the physiological parameter, the microprocessor compares the physiological parameter with a preset safety physiological parameter range, and when the physiological parameter is not within the preset safety physiological parameter range, the The voice prompting device sends a physiological parameter abnormal voice control signal;

After receiving the physiological parameter abnormal voice control signal, the voice prompting device sends a physiological parameter abnormal voice prompt information.
The O2O-based disability and semi-disabled population health management system according to claim 5, wherein said detecting device further comprises a communication unit connected to said microprocessor signal, said communication unit and information The interactive platform signal is connected, and the microprocessor sends a transmission control signal to the communication unit when receiving the physiological parameter sent by the physiological parameter detector; the communication unit receives the transmission control signal after receiving the transmission control signal The physiological parameters are sent to the information interaction platform; after receiving the physiological parameters, the information interaction platform saves and displays the physiological parameters;

The communication unit is further connected to the user equipment signal, and the microprocessor controls the communication unit to send the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment when the voice prompt information is sent.
The O2O-based disability and semi-disabled population health management system according to claim 6, wherein the communication unit is further connected to a user equipment signal, and the microprocessor controls the voice prompt information. The communication unit sends the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment.
The O2O-based disability and semi-disabled population health management system according to claim 6, wherein the detecting device further comprises a button module connected to the microprocessor signal, the button module receiving When the voice prompt stops the button operation, a voice prompt stop signal is sent to the microprocessor, and the microprocessor sends a stop signal to the voice prompting device, and the voice prompting device stops when receiving the stop signal Turn over the voice prompts.
An O2O-based disability and semi-disabled population health management method, characterized in that the O2O-based disability and semi-disabled population health management method comprises the following steps:

The detecting device starts timing and collects the turning signal;

When the first preset time of the detecting device arrives, determining whether the rollover signal collected during the first preset time changes;

When the turning-over signal collected by the detecting device in the first preset time does not change, or when the turning-over signal changes time is less than the second preset time, it is determined that the detecting object does not turn over, and the turning-over voice prompt information is sent, and Display the information for turning over;

The detecting device determines that the detecting object has turned over and re-times when the time when the turning-over signal changes is not less than the second preset time.
The O2O-based disability and semi-disabled population health management method according to claim 9, wherein the step of determining that the detection object has not turned over, issuing the turning voice prompt information, and displaying the turning over prompt information The O2O-based disability and semi-disabled population health management methods also include:

The detecting device receives the voice prompt to stop the button operation or stops the voice prompt when the preset stop time interval arrives.
The O2O-based disability and semi-disabled population health management method according to claim 9, wherein the O2O-based disability and semi-disabled population health management method further comprises:

The detecting device detects a physiological parameter of the detection object, and compares the physiological parameter with a preset safety physiological parameter range;

The detecting device sends a physiological parameter abnormal voice prompt information when the physiological parameter is not within the preset safety physiological parameter range.
The O2O-based disability and semi-disabled population health management method according to claim 11, wherein the detecting device detects the physiological parameter of the detecting object, the O2O-based disability and the half loss The health management methods of the energy crowd also include:

The detecting device sends the received physiological parameter to the information interaction platform;

After receiving the physiological parameter, the information interaction platform saves and displays the physiological parameter.
The O2O-based disability and semi-disabled population health management method according to claim 12, wherein the detecting device detects the physiological parameter of the detection object, the O2O-based disability and the half loss The health management methods of the energy crowd also include:

The detecting device sends the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment.
The O2O-based disability and semi-disabled population health management method according to claim 11, wherein after the detecting device emits a buzzing, the information warning method for health management further includes:

The detecting device sends the rollover prompt information or the physiological parameter abnormality prompt information to the user equipment connected to the signal.
The O2O-based disability and semi-disabled population health management method according to claim 11, wherein the step of determining that the detection object has not turned over, issuing the turning-over voice prompt information, and displaying the turning-over prompt information The O2O-based disability and semi-disabled population health management methods also include:

The detecting device receives the voice prompt to stop the button operation or stops the voice prompt when the preset stop time interval arrives.