CN111407247A - Intelligent nursing system - Google Patents

Abstract

The invention discloses an intelligent nursing system, comprising: the system comprises a plurality of intelligent monitoring terminals and a centralized control terminal; the intelligent monitoring terminal is used for monitoring physiological characteristics of the patient and transmitting the monitored physiological characteristic data to the centralized control terminal through wireless communication connection; the centralized control terminal is used for receiving the physiological characteristic data sent by each intelligent monitoring terminal through wireless communication connection and displaying the physiological characteristic data sent by each intelligent monitoring terminal in a centralized manner. The intelligent nursing system disclosed by the invention realizes the centralized monitoring of the physiological characteristics of the patient, reduces the workload of nurses and improves the working efficiency.

Description

Intelligent nursing system

Technical Field

The embodiment of the invention relates to medical technology, in particular to an intelligent nursing system.

Background

Nursing work is an extremely important ring in medical care work, doctors can only be responsible for diagnosing diseases and making treatment plans, but the treatment plans are more executed by depending on nurses in the treatment process. However, due to the shortage of medical resources, one nurse needs to care a plurality of patients at the same time, and the nursing work of the nurse is quite heavy, which not only increases the workload of the nurse, but also is unfavorable for the recovery of the patients.

The work content of nursing work is loaded down with trivial details to need carry out a large amount of record work, the vast majority of work of nursing at present all need be accomplished by the nurse by hand, and efficiency is lower, and work load is big, and produces the error easily.

Disclosure of Invention

The invention provides an intelligent nursing system, which realizes the centralized monitoring of physiological characteristics of patients, reduces the workload of nurses and improves the working efficiency.

In a first aspect, an embodiment of the present invention provides an intelligent care system, including: the system comprises a plurality of intelligent monitoring terminals and a centralized control terminal;

the intelligent monitoring terminal is used for monitoring physiological characteristics of the patient and transmitting the monitored physiological characteristic data to the centralized control terminal through wireless communication connection;

the centralized control terminal is used for receiving the physiological characteristic data sent by each intelligent monitoring terminal through wireless communication connection and displaying the physiological characteristic data sent by each intelligent monitoring terminal in a centralized manner.

In a possible implementation manner of the first aspect, the centralized control terminal is further configured to send an alarm message when the physiological characteristic data sent by the intelligent monitoring terminals exceeds the set normal range for setting the normal range of the physiological characteristic data of each intelligent monitoring terminal.

In a possible implementation manner of the first aspect, the centralized control terminal is further configured to set an electronic fence range, acquire position information of each intelligent monitoring terminal, and send alarm information when monitoring that the position of the intelligent monitoring terminal is outside the electronic fence range.

In a possible implementation manner of the first aspect, the intelligent monitoring terminal is an intelligent monitoring bracelet, and the intelligent monitoring bracelet comprises an intelligent bracelet body and a disposable bracelet;

the intelligent bracelet body user detects patient's physiological characteristic data, and disposable wrist strap user fixes intelligent bracelet body on patient's wrist, and disposable wrist strap has prevents tearing open the structure.

In a possible implementation manner of the first aspect, the smart bracelet body includes a blood pressure sensor, a body temperature sensor, a blood oxygen sensor, a heart rate sensor and a wireless transmission chip;

physiological characteristic data collected by the blood pressure sensor, the body temperature sensor, the blood oxygen sensor and the heart rate sensor are sent to the centralized control terminal through the wireless transmission chip.

In a possible implementation manner of the first aspect, the smart care system further includes: a plurality of wireless transmission repeaters;

the wireless transmission repeater is used for receiving the physiological characteristic data sent by the intelligent monitoring terminal through wireless communication connection and forwarding the received physiological characteristic data to the centralized display terminal through wireless communication connection.

In a possible implementation manner of the first aspect, the smart care system further includes: a plurality of infusion monitoring devices;

the infusion monitoring device is used for monitoring the residual liquid amount in an infusion bottle of a patient and sending the monitored residual liquid amount data to the centralized control terminal through wireless communication connection;

the centralized control terminal is also used for centrally displaying the residual liquid amount data sent by each infusion monitoring device.

In a possible implementation manner of the first aspect, the infusion monitoring device includes a wireless transmission chip and an infusion monitoring sensor;

the infusion monitoring sensor is used for monitoring the residual liquid amount in an infusion bottle of a patient, and the wireless transmission chip is used for sending the residual liquid amount data to the centralized control terminal through wireless communication connection.

