CN213551748U

CN213551748U - Bracelet equipment suitable for shelter hospital

Info

Publication number: CN213551748U
Application number: CN202022512945.5U
Authority: CN
Inventors: 杜凯; 郭立全; 李圣林; 刘常乐
Original assignee: Anhui University of Science and Technology
Current assignee: Anhui University of Science and Technology
Priority date: 2020-11-02
Filing date: 2020-11-02
Publication date: 2021-06-29
Anticipated expiration: 2030-11-02

Abstract

The utility model discloses a bracelet equipment suitable for shelter hospital, including bracelet monitor, networking information transmission router, server, data processing end subassembly, have wireless transmission subassembly, main control assembly, heart rate blood oxygen monitoring subassembly, body temperature monitoring subassembly in the bracelet monitor, wireless transmission subassembly with main control assembly connects, main control assembly connects gradually networking information transmission router, server, data processing end subassembly; the heart rate blood oxygen monitoring assembly is connected with the body temperature monitoring assembly and the main control assembly. The utility model has the advantages that: the system can be applied to the environments with more patients such as a shelter hospital and the like, the purpose of reducing the workload of medical staff is achieved, the information acquisition efficiency of the medical staff is also improved, and the patients can conveniently feed back the self condition in time; realize quick, high-efficient bracelet detection device under shelter hospital environment.

Description

Bracelet equipment suitable for shelter hospital

Technical Field

The utility model relates to a medical instrument especially relates to a bracelet equipment who is adapted to shelter hospital.

Background

Because of the outbreak of the novel coronavirus epidemic situation, how to timely control the emergent public health incidents becomes a major research topic, wherein one effective method for epidemic situation control is to isolate and control the infection source, the isolation and control of the infection source needs to be carried out in a fixed-point hospital with treatment capacity, and the shelter hospital can be rapidly deployed and relieve the treatment pressure due to the unique maneuverability and environmental adaptability. In the receiving and treating management process, according to the standard of a management manual of a shelter hospital, medical staff need to regularly acquire a plurality of vital signs of a patient, wherein the vital signs include four times of body temperature detection, two times of heart rate detection and blood oxygen saturation detection in different periods. Huge work load has increaseed medical personnel's work burden under the epidemic situation environment, consequently utilizes intelligent detection system to replace artifical the detection and can improve the efficiency of shelter hospital and accept and treat work.

In response to social needs, people have successively developed some portable detectors for monitoring physical health parameters at any time, such as electronic bracelets, wristwatches and other electronic products, and with the development of sensor detection technology, these portable detectors involve the measurement of physical parameters of physical signs such as body temperature, heart rate and blood oxygen saturation, and although single personalized health monitoring has been realized and applied to partial clinical medical monitoring, these devices still do not have the functions of large-scale monitoring, interaction with medical staff monitoring platforms and the like.

Under epidemic conditions, the number of patients to be treated in a shelter hospital is large, close monitoring of vital signs is the key of treatment and collection work, and the work difficulty of medical staff is large due to the limitation of protective equipment. Therefore, develop a bracelet that is applicable to shelter hospital, can be effective timely carry out vital sign's monitoring to the person infected, also can reduce medical staff's working strength simultaneously to can strengthen the contact between medical staff and the patient through the interaction of monitoring bracelet and backstage.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve lies in: how to solve bracelet among the prior art and be not adapted to the hospital, unable and medical staff monitoring platform interactive problem.

The utility model discloses a following technical means realizes solving above-mentioned technical problem:

a bracelet suitable for a shelter hospital comprises a bracelet monitor, a networking information transmission router, a server and a data processing end component, wherein a wireless transmission component, a main control component, a heart rate and blood oxygen monitoring component and a body temperature monitoring component are arranged in the bracelet monitor, the wireless transmission component is connected with the main control component, and the main control component is sequentially connected with the networking information transmission router, the server and the data processing end component; the heart rate blood oxygen monitoring assembly is connected with the body temperature monitoring assembly and the main control assembly.

The utility model discloses a rhythm of the heart blood oxygen monitoring subassembly timing monitoring rhythm of the heart and blood oxygen concentration to and adopt body temperature monitoring subassembly timing monitoring body temperature, give main control assembly with these data transmission, rethread wireless transmission unit transmits for networking information transmission router after main control assembly integrates to handle, networking information transmission router gives the server with data transmission again, the data processing end subassembly of backstage, backstage medical personnel can call the basic vital sign that monitored data comes the real time monitoring patient, medical personnel can realize real time monitoring to patient.

