CN111477350A - Non-contact type mobile medical care system - Google Patents

Abstract

The invention discloses a non-contact type mobile medical care system, and belongs to the technical field of communication. The system comprises a patient sign real-time acquisition platform, a health care management platform and a medical communication terminal, wherein the patient sign real-time acquisition platform is transmitted to a server of the health care management platform, and the medical communication terminal accesses the patient sign real-time acquisition platform; the patient sign real-time acquisition platform comprises a central processing unit, a power module, a vibration sounding device, a data storage unit, a WIFI communication module and the like. Can bring convenience to the medical service field.

Description

Non-contact type mobile medical care system

Technical Field

The invention relates to the technical field of communication, in particular to a non-contact mobile medical care system.

Background

At present, the diagnosis, treatment and nursing of infectious diseases are generally in contact with patients, and information such as medical information, equipment information, medicine information, personnel information, management information and the like in hospitals cannot be shared. Therefore, the efficiency of the work of the medical staff is low, and the probability of spreading infectious diseases between doctors and patients is increased.

Particularly, the novel pneumonia which is emergent in the year highlights the condition of the current hospital. Medical personnel and patients have an urgent need for a non-contact, effective and rapid disease diagnosis, treatment and monitoring system.

Disclosure of Invention

In order to achieve the above-mentioned disadvantages, the present invention provides a non-contact mobile medical care system.

The technical scheme adopted by the invention is as follows:

a non-contact mobile medical care system comprises a patient sign real-time acquisition platform, a health medical care management platform and a medical communication terminal, wherein the patient sign real-time acquisition platform is transmitted to a server of the health medical care management platform, the medical communication terminal accesses the patient sign real-time acquisition platform, the patient sign real-time acquisition platform comprises a central processing unit, a power module, a vibration sounding device, a data storage unit, a WIFI communication module, a body temperature detection module, a blood pressure pulse detection module, an electrocardio acquisition module, an information display module, a Bluetooth module and a video monitoring module, an SP2 interface of the central processing unit is connected with an RX/TX of a body temperature detection module, a USB interface of the central processing unit is connected with a USB of a blood pressure pulse detection module, an UART I2C1 interface of the central processing unit is connected with an SC L/SDA of the electrocardio acquisition module, a 1 interface of the central processing unit is connected with an UART/RS485 interface of the information display module, an interface of the central processing unit is connected with an RXDD/TXDD interface of a WIFI communication module, a UART2 interface of the central processing unit, a UART3 interface of the central processing unit is connected with a USB communication module, a USB interface of a USB communication center, a wireless interface of a wireless communication module, a USB interface of a USB transceiver module, a wireless interface of a wireless terminal, a USB interface of a USB transceiver module, a wireless terminal, a wireless interface of a wireless radio frequency communication terminal transceiver module, a wireless interface of a wireless terminal, a wireless radio frequency communication terminal, a wireless radio frequency transceiver module, a wireless radio frequency interface of a wireless radio frequency transceiver module, a wireless.

The medical communication terminal can be of a fixed type.

The invention has the beneficial effects that: the service system is constructed by utilizing the technology of the Internet of things, and four kinds of convenience can be brought to the field of medical services: firstly, the existing medical monitoring equipment is wireless, so that the public medical burden is greatly reduced; secondly, remote medical treatment and self-service medical treatment are realized by an informatization means, direct contact between doctors and patients is reduced, working efficiency is improved, and pressure of shortage of medical resources is relieved; thirdly, the information is shared and communicated among all participating main bodies in the medical and health field, which is beneficial to fully sharing the medical information; fourthly, the method is beneficial to the modernization of the medical service of China and the improvement of the medical service level.

Drawings

Fig. 1 is a circuit block diagram of a patient vital signs real-time acquisition platform of the present invention.

Fig. 2 is a circuit configuration diagram of the medical communication terminal of the present invention.

Fig. 3 is a schematic structural diagram of a zero-flow roaming-free high-density medical information interconnection platform.

Fig. 4 is a schematic structural diagram of a health care management platform.

FIG. 5 is a flow chart of the health care management platform.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution:

the patient sign real-time acquisition platform is shown in fig. 1, the system comprises a central processing unit 01, a power supply module 02, a vibration generating device 03, a data storage unit 04, a WIFI communication module 05, a body temperature detection module 06, a pulse detection module 07, a blood pressure detection module 08, an information display module 09, a Bluetooth module 10 and a video camera module 11 with audio, the central processing unit 01 adopts an STM32F429IGT 6L QFP-176 chip, the battery module 02 supports a button lithium battery and a wired 5V power supply for power supply, the vibration generating device 03 is used for signal receiving prompt and abnormal alarm functions, the data storage unit 04 temporarily stores acquired sign information, the information display module 09 displays the working state of the device and monitored sign parameters, the body temperature detection module 06, the pulse detection module 07 and the blood pressure detection module 08 are used for acquiring sign information in real time, Bluetooth communication is arranged, detection information of new installed sign detection equipment can be extracted, the platform can be installed on a hospital bed or worn, the platform can be used for regularly transmitting the sign information and can be connected with the hospital bed or worn, the WIFI communication module 05 is used for establishing a zero-flow medical care voice communication platform, and the video camera management platform 4 and the video camera management platform 11 can be connected with the medical care management terminal.