In a possible implementation manner of the first aspect, the centralized control terminal is further configured to store data sent by each intelligent monitoring terminal.

In a possible implementation form of the first aspect, the wireless communication connection is a B L E connection.

The intelligent nursing system provided by the embodiment of the invention comprises: the intelligent monitoring terminal is used for monitoring physiological characteristics of patients, monitored physiological characteristic data are sent to the centralized control terminal through wireless communication connection, the centralized control terminal is used for receiving the physiological characteristic data sent by the intelligent monitoring terminals through wireless communication connection, and the physiological characteristic data sent by the intelligent monitoring terminals are displayed in a centralized mode, so that the centralized monitoring of the physiological characteristics of the patients is realized, the workload of nurses is reduced, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent care system provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent care system according to another embodiment of the present invention;

fig. 3 is a schematic structural diagram of an intelligent care system according to another embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Fig. 1 is a schematic structural diagram of an intelligent care system provided in an embodiment of the present invention, and as shown in fig. 1, the intelligent care system provided in this embodiment includes:

a plurality of intelligent monitoring terminals 11 and a centralized control terminal 12.

The intelligent monitoring terminal 11 is used for monitoring physiological characteristics of a patient and sending the monitored physiological characteristic data to the centralized control terminal 12 through wireless communication connection; the centralized control terminal 12 is configured to receive the physiological characteristic data sent by each intelligent monitoring terminal 11 through wireless communication connection, and centrally display the physiological characteristic data sent by each intelligent monitoring terminal 11.

The intelligent nursing system of the embodiment of the application can be applied to the environments such as hospitals, nursing homes and the like which need to carry out centralized nursing on patients or other crowds. In an environment where intensive care for patients is needed, the number of nurses in a shift is usually not large, but is far smaller than the number of patients needing care. However, there are many nursing items for nurses, for example, for general patients, at least several times of measuring physiological characteristic data such as body temperature and blood pressure, dispensing medicine, and performing injection. In the case of a critically ill patient, the measurement of the physiological characteristic data is required to be performed more times per day, and the measured physiological characteristic data items are more, and in addition, it is necessary to pay attention to various situations of the patient at any time. And the nurse needs to record in real time while performing various nursing work, so that the doctor can master the condition of the patient and make a more targeted treatment scheme. Therefore, the daily work of the nurse is quite heavy, and although various new medical devices are currently developed, the workload of the nurse cannot be significantly reduced. The heavy work is disadvantageous to the physical and mental health of the nurse, and the nursing work is a work which needs to be carefully performed, and the heavy work also has a risk of generating errors.

Accordingly, the present embodiments provide an intelligent care system. The intelligent nursing system comprises a plurality of intelligent monitoring terminals 11, and the intelligent monitoring terminals 11 are distributed for patients needing nursing one to one. The intelligent monitoring terminal 11 is carried by a patient and is used for monitoring the physiological characteristics of the patient. The physiological characteristics of the patient including but not limited to at least one or more of blood pressure, body temperature, blood oxygen, heart rate and respiratory rate are within the physiological characteristics that can be monitored by the intelligent monitoring terminal 11 as long as the physiological characteristics have a reference meaning for the treatment of the patient. The form of intelligent monitoring terminal 11 can be different according to patient's measurement demand, for example to the patient that needs ordinary nursing, only need monitor basic physiological characteristics, intelligent monitoring terminal 11 can be the form of intelligent bracelet so, and patient only need with intelligent monitoring terminal 11 with hand-carry on the wrist, and intelligent monitoring terminal 11 can monitor basic physiological characteristics such as blood pressure, body temperature, blood oxygen, rhythm of the heart. For the patient with higher care level, the intelligent monitoring terminal 11 may also be provided with sensors at multiple locations of the patient's body, and monitor various physiological characteristics of the patient, such as electrocardiogram, electroencephalogram, blood flow rate, etc., in addition to the basic physiological characteristics.