Preferably, still include rechargeable battery pack in the bracelet monitor, rechargeable battery pack connects main control component the wireless transmission subassembly heart rate blood oxygen monitoring subassembly the body temperature monitoring subassembly. The rechargeable battery component provides power for the whole bracelet and can charge the bracelet through the interface; a polymer lithium battery can be adopted, low power consumption is used as a model selection module in the microprocessor and the transmission module as much as possible, but the power consumption of peripheral analog circuits such as the heart rate blood oxygen monitoring component and the body temperature monitoring component is still relatively large when the microprocessor is in standby; when the system is designed, the microprocessor is adopted to carry out power supply management, the microprocessor is used for controlling the power supply of the peripheral analog circuit, and when the microprocessor system is in standby, the power supply of the peripheral analog circuit is cut off so as to achieve the effect of reducing power consumption.

Preferably, still include touch LCD screen, touch LCD screen installs bracelet monitor surface, touch LCD screen with main control assembly connects. The touch liquid crystal screen adopts a TFT full-control touch screen which can actively control each independent pixel on the screen, so that the reaction time can be greatly improved. The TFT full-control touch screen can display screen information with high speed, high brightness and high contrast.

Preferably, still include the key switch who is used for calling medical staff, key switch connects on bracelet monitor, key switch with main control assembly connects. The key switch provides the function of emergency call for the patient, can press the button for a long time when the patient feels the discomfort of health and needs to call medical staff, and main control assembly can give corresponding signal and pass through wireless transmission subassembly and transmit for the back-end server.

Preferably, still include pilot lamp, vibration subassembly, the pilot lamp with the vibration subassembly is connected on bracelet monitor, the pilot lamp with the vibration subassembly all with main control assembly connects. The preferred energy-conserving LED lamp of pilot lamp, when medical personnel's message or alert are received to the bracelet, the pilot lamp can often be bright and remind the patient, and the vibration subassembly is miniature vibrations motor simultaneously, and vibrations motor can shake and remind the patient to pay close attention to the message.

Preferably, the main control module is a chip of which the model is STM32F103C8T 6. The main control module adopts STM32F103C8T6, and the MCU of this controller has 32 RISC kernels of bit, and built-in high speed memory possesses advanced communication interface, and the main control unit who has regarded as the bracelet simultaneously possesses the standard of low-power consumption, also satisfies the control demand of system. Other types of chips capable of implementing this function are also possible.

Preferably, the body temperature monitoring component is a chip with the model number of MLX 90614. The body temperature monitoring component adopts an infrared temperature measuring sensor based on an MLX90614 chip and is used for collecting body temperature data of a wearer in real time, the body temperature data monitored in real time are stored in an RAM inside a main controller and are read by the main controller in real time, and the MLX90614 is integrated with a low-noise amplifier, a 17-bit ADC and a powerful DSP unit, so that the temperature sensor has high precision and high resolution. Other types of chips capable of implementing this function are also possible.

Preferably, the heart rate blood oxygen monitoring component is a chip with a model number of MAX 30102. The heart rate blood oxygen monitoring component adopts a MAX30102 module, and the reflection type blood oxygen saturation sensor has the characteristic of not being limited by a measurement part, and the MAX30102 integrates a complete luminous LED and a driving part, a light induction and driving part, an environmental interference elimination function and a digital filtering function. The collected numerical value can be transmitted to Arduino, a single chip microcomputer and the like to perform heart rate and blood oxygen calculation. Other types of chips capable of implementing this function are also possible.

Preferably, the wireless transmission component is a chip with a model number of CC 2530. In order to meet the requirements of system signal acquisition, low power consumption and network transmission function, a CC2530 chip produced by TI company is selected as a wireless transmission component of the bracelet. The CC2530 integrates an RF transceiver, a standard enhanced 8051CPU, and has multiple operating modes, meeting ultra-low power consumption requirements. And the Zigbee transmission protocol is suitable for networking and data transmission of a large number of nodes under the Internet of things. Zigbee adopts the two-way communication technology, namely after the signal transmission succeeds, receiving equipment can immediately feed back the received signal to the transmitter simultaneously, namely the receiver both has the receiving function and has the transmitting function, and ZigBee is as the wireless two-way communication technology, and the two-way communication module with the self-detection function is more suitable for the networking environment of the Internet of things technology. Other types of chips capable of implementing this function are also possible.

