CN112053787A

CN112053787A - Medical and nursing combined management platform

Info

Publication number: CN112053787A
Application number: CN202010691168.7A
Authority: CN
Inventors: 陈艳章; 刘德永
Original assignee: Shandong Wohua Health Technology Co Ltd
Current assignee: Shandong Wohua Health Technology Co Ltd
Priority date: 2020-07-17
Filing date: 2020-07-17
Publication date: 2020-12-08

Abstract

The invention relates to the technical field of medical care health, and provides a medical care combined management platform which comprises a server, a household terminal, a medical care end, a child medical care terminal and a plurality of electronic medical devices, wherein the household terminal is used for medical care personnel at the medical care end to provide medical care advice for the old, and children and women at the child medical care terminal are acquainted with the daily life and medical care state of the old; the server is used for establishing interconnection among the household terminal, the child medical care terminal and the medical care terminal through the medical care network framework, controlling the household terminal to be in communication interaction with the child medical care terminal, the household terminal to be in communication interaction with the medical care terminal, and the child medical care terminal to be in communication interaction with the medical care terminal, and controlling the household terminal to be in information interaction with the hospital information platform in the communication interaction process, so that medical and nursing service is provided for family old people, and more and better services are provided for users.

Description

Medical and nursing combined management platform

Technical Field

The invention belongs to the technical field of medical care and health, and particularly relates to a medical care combined management platform.

Background

As a world population, the number of the aged people in the world population is continuously increased in the proportion of the total population, which marks the aging age of China. In addition to the enormous pressure on labor force, economy, society and the like brought by the huge aging population, the most important health and aging problems to be solved urgently become the hot topic most concerned by the society.

The medical treatment comprises medical rehabilitation health care services, specifically medical services, health consultation services, health examination services, disease diagnosis and treatment and nursing services, major disease rehabilitation services and the like; the old-age care comprises life care service, psychology service, cultural activity service and the like. The current mode is that a medical institution and an old-age care institution are mutually independent and form a system, the old-age care hospital is inconvenient to seek medical treatment, the old-age care hospital cannot or is not suitable for old-age care, and once the old suffers from a disease, the old has to frequently go back and forth between the family, the hospital and the old-age care institution, so that treatment is delayed, and the burden of family members is increased. The separation of medical treatment and old age care also causes many sick and old people to regard the hospital as an old age care hospital and become a 'frequent household', so that people who really need to be in hospital can not live in the hospital.

Medical and nursing combination refers to the combination of medical resources and aged care resources, so that the maximum utilization of social resources is realized. However, no effective software and scheme for combining medical services together to provide medical services for the old exists at present.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a medical and nursing combined management platform, aiming at solving the problem that no effective software and scheme for combining medical and nursing together and providing medical and nursing service for the old exists in the prior art.

The technical scheme provided by the invention is as follows: a medical nursing combination management platform comprises a server, a household terminal, a medical nursing end, a child medical nursing terminal and a plurality of electronic medical devices matched with the household terminal, wherein a medical nursing network framework is formed among the server, the household terminal, the child medical nursing terminal and the medical nursing end;

the household terminal is respectively in communication connection with the medical care terminal and the child medical care terminal through a medical care network framework, medical care personnel at the medical care terminal provide medical care suggestions for the old, and child relatives at the child medical care terminal know the daily life and medical care state of the old;

the server is connected with the household terminal, the child medical care terminal and the medical care end for communication, is used for establishing interconnection among the household terminal, the child medical care terminal and the medical care end through the medical care network framework, controlling communication interaction among the household terminal, the child medical care terminal, the household terminal, the medical care end and the medical care end, and controlling information interaction with a hospital information platform in a communication interaction process.

As an improved scheme, the home terminal is an intelligent all-in-one machine, the intelligent all-in-one machine comprises an encapsulation shell and a mainboard arranged in the encapsulation shell, the encapsulation shell is provided with a display screen, a communication interface and a camera which are connected with the mainboard, the mainboard is provided with a control module, a communication module and a Bluetooth module, wherein:

the Bluetooth module is used for establishing communication between the intelligent all-in-one machine and the electronic medical equipment and acquiring various vital sign parameters acquired by the electronic medical equipment, wherein the vital sign parameters comprise blood pressure, blood sugar and pulse frequency;

the communication module is used for establishing communication between the intelligent all-in-one machine and the household terminal and between the intelligent all-in-one machine and the medical terminal for children;

the control module is connected with the Bluetooth module and the communication module and is used for overall controlling the work of the Bluetooth module and the communication module and storing communication data formed in the work process of the Bluetooth module and the communication module;

and the communication interface is used for being connected with a television set top box.