In summary, the intelligent monitoring terminal 11 is capable of monitoring at least one physiological characteristic data of the patient. Then, the plurality of intelligent monitoring terminals 11 transmit the monitored physiological characteristic data to the centralized control terminal 12 through wireless communication connection. Centralized control terminal 12 sets up in the nurse station of nurse's work, and the ward that a nurse station is responsible for sets up a centralized control terminal 12, and intelligent monitoring terminal 11 that the patient in a ward wore carries out data transmission through radio communication connection with centralized control terminal 12. Because the patient needs to move, the intelligent monitoring terminal 11 and the centralized control terminal 12 are connected through wireless communication, so that the movement of the patient does not need to be limited, the intelligent monitoring terminal 11 can monitor the physiological characteristics of the patient at any time and send the monitored physiological characteristic data to the centralized control terminal 12. The intelligent monitoring terminal 11 may send the monitored physiological characteristic data to the centralized control terminal 12 in real time, or may send the monitored physiological characteristic data to the centralized control terminal 12 periodically, where the period may be set according to actual care requirements, for example, the physiological characteristic data may be sent every half hour or an hour for patients with a general care level, or may be sent in real time or every minute for patients with a high care level.

The measurement of the physiological characteristic data by the intelligent monitoring terminal 11 can also be triggered according to a local case, that is, a measurement case is set on the intelligent monitoring terminal 11, and the measurement and report of the physiological characteristic data are performed only after a patient or a nurse presses the measurement case. Or the centralized control terminal 12 may send a measurement instruction to the designated intelligent monitoring terminal 11, and when the intelligent monitoring terminal 11 receives the measurement instruction sent by the centralized control terminal 12, the physiological characteristic data is measured and reported.

After the centralized control terminal 12 receives the physiological characteristic data sent by each intelligent monitoring terminal 11 through wireless communication connection, the received physiological characteristic data is displayed in a centralized manner, so that a nurse nursing a patient can monitor the physiological characteristic data of each patient only in the centralized control terminal 12 arranged in a nurse station without reaching the ward of the patient, the condition of the nursing patient is mastered, and the workload of the nurse is obviously reduced. The intelligent monitoring terminals 11 allocated to the patients are in one-to-one correspondence with the information of the patients, and in the centralized control terminal 12, the physiological characteristic data sent by each intelligent monitoring terminal 11 is matched with the information of the corresponding patient to be displayed. In addition, in some special nursing scenes, for example, in the nursing of infectious diseases, the centralized control terminal 12 is adopted to receive the physiological characteristic data sent by the intelligent monitoring terminal 11 worn by the patient through wireless communication connection, and the probability of the medical staff being infected by the infectious diseases can be reduced. In addition, the nurse frequently comes in and goes out the ward and also can influence patient's rest, adopts the intelligent nursing system that this application embodiment provided, has also reduced the influence to patient, has improved patient's comfort level.

The wireless communication connection between the intelligent monitoring terminal 11 and the centralized control terminal 12 may adopt any wireless communication connection mode, such as WiFi connection or bluetooth connection. Because the range of the place where the patient is cared for is not too large, the transmission requirement of the physiological characteristic data can be generally met by adopting a small-range wireless communication connection. In this application embodiment, for example, can adopt the bluetooth to connect, the power consumption that the bluetooth is connected is lower, and the chip integrated level that the bluetooth is connected is higher, can reduce intelligent monitoring terminal 11's volume like this, avoids patient to wear intelligent monitoring terminal and produces uncomfortable sense.

In an embodiment, the intelligent monitoring terminal 11 is an intelligent monitoring bracelet, and the intelligent monitoring bracelet comprises an intelligent bracelet body and a disposable bracelet; the intelligent bracelet body user detects patient's physiological characteristic data, and disposable wrist strap user fixes intelligent bracelet body on patient's wrist, and disposable wrist strap has prevents tearing open the structure. Present intelligent bracelet equipment can monitor the multiple physiological characteristics of human body already, as long as dispose in the intelligent bracelet equipment various sensor can, and in order to make patient wear intelligent monitoring terminal 11 at any time in the period of being in hospital, intelligent monitoring terminal 11 can wear on patient's wrist through the disposable wrist strap that has the structure of preventing tearing open, and the elasticity of disposable wrist strap can be adjusted according to patient's wrist thickness, in order to guarantee the accuracy of intelligent bracelet body to patient's physiological characteristics monitoring. The anti-dismantling structure of the disposable wrist strap can adopt a structure similar to an information wrist strap worn by a patient at present in an institution.

Furthermore, the wireless transmission chip can be a Bluetooth low power consumption (B L E) chip, so that the service time of the intelligent monitoring terminal 11 is prolonged, and the intelligent monitoring terminal 11 does not need to be replaced or charged during the period of hospitalization of a patient.