Preferably, the server is an MQTT server. The MQTT protocol in the MQTT server is a small-sized transmission protocol, and the characteristics of small-sized transmission ensure that the overhead of the system is extremely low and the requirement on network flow is extremely low. The MQTT runs on a TCP protocol stack, can provide ordered, reliable and bidirectional network connection guarantee, has the characteristics of openness, simplicity, easiness in implementation and the like, and is suitable for scenes with low network bandwidth and unstable networks. The miniature MQTT server can support hundreds of thousands of high-concurrency messages and is enough to meet the use requirement of a common shelter hospital. The self-recovery feature allows it to recover automatically in the event of a network disconnect failure. In addition, the MQTT also supports various different programming languages and the characteristic of supporting open platform deployment, so that the development of software and hardware connection is more convenient. Other servers capable of implementing this function are also possible.

The utility model has the advantages that:

(1) the utility model discloses a heart rate blood oxygen monitoring component regularly monitors heart rate and blood oxygen concentration to and adopt body temperature monitoring component regularly to monitor the body temperature, transmit these data to main control assembly, after main control assembly integration processing again transmit to networking information transmission router through wireless transmission assembly, networking information transmission router again with data transmission to server, the data processing end subassembly of backstage, backstage medical personnel can call the basic vital sign of monitoring patient in real time of monitored data; therefore, the aim of reducing the workload of medical staff is fulfilled, the information acquisition efficiency of the medical staff is also improved, and the patient can conveniently feed back the self condition in time; the bracelet detection device is quick and efficient in shelter hospital environment;

(2) the touch liquid crystal screen is used for displaying real-time data, so that the display is more visual;

(3) the rechargeable battery component provides power for the whole bracelet and can charge the bracelet through the interface;

(4) when medical personnel's message or alert are received to the bracelet, the pilot lamp can be often bright and remind the patient, and the vibration subassembly is miniature vibrations motor simultaneously, and vibrations motor can shake and remind the patient to pay close attention to the message.

(5) This bracelet equipment mainly is applied to under this kind of personnel more concentrated treatment environment of shelter hospital, and the bracelet monitor realizes with the help of transmission router and MQTT server that the more patient of quantity is interactive with medical personnel's backstage, uses the internet of things to the more treatment guardianship of the number of shelter hospital, realizes high-efficient, quick detection.

Besides, the device can be further applied to the environments of other patients, nursing homes, rescue centers and the like.

Drawings

Fig. 1 is a schematic view of a connection relationship of a bracelet adapted to a shelter hospital according to an embodiment of the present invention;

FIG. 2 is a schematic view of a bracelet monitor;

fig. 3 is a schematic diagram of the relationship of the components inside the bracelet.

Reference numbers in the figures: 1. a bracelet monitor; 101. a wireless transmission component; 102. a main control assembly; 103. a heart rate blood oxygen monitoring component; 104. a body temperature monitoring assembly; 105. a rechargeable battery pack; 106. touching the liquid crystal screen; 107. a key switch; 108. an indicator light; 109. a vibrating assembly; 110. a girdle; 2. a networking information transmission router; 3. a server; 4. a data processing end component;

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1, 2 and 3, a bracelet suitable for a shelter hospital includes a bracelet monitor 1, a networking information transmission router 2, a server 3 and a data processing end component 4, a wireless transmission component 101, a main control component 102, a heart rate and blood oxygen monitoring component 103 and a body temperature monitoring component 104 are provided in the bracelet monitor 1, a non-closed ring belt 110 is provided outside the bracelet monitor 1, the ring belt 110 is used for being clamped on a wrist, and other components are integrated in a rectangular box body, wherein the wireless transmission component 101 is connected with the main control component 102, and the main control component 102 is sequentially connected with the networking information transmission router 2, the server 3 and the data processing end component 4; the heart rate blood oxygen monitoring component 103 and the body temperature monitoring component 104 are connected with the main control component 102.

In this embodiment, the wireless transmission component 101 is a chip with a model number CC 2530. In order to meet the requirements of system signal acquisition, low power consumption and network transmission function, a CC2530 chip produced by TI company is selected as the wireless transmission component 101 of the bracelet. The CC2530 integrates an RF transceiver, a standard enhanced 8051CPU, and has multiple operating modes, meeting ultra-low power consumption requirements. And the Zigbee transmission protocol is suitable for networking and data transmission of a large number of nodes under the Internet of things. Zigbee adopts the two-way communication technology, namely after the signal transmission succeeds, receiving equipment can immediately feed back the received signal to the transmitter simultaneously, namely the receiver both has the receiving function and has the transmitting function, and ZigBee is as the wireless two-way communication technology, and the two-way communication module with the self-detection function is more suitable for the networking environment of the Internet of things technology. Other types of chips capable of this function are also possible.