As shown in fig. 3, the system comprises a server system 101, an intelligent switch 102, a non-roaming AP base station 103, a variation unit 104, and an aesthetic antenna 105. The zero-roaming AP is specially used for processing mobile medical care services such as mobile ward round, nursing and the like. By means of the intelligent distribution unit and the beautified antenna penetrating into the room, the sick area is full of signals at any position. The medical care terminal does not need to generate roaming across the AP any more, and has zero roaming and no packet loss. The special components and parts of high-power, high-gain room branch no longer use, provide green healthy removal for the patient and doctorse and nurses wireless network when wireless network breaks down, can accurate location every wireless branch road fault node, make things convenient for operation and maintenance personnel to resume wireless network fast and only need intelligent branch basic station and intelligent branch unit can accomplish the wireless coverage of whole ward, reduced the deployment construction degree of difficulty. The AP unit applies 1000Mbps bandwidth, can maximally change 16 channels and maximally cover 64 wards; the variation base station can be connected with 4 variation units, the variation units averagely distribute the high-quality wireless signals to 16 expansion channels, and each channel can averagely distribute the signals to the ward.

The circuit structure of the medical communication terminal is shown in fig. 2 and comprises a central processor unit II 201, a touch screen/L CD212, a system power supply circuit 202, a battery 203, a 4G interface circuit 204, a WIFI interface circuit 205, a Flash206, an SDRAM206, a video interface circuit 208, an audio interface circuit 209, a USB interface circuit 210 and an RFID interface circuit 211, the circuit structure of the medical communication terminal integrates an Internet of things AP, Wi-Fi and radio frequency identification technology (RFID), and simultaneously receives and sends information and a wireless AP module, and can work in a wireless frequency band of 5 GHz.

The medical communication terminal camera is connected to the mobile monitoring terminal through WiFi to carry out video shooting and transmission on site, the mobile phone communicates with the mobile monitoring terminal through a telecommunication network, the mobile monitoring terminal receives a data packet sent by a monitor through a Bluetooth module connected to a USB interface, then physiological parameters are extracted and displayed on a screen of the mobile monitoring terminal, the parameters are evaluated, and when abnormal conditions are found, short messages are sent to family members and doctors of a person under guardianship through GPRS to carry out timely treatment, so that the safety of the person under guardianship is ensured.

The health care management platform is shown in fig. 4. The mobile nursing information system application server 301 is responsible for the operation and management of the whole system, and is in butt joint with the patient sign real-time acquisition platform through the zero-flow roaming-free high-density medical information internet, so as to acquire the sign information of all patients in the treatment area in real time, analyze and evaluate the sign information. The mobile workstation 303 accesses the mobile nursing information system application server through the zero-flow roaming-free high-density medical information internet by using the medical communication terminal, uploads medical work data, and realizes remote ward inspection by using the medical communication terminal. The nurse desktop workstation 304 monitors the video information and physical sign state of the patients in the treatment area in real time by accessing the mobile nursing information system application server, and can communicate with the patients to issue the bespoke orders. The mobile care information system application server stores the acquired medical information in a medical database system 305 of the hospital. Meanwhile, the medical data information is uploaded to a medical cloud data center 307, and a personal health record 306 is established. The mobile nursing information system application server is in butt joint with an HIS system of a hospital to realize information communication with clinics, pharmacies and monitoring centers.

FIG. 5 shows: the realization of the health care management platform service flow: the platform function is divided into a mobile workstation and a desktop workstation. The mobile workstation has the functions of real-time observation of the illness state of a patient, comparison of prescription specimens of the patient, execution of medical advice, medical care communication, nursing documents and ward patrol, and can modify, add contents and upgrade services according to the needs of the user. The system comprises a left workstation, a system and a method, wherein the left workstation comprises a life body characteristic input device, a hospitalization expense management device, a notice item publishing device, an electronic medical record editing device, a performance assessment device, a report inquiring device and a medical advice management device, and meanwhile, modification, content addition and service upgrading can be carried out according to the needs of users.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. A non-contact mobile medical care system comprises a patient sign real-time acquisition platform, a health medical care management platform and a medical communication terminal, and is characterized in that the patient sign real-time acquisition platform is transmitted to a server of the health medical care management platform, the medical communication terminal accesses the patient sign real-time acquisition platform, the patient sign real-time acquisition platform comprises a central processing unit (01), a power module (02), a vibration sounding device (03), a data storage unit (04), a WIFI communication module (05), a body temperature detection module (06), a blood pressure pulse detection module (07), an electrocardiogram acquisition module (08), an information display module (09), a Bluetooth module (10) and a video monitoring module (11), an SP2 interface of the central processing unit (01) is connected with an RX/TX central processing unit of a body temperature detection module (06), a USB interface of the central processing unit (01) is connected with a USB interface of a blood pressure detection module (07), an I2C1 interface of the central processing unit (01) is connected with an SC 23/SDA of a USB acquisition module (08), an I2C 865 interface of the central processing unit (1/SDA) of the USB acquisition module (201), a USB interface of the central processing unit (201) is connected with a USB interface L/SDA) of a USB acquisition module (201), a central processing unit (201), a USB interface of a USB interface (201, a USB interface of a central processing unit (201, a USB interface of a central processing unit (201, a USB interface of a central processing unit (201, a central processing unit (201) is connected with a USB interface of a USB interface 1 of a USB interface (201), a USB interface of a USB interface (201), a USB interface of a USB interface (23/D interface (21), a USB interface of a USB interface (201), a USB interface of a USB interface (21), a USB interface of a central processing unit (21), a USB interface of.

2. The system of claim 1, wherein: the medical communication terminal can be of a fixed type.

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