Further, the centralized control terminal 12 is further configured to set a normal range of physiological characteristic data of each intelligent monitoring terminal 11, and send an alarm message when the physiological characteristic data sent by the intelligent monitoring terminal 11 exceeds the set normal range. Because nurse's nursing work is complicated, hardly arrange a nurse in real time to monitor the physiological characteristic data that each intelligent monitoring terminal 11 that shows corresponds among the centralized control terminal 12, so when patient's physiological characteristic data produced unusually, the nurse also can't in time learn unusual data, probably delay patient's treatment. Therefore, the normal range of physiological characteristic data of each intelligent monitoring terminal 11 can be set in the centralized control terminal 12, when the physiological characteristic data sent by the intelligent monitoring terminal 11 exceeds the set normal range, alarm information is sent, so that a nurse does not need to monitor the physiological characteristic data displayed in the centralized control terminal 12 in real time, and after the centralized control terminal 12 sends the alarm information, the nurse can timely know the condition of a patient so as to take corresponding treatment for the patient. The normal ranges of the physiological characteristic data of the intelligent monitoring terminals 11 of the centralized control terminal 12 may be the same or different. The normal range of the physiological characteristic data of each intelligent monitoring terminal 11 may be the normal physiological characteristic data range of a common person, or the normal range of the physiological characteristic data may be set individually for the intelligent monitoring terminal 11 corresponding to each patient when the patient is admitted to the hospital according to different conditions of each patient.

Further, the centralized control terminal 12 is further configured to set an electronic fence range, acquire position information of each intelligent monitoring terminal 11, and send alarm information when monitoring that the position of the intelligent monitoring terminal 11 is outside the electronic fence range. When nursing a patient, in order to ensure the safety of the patient, the patient needs to be in a ward all the time during hospitalization, so that medical staff can take measures in time when the patient has special conditions. And in traditional ward, only carry out the management and control through access control system or the mode that the special messenger looked at patient, this kind of mode patient follows the discrepancy very easily when staff or visit personnel go out, has increased the degree of difficulty of nursing patient. Therefore, the centralized control terminal 12 can set the electronic fence range, which is the range in the ward. The centralized control terminal 12 may collect the location information of each intelligent monitoring terminal 11 in real time or periodically, or each intelligent monitoring terminal 11 may report the location information to the centralized control terminal in real time or periodically. When monitoring that the position of the intelligent monitoring terminal 11 is outside the range of the electronic fence, the centralized control terminal 12 can send alarm information, so that a nurse can know the information that the patient leaves the ward, and the safety of the patient is ensured. The centralized control terminal 12 can also have an outgoing configuration, and when a patient needs to go out for treatment or examination, the intelligent monitoring terminal 11 worn by the patient can be configured to go out in the centralized control terminal 12, so that false alarm caused by the fact that the patient goes in and out of a ward at the moment is avoided. The position information of each intelligent monitoring terminal 11 may be determined according to the intensity of the physiological characteristic data signal sent by the intelligent monitoring terminal 11, or a positioning module may be set in the intelligent monitoring terminal 11, and the position information of the intelligent monitoring terminal 11 is determined according to the position information reported by the positioning module.

The intelligent care system that this embodiment provided includes: the intelligent monitoring terminal is used for monitoring physiological characteristics of patients, monitored physiological characteristic data are sent to the centralized control terminal through wireless communication connection, the centralized control terminal is used for receiving the physiological characteristic data sent by the intelligent monitoring terminals through wireless communication connection, and the physiological characteristic data sent by the intelligent monitoring terminals are displayed in a centralized mode, so that the centralized monitoring of the physiological characteristics of the patients is realized, the workload of nurses is reduced, and the working efficiency is improved.

Fig. 2 is a schematic structural diagram of an intelligent care system according to another embodiment of the present invention, and as shown in fig. 2, the intelligent care system according to this embodiment further includes, based on the embodiment shown in fig. 1:

a plurality of wireless transmission repeaters 13. The wireless transmission repeater 13 is configured to receive the physiological characteristic data sent by the intelligent monitoring terminal 11 through a wireless communication connection, and forward the received physiological characteristic data to the centralized display terminal 11 through a wireless communication connection.