The main control module 102 is a chip of which the model is STM32F103C8T 6. The MCU of the main control component 102 has a 32-bit RISC kernel, a built-in high-speed memory and an advanced communication interface, and simultaneously, the MCU serving as a main controller of a bracelet has the standard of low power consumption and also meets the control requirement of a system. Other types of chips capable of this function are also possible.

The heart rate blood oxygen monitoring component 103 is a chip with a model number of MAX 30102. The heart rate blood oxygen monitoring component adopts a MAX30102 module, and the reflection type blood oxygen saturation sensor has the characteristic of not being limited by a measurement part, and the MAX30102 integrates a complete luminous LED and a driving part, a light induction and driving part, an environmental interference elimination function and a digital filtering function. The collected numerical value can be transmitted to Arduino, a single chip microcomputer and the like to perform heart rate and blood oxygen calculation. Other types of chips capable of this function are also possible.

The body temperature monitoring component 104 is a chip with model number MLX 90614. The body temperature monitoring component 104 adopts an infrared temperature measuring sensor based on an MLX90614 chip and is used for collecting body temperature data of a wearer in real time, the body temperature data monitored in real time is stored in an RAM inside a main controller and is read by the main controller in real time, and the MLX90614 is integrated with a low noise amplifier, a 17-bit ADC and a powerful DSP unit, so that the temperature sensor has high precision and high resolution. Other types of chips capable of this function are also possible.

The server 3 is an MQTT server. The MQTT protocol in the MQTT server is a small-sized transmission protocol, and the characteristics of small-sized transmission ensure that the overhead of the system is extremely low and the requirement on network flow is extremely low. The MQTT runs on a TCP protocol stack, can provide ordered, reliable and bidirectional network connection guarantee, has the characteristics of openness, simplicity, easiness in implementation and the like, and is suitable for scenes with low network bandwidth and unstable networks. The miniature MQTT server can support hundreds of thousands of high-concurrency messages and is enough to meet the use requirement of a common shelter hospital. The self-recovery feature allows it to recover automatically in the event of a network disconnect failure. In addition, the MQTT also supports various different programming languages and the characteristic of supporting open platform deployment, so that the development of software and hardware connection is more convenient. Other servers capable of this function are also possible.

In the embodiment, the heart rate and the blood oxygen concentration are regularly monitored by the heart rate and blood oxygen monitoring component 103, the body temperature is regularly monitored by the body temperature monitoring component 104, the data are transmitted to the main control component 102, the data are integrated and processed by the main control component 102 and then transmitted to the networking information transmission router 2 by the wireless transmission component 101, the networking information transmission router 2 transmits the data to the server 3, the server 3 transmits the data to the background data processing end component 4, the background medical personnel can call the monitored data to monitor the basic vital signs of the patient in real time, the medical personnel can monitor the patient in real time, so that the purpose of reducing the workload of the medical personnel is achieved, the efficiency of the medical personnel for obtaining the information is improved, and the patient can feed back the self condition in time; realize intelligent bracelet detection device under shelter hospital environment.

This bracelet equipment mainly is applied to under this kind of personnel more concentrated treatment environment of shelter hospital, and the bracelet monitor realizes with the help of transmission router and MQTT server that the more patient of quantity is interactive with medical personnel's backstage, uses the internet of things to the more treatment guardianship of the number of shelter hospital, realizes high-efficient, quick detection.

Besides, the device can also be applied to other environments with more patients, such as nursing homes, rescue centers and the like.

Example two:

as shown in fig. 2 and fig. 3, on the basis of the first embodiment, the bracelet monitor 1 further includes a rechargeable battery assembly 105, and the rechargeable battery assembly 105 is connected to the main control assembly 102, the wireless transmission assembly 101, the heart rate blood oxygen monitoring assembly 103, and the body temperature monitoring assembly 104. The rechargeable battery assembly 105 provides power for the whole bracelet and can be charged through the interface; a polymer lithium battery can be adopted, low power consumption is used as a model selection module in the microprocessor and the transmission module as much as possible, but the power consumption of peripheral analog circuits such as the heart rate blood oxygen monitoring component 103, the body temperature monitoring component 104 and the like is still relatively large when the microprocessor is in standby; in the actual use process, the microprocessor can be used for power management, the microprocessor is used for controlling the power supply of the peripheral analog circuit, and when the microprocessor system is in standby, the power supply of the peripheral analog circuit is cut off so as to achieve the effect of reducing power consumption.