As an improved solution, the bluetooth module includes a bluetooth chip, an XOSC _ Q1 pin and an XOSC _ Q2 pin of the bluetooth chip are respectively connected to two ends of the first crystal oscillator circuit, a P2_4/XOSC32K _ Q1 pin and a P2_3/XOSC32K _ Q2 pin of the bluetooth chip are respectively connected to two ends of the second crystal oscillator circuit, an RF _ P pin and an RF _ N pin of the bluetooth chip are connected to a transmit-receive channel, the transmit-receive channel is connected to a transmit antenna, and an RBIAS pin of the bluetooth chip is connected to a resistor R6 and then grounded.

As an improved scheme, the first crystal oscillator circuit includes a crystal oscillator Y1, a load capacitor C2 and a load capacitor C3, the XOSC _ Q1 pin of the bluetooth chip is respectively connected to one end of the crystal oscillator Y1 and one end of the load capacitor C3, the XOSC _ Q2 pin of the bluetooth chip is respectively connected to the other end of the crystal oscillator Y1 and one end of the load capacitor C2, and the other ends of the load capacitor C2 and the load capacitor C3 are commonly grounded.

As an improved scheme, the second crystal oscillation circuit comprises a crystal oscillator Y2, a load capacitor C20 and a load capacitor C21, pins P2_4/XOSC32K _ Q1 of the bluetooth chip are respectively connected with one end of the crystal oscillator Y2 and one end of the load capacitor C20, pins P2_3/XOSC32K _ Q2 of the bluetooth chip are respectively connected with the other end of the crystal oscillator Y2 and one end of the load capacitor C21, and the other ends of the load capacitor C20 and the load capacitor C21 are commonly grounded.

As an improved scheme, the transmitting and receiving channel includes a capacitor C7, a capacitor C8, a capacitor C9, a capacitor C10, an inductor L1, an inductor L2, an inductor L3, and an inductor L4, an RF _ P pin of the bluetooth chip is connected to the capacitor C8, the capacitor C7, the inductor L3, and the inductor L2 in sequence and then connected to the transmitting antenna, an RF _ N pin of the bluetooth chip is connected to the capacitor C9 and the inductor L4 in sequence and then connected between the capacitor C7 and the inductor L3, the inductor L1 is connected between the capacitor C8 and the capacitor C7 and then connected to the ground, and the capacitor C10 is connected between the inductor L3 and the inductor L2 and then connected to the ground.

As an improved solution, the server includes:

the medical care terminal comprises a first communication module, a second communication module and a third communication module, wherein the first communication module is used for controlling the establishment of communication connection between the medical care terminal and the home terminal when receiving a medical care request of the home terminal or a return visit request of the medical care terminal;

the second communication module is used for controlling the communication connection to be established between the female medical terminal and the medical care terminal when a checking request of the female medical terminal or a consultation request of the medical care terminal is received;

and the vital sign information acquisition module is used for acquiring the vital sign information acquired by the household terminal from the household terminal.

As an improved scheme, the electronic medical equipment comprises an electronic sphygmomanometer, a blood glucose meter and a smart wrist strap device.

As an improved scheme, the intelligent wrist strap device comprises a wristwatch body and a watchband, wherein the watchband is connected with the wristwatch body; an integrated circuit is arranged in the wristwatch body;

the integrated circuit includes:

a plurality of acquisition sensors;

the processing module is connected with the acquisition sensor and is used for processing the acquired signals;

the display module is connected with the processing module and used for displaying the processed signals;

a data transmission module: the acquisition module is connected with the wireless sensor and is used for transmitting the acquired signals;

the wrist belt Bluetooth module is connected with the processing module and used for outputting communication signals;

and the battery module is connected with the acquisition module, the processing module, the display module, the data transmission module and the communication module and used for supplying power to the multifunctional integrated circuit.

In the embodiment of the invention, the medical care combination management platform comprises a server, a household terminal, a medical care end, a child medical care terminal and a plurality of electronic medical equipment matched with the household terminal, wherein a medical care network framework is formed among the server, the household terminal, the child medical care terminal and the medical care end; the household terminal is respectively in communication connection with the medical care terminal and the child medical care terminal through a medical care network framework, medical care personnel at the medical care terminal provide medical care suggestions for the old, and child relatives at the child medical care terminal know the daily life and medical care state of the old; the server is connected with the household terminal, the child medical care terminal and the medical care end for communication, is used for controlling communication interaction between the household terminal and the child medical care terminal, between the household terminal and the medical care end, between the child medical care terminal and the medical care end, and between the household terminal and the child medical care terminal and the medical care end through the medical care network framework, and controls information interaction with a hospital information platform in a communication interaction process, so that medical care and nursing service is provided for family old people, and more and better services are provided for users.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a block diagram of a medical and nursing integrated management platform provided by the present invention;

fig. 2 is a block diagram of a structure of a home terminal provided in the present invention;