Because the building structure in the ward may be complex, or the area of some special ward is large, and the intelligent monitoring terminal 11 has the requirement of power saving, the wireless communication quality of the intelligent nursing system formed by the intelligent monitoring terminal 11 and the centralized control terminal 12 may not be good, thereby affecting the real-time performance and accuracy of the physiological characteristic data transmission. Therefore, the intelligent care system provided in this embodiment further includes a plurality of wireless transmission repeaters 13, and the wireless transmission repeaters 13 use the same wireless communication system as the intelligent monitoring terminal 11 and the centralized control terminal 12, and use a relay transmission mode to forward the physiological characteristic data sent by the intelligent monitoring terminal 11 to the centralized control terminal 12. The wireless transmission repeater 13 can be set according to the actual environment of the ward where the intelligent nursing system is used, and can ensure that the physiological characteristic data sent by the intelligent monitoring terminal 11 can be accurately forwarded in real time at any position in the ward range.

After the wireless transmission relay 13 is disposed, the position information of the smart monitoring terminal 11 may be obtained by measuring the position information by a plurality of wireless transmission relays 13.

Fig. 3 is a schematic structural diagram of an intelligent care system according to another embodiment of the present invention, and as shown in fig. 3, the intelligent care system according to this embodiment further includes, based on the embodiment shown in fig. 2:

a plurality of infusion monitoring devices 14. The infusion monitoring device 14 is used for monitoring the residual liquid amount in an infusion bottle of a patient and sending the monitored residual liquid amount data to the centralized control terminal 12 through wireless communication connection; the centralized control terminal 12 is also used for centrally displaying the remaining liquid amount data sent by each infusion monitoring device 13.

The longest accepted treatment of hospitalized patients is infusion treatment, but the current infusion treatment needs to continuously observe the residual liquid amount in an infusion bottle by patients, nurses or accompanying personnel, so as to avoid blood backflow caused by the fact that the medicine is not changed or a needle is not pulled out after the liquid in the infusion bottle is completely infused. However, the patient needs to have a rest, the monitoring is not suitable for monitoring the infusion bottle for a long time, the nurse is heavy in work and cannot pay attention to the infusion bottle of each patient in real time, and even if the nurse has an attendant, the nurse brings physiological and mental burdens to the attendant. Therefore, in the intelligent care system provided in the embodiment of the present application, a plurality of infusion monitoring devices 14 are further included. The infusion monitoring device 14 is configured for a patient requiring infusion therapy, and the infusion monitoring device 14 is capable of monitoring the amount of fluid remaining in the patient's infusion bottle. And the infusion monitoring device 14 transmits the monitored remaining amount of liquid to the centralized control terminal 12 through a wireless communication connection. Thus, the centralized control terminal 12 can display the remaining liquid amounts monitored by the infusion monitoring devices 13 in a centralized manner. The remaining liquid amounts displayed by the respective infusion monitoring apparatuses 13 in the centralized control terminal 12 correspond to the patient information, and the nurse can monitor the remaining liquid amounts of the infusion bottles of the respective patients in the nurse station. Then need not patient or accompanying person and pay close attention to the remaining liquid measure, the nurse also need not to arrive the ward and confirms the remaining liquid measure, only need can confirm the remaining liquid measure of each patient's infusion in nurse's station, has reduced nurse's work load, has also lightened patient and accompanying person's burden.

The infusion monitoring device 14 comprises a wireless transmission chip and an infusion monitoring sensor, wherein the infusion monitoring sensor is used for monitoring the residual liquid amount in an infusion bottle of a patient, the wireless transmission chip is used for sending the residual liquid amount data to the centralized control terminal through wireless communication connection, the wireless communication mode of the wireless transmission chip adopted by the infusion monitoring device 14 is the same as that of the intelligent monitoring terminal 11 and the centralized control terminal 12, for example, a B L E chip, and in addition, the infusion monitoring device 14 can also forward the monitored residual liquid amount to the centralized control terminal 12 through the wireless transmission repeater 13.

In addition, the infusion monitoring device 14 may further set an alarm threshold, and when the monitored remaining liquid amount is lower than a preset threshold, for example, lower than 10 ml, the alarm information is sent to the centralized control terminal 12, so that the nurse can timely know the information that the liquid amount is low.