Still include touch LCD screen 106 in the bracelet monitor 1, touch LCD screen 106 is installed bracelet monitor 1 surface, touch LCD screen 106 with main control module 102, rechargeable battery assembly 105 are connected, and touch LCD screen 106 is used for showing current heart rate, blood oxygen, body temperature situation. The touch liquid crystal screen 106 is a TFT full-control touch screen which can actively control each independent pixel on the screen, so that the response time can be greatly improved. The TFT full-control touch screen can display screen information with high speed, high brightness and high contrast.

Example three:

as shown in fig. 2 and 3, on the basis of the second embodiment, the bracelet monitor 1 further includes a key switch 107 for calling medical staff, the key switch 107 is connected to the bracelet monitor 1, specifically, to the side, and the key switch 107 is connected to the main control assembly 102. The key switch 107 provides the function of emergency call for the patient, and can press the key for a long time when the patient feels uncomfortable and needs to call medical staff, and the main control component 102 can give corresponding signal and transmit to the back-end server 3, the data processing end component 4 through the wireless transmission component 101, and the back-end medical staff can give diagnosis and treatment immediately after knowing.

The bracelet monitor 1 further comprises an indicator light 108 and a vibration assembly 109, the indicator light 108 and the vibration assembly 109 are connected to the bracelet monitor 1, and the indicator light 108 and the vibration assembly 109 are both connected with the main control assembly 102 and the rechargeable battery assembly 105 to provide electric energy for the rechargeable battery assembly; the indicator light 108 is preferably an energy-saving LED lamp, when the bracelet receives a medical staff message or an alarm, the indicator light 108 can be constantly on and remind the patient, and the vibration assembly 109 is a micro vibration motor which can vibrate to remind the patient to pay attention to the message.

When the patient feels uncomfortable, the medical staff is called by pressing the key switch 107 for a long time, and the medical staff can enable the indicator lamp 108 to be normally on and the vibration component 109 to vibrate through feedback, so that the patient can know that the medical staff is coming; or the medical staff is about to perform routine examination, and the patient is informed through the indicator lamp 108 and the vibration assembly 109; the use flexibility is high.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. A bracelet device suitable for a shelter hospital is characterized by comprising a bracelet monitor, a networking information transmission router, a server and a data processing end component, wherein the bracelet monitor is internally provided with a wireless transmission component, a main control component, a heart rate and blood oxygen monitoring component and a body temperature monitoring component; the heart rate blood oxygen monitoring assembly is connected with the body temperature monitoring assembly and the main control assembly.

2. The bracelet device suitable for shelter hospitals according to claim 1, further comprising a rechargeable battery assembly inside the bracelet monitor, wherein the rechargeable battery assembly is connected with the main control assembly, the wireless transmission assembly, the heart rate blood oxygen monitoring assembly and the body temperature monitoring assembly.

3. The bracelet equipment suitable for shelter hospitals according to claim 1, further comprising a touch liquid crystal screen, wherein the touch liquid crystal screen is installed on the outer surface of the bracelet monitor, and is connected with the main control component.

4. The bracelet equipment suitable for shelter hospitals according to claim 1, further comprising a key switch for calling medical staff, wherein the key switch is connected to the bracelet monitor, and the key switch is connected to the main control assembly.

5. The bracelet equipment suitable for shelter hospitals according to claim 1, further comprising an indicator light and a vibration assembly, wherein the indicator light and the vibration assembly are connected on the bracelet monitor, and the indicator light and the vibration assembly are both connected with the main control assembly.

6. The bracelet device suitable for shelter hospitals according to claim 1, wherein the main control component is a chip of which model is STM32F103C8T 6.

7. The bracelet device suitable for shelter hospitals according to claim 1, wherein the body temperature monitoring component is a chip of model MLX 90614.

8. The bracelet device suitable for shelter hospitals of claim 1, wherein the heart rate blood oxygen monitoring component is a chip with a model of MAX 30102.

9. The bracelet device suitable for shelter hospitals according to claim 1, wherein the wireless transmission component is a chip with model number CC 2530.

10. The bracelet device suitable for shelter hospitals according to claim 1, wherein the server is an MQTT server.