FIG. 3 is a circuit diagram of a Bluetooth module provided by the present invention;

FIG. 4 is a block diagram of a communication module according to the present invention;

the system comprises a radio frequency chip 1, a crystal oscillator circuit 2, a first modulation circuit 3, a second modulation circuit 4, a radio frequency switch circuit 5, a first circuit node 6, a second circuit node 7, a third circuit node 8, a fourth circuit node 9, a fifth circuit node 10, a display screen 11, a communication interface 12, a camera 13, a control module 14, a communication module 15, a Bluetooth module 16 and a Bluetooth module 17.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are merely for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Fig. 1 is a block diagram of a medical service combination management platform provided in the present invention, and for convenience of description, only the parts related to the embodiment of the present invention are shown in the diagram.

The medical care combination management platform comprises a server, a household terminal, a medical care end, a child medical care terminal and a plurality of electronic medical devices matched with the household terminal, wherein a medical care network framework is formed among the server, the household terminal, the child medical care terminal and the medical care end;

In this embodiment, as shown in fig. 2, the home terminal is an intelligent all-in-one machine, the intelligent all-in-one machine includes a package housing and a motherboard disposed in the package housing, the package housing is provided with a display screen, a communication interface and a camera connected to the motherboard, the motherboard is provided with a control module, a communication module and a bluetooth module, wherein:

In this embodiment, the camera is used for video connectivity to provide a hardware basis.

As shown in fig. 3, the bluetooth module includes a bluetooth chip, the xocs _ Q1 pin and the xocs _ Q2 pin of the bluetooth chip are respectively connected to two ends of the first crystal oscillator circuit, the P2_ 4/xocs 32K _ Q1 pin and the P2_ 3/xocs 32K _ Q2 pin of the bluetooth chip are respectively connected to two ends of the second crystal oscillator circuit, the RF _ P pin and the RF _ N pin of the bluetooth chip are connected to a transmit-receive channel, the transmit-receive channel is connected to a transmit antenna, and the RBIAS pin of the bluetooth chip is connected to the resistor R6 and then grounded;

the first crystal oscillator circuit comprises a crystal oscillator Y1, a load capacitor C2 and a load capacitor C3, wherein an XOSC _ Q1 pin of the Bluetooth chip is respectively connected with one end of the crystal oscillator Y1 and one end of the load capacitor C3, an XOSC _ Q2 pin of the Bluetooth chip is respectively connected with the other end of the crystal oscillator Y1 and one end of the load capacitor C2, and the other ends of the load capacitor C2 and the load capacitor C3 are grounded together;

the second crystal oscillator circuit comprises a crystal oscillator Y2, a load capacitor C20 and a load capacitor C21, pins P2_4/XOSC32K _ Q1 of the Bluetooth chip are respectively connected with one end of a crystal oscillator Y2 and one end of a load capacitor C20, pins P2_3/XOSC32K _ Q2 of the Bluetooth chip are respectively connected with the other end of a crystal oscillator Y2 and one end of a load capacitor C21, and the other ends of the load capacitor C20 and the load capacitor C21 are grounded together;

the transmitting and receiving channel comprises a capacitor C7, a capacitor C8, a capacitor C9, a capacitor C10, an inductor L1, an inductor L2, an inductor L3 and an inductor L4, an RF _ P pin of the Bluetooth chip is sequentially connected with the capacitor C8, the capacitor C7, the inductor L3 and the inductor L2 and then connected with a transmitting antenna, an RF _ N pin of the Bluetooth chip is sequentially connected with the capacitor C9 and the inductor L4 and then connected between the capacitor C7 and the inductor L3, the capacitor C8 and the capacitor C7 are connected with the inductor L1 and then grounded, and the capacitor C10 is connected between the inductor L3 and the inductor L2 and then grounded;

the DCOUPL pin of the Bluetooth chip is connected with the decoupling capacitor C18 and then grounded, and the capacitor C18 is used for providing stable 1.8V digital voltage for the inside.

The Bluetooth module further comprises a RESET circuit, the RESET circuit comprises a capacitor C1 and a resistor R2, a RESET _ N pin of the Bluetooth chip is respectively connected with one end of a capacitor C1 and one end of a resistor R2, the other end of the capacitor C1 is grounded, and the other end of the resistor R2 is connected with a RESET button. The reset circuit is used to restore the circuit to the initial state.

All AVDD pins and DVDD pins of the Bluetooth chip are grounded after being connected with the power supply filter capacitor. The capacitors C4, C5, C6, C11, C13, C14, C16 and C17 are power filter capacitors, and are used for filtering out alternating current components and smoothing output direct current.