The infusion monitoring sensor in the infusion monitoring device 14 may be a gravity-sensitive sensor for monitoring the change of gravity of the infusion bottle of the patient to determine the remaining amount of liquid. Because the specification of the infusion bottle is limited, mainly including 100 ml, 250 ml and 500 ml, the gravity sensing sensor can be arranged at the hanging part of the infusion bottle, and the specification of the infusion bottle is set or the specification of the infusion bottle is automatically detected, so that the change information of the liquid amount in the infusion bottle can be determined according to the monitored gravity reduction amount when the gravity sensing sensor is used, and the residual liquid amount is determined.

Or the infusion monitoring sensor in the infusion monitoring device 14 may be an optical detection sensor, the optical sensor is disposed at the bottle mouth of the hanging infusion bottle, and when the optical sensor detects that the liquid at the bottle mouth disappears, it can be determined that the remaining liquid amount reaches a preset threshold value, so as to send alarm information to the centralized control terminal 12.

In an embodiment, the centralized control terminal 12 is further configured to store data sent by each intelligent monitoring terminal 11. Therefore, the nurse is not required to record the physiological characteristic data of each patient, and the medical staff can check the physiological characteristic data of each patient in each time period through the centralized control terminal 12, so that evidence is provided for diagnosis and treatment of the patient, and the workload of the nurse can be reduced. The centralized control terminal 12 also records the physiological characteristic data more accurately than manual recording.

It should be noted that, in the embodiment of the heterogeneous link data translation and distribution device, the included units and modules are merely divided according to functional logic, but are not limited to the above division as long as the corresponding functions can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. An intelligent care system, comprising: the system comprises a plurality of intelligent monitoring terminals and a centralized control terminal;

the intelligent monitoring terminal is used for monitoring physiological characteristics of patients and sending the monitored physiological characteristic data to the centralized control terminal through wireless communication connection;

the centralized control terminal is used for receiving the physiological characteristic data sent by each intelligent monitoring terminal through wireless communication connection and displaying the physiological characteristic data sent by each intelligent monitoring terminal in a centralized manner.

2. The intelligent nursing system of claim 1, wherein the centralized control terminal is further configured to send an alarm message when the physiological characteristic data sent by the intelligent monitoring terminals exceeds the set normal range for setting the normal range of the physiological characteristic data of each intelligent monitoring terminal.

3. The intelligent nursing system according to claim 1 or 2, wherein the centralized control terminal is further configured to set an electronic fence range, acquire position information of each intelligent monitoring terminal, and send an alarm message when monitoring that the position of the intelligent monitoring terminal is outside the electronic fence range.

4. The intelligent nursing system according to claim 1 or 2, wherein the intelligent monitoring terminal is an intelligent monitoring bracelet, and the intelligent monitoring bracelet comprises an intelligent bracelet body and a disposable bracelet;

the intelligent bracelet body user detects patient's physiological characteristic data, disposable wrist strap user will intelligent bracelet body fixes on patient's wrist, disposable wrist strap has prevents tearing open the structure.

5. The intelligent care system according to claim 4, wherein the intelligent bracelet body comprises a blood pressure sensor, a body temperature sensor, a blood oxygen sensor, a heart rate sensor and a wireless transmission chip;

the physiological characteristic data collected by the blood pressure sensor, the body temperature sensor, the blood oxygen sensor and the heart rate sensor is sent to the centralized control terminal through the wireless transmission chip.

6. The smart care system according to claim 1 or 2, further comprising: a plurality of wireless transmission repeaters;

the wireless transmission repeater is used for receiving the physiological characteristic data sent by the intelligent monitoring terminal through wireless communication connection and forwarding the received physiological characteristic data to the centralized display terminal through wireless communication connection.

7. The smart care system according to claim 1 or 2, further comprising: a plurality of infusion monitoring devices;

the infusion monitoring device is used for monitoring the residual liquid amount in an infusion bottle of a patient and sending the monitored residual liquid amount data to the centralized control terminal through wireless communication connection;

the centralized control terminal is also used for centrally displaying the residual liquid amount data sent by each infusion monitoring device.

8. The intelligent care system according to claim 7, wherein the infusion monitoring device comprises a wireless transmission chip and an infusion monitoring sensor;

the infusion monitoring sensor is used for monitoring the residual liquid amount in an infusion bottle of a patient, and the wireless transmission chip is used for sending the residual liquid amount data to the centralized control terminal through wireless communication connection.

9. The intelligent nursing system of claim 8, wherein the centralized control terminal is further configured to store data sent by each intelligent monitoring terminal.

10. The smart care system of claim 1 or 2, wherein the wireless communication connection is a bluetooth low energy B L E connection.

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