In the embodiment of the invention, the crystal oscillator Y1 has a crystal oscillation of 32.768kHz, and the 32.768kHz crystal oscillator is used in the application requiring extremely low sleep current consumption and accurate wake-up time. The crystal oscillator of the crystal oscillator Y2 is 32 MHz.

The J1, J2, J3 and J4 interfaces are used as model connection interfaces of the modules, and comprise connection power supplies and output control signals.

In this embodiment, the transmission signal is transmitted and received through the transmitting and receiving channel, and the first crystal oscillator

The circuit and the second crystal oscillator circuit control the transmission rate of the Bluetooth to enable the Bluetooth to support various data rates, and the circuit and the second crystal oscillator circuit are matched with a precision resistor R6 to enable the Bluetooth to have excellent receiving sensitivity and have multiple functions of voltage stabilization decoupling, filtering and resetting. The Bluetooth module is composed of a CC2541F256 Bluetooth special chip and a small number of peripheral elements of a TI company, has a simple structure and strong functions, supports various data rates of 250kbps, 500kbps, 1Mbps and 2Mbps, has radio frequency output power of 0dBm, has excellent receiving sensitivity (the sensitivity under 1Mbps can reach-94 dBm), and has a simple structure and saves energy consumption by using a small number of peripheral elements.

As shown in fig. 1, the server includes:

the vital sign information acquisition module is used for acquiring vital sign information acquired by the household terminal from the household terminal;

of course, the server also includes other functions, which are not described in detail herein.

In the embodiment of the invention, the electronic medical equipment comprises an electronic sphygmomanometer, a blood glucose meter and intelligent wrist strap equipment, wherein the electronic sphygmomanometer, the blood glucose meter and the intelligent wrist strap equipment are all provided with Bluetooth modules, and the Bluetooth modules are connected with a household terminal to realize the transmission of collected data.

The intelligent wrist strap equipment comprises a wristwatch body and a watchband, wherein the watchband is connected with the wristwatch body; an integrated circuit is arranged in the wristwatch body;

the integrated circuit includes:

a plurality of acquisition sensors;

In the embodiment of the present invention, the communication module is a data transceiver module, and the following implementation manner is given:

as shown in fig. 4, the communication module includes a radio frequency chip 1, and a crystal oscillator circuit 2, a first modulation circuit 3, a second modulation circuit 4 and a radio frequency switch circuit 5 respectively connected to corresponding pins of the radio frequency chip 1, where the radio frequency switch circuit 5 is connected to an antenna, where:

the crystal oscillator circuit 2 comprises a crystal oscillator, two connection points of the crystal oscillator are respectively connected to corresponding pins of the radio frequency chip 1, a first circuit node 6 and a second circuit node 7 are respectively arranged on a line between the crystal oscillator and the corresponding pins of the radio frequency chip 1, a line led out from the first circuit node 6 is connected with a first capacitor C1 and then grounded, and a line led out from the second circuit node 7 is connected with a second capacitor C2 and then grounded;

the first modulation circuit 3 comprises a first inductor L1 and a second inductor L2 which are connected in series, the other end of the first inductor L1 is connected with a corresponding pin of the radio frequency chip 1, the other end of the second inductor L2 is connected with the radio frequency switch circuit 5, a third circuit node 8 is arranged on a line between the first inductor L1 and the second inductor L2, a fourth circuit node 9 is arranged on a line between the second inductor L2 and the radio frequency switch circuit 5, a line led out from the third circuit node 8 is connected with a third capacitor C3 and then grounded, and a line led out from the fourth circuit node 9 is connected with a fourth capacitor C4 and then grounded;

the second modulation circuit 4 comprises a fifth capacitor C5 connected in series between a corresponding pin of the radio frequency chip 1 and the radio frequency switch circuit 5, a fifth circuit node 10 is arranged on a line between the fifth capacitor C5 and the corresponding pin of the radio frequency chip 1, and a line led out from the fifth circuit node 10 is connected with a third inductor L3 and then grounded.

The rf chip 19 may be a cc1000pwr chip, which is not described herein.

The rf switch circuit 23 may be a PE4259 chip, which is not described herein.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. A medical nursing combination management platform is characterized by comprising a server, a household terminal, a medical nursing end, a child medical nursing terminal and a plurality of electronic medical devices matched with the household terminal, wherein a medical nursing network framework is formed among the server, the household terminal, the child medical nursing terminal and the medical nursing end;

2. The medical care combination management platform of claim 1, wherein the home terminal is an intelligent all-in-one machine, the intelligent all-in-one machine comprises a packaging housing and a main board disposed in the packaging housing, the packaging housing is provided with a display screen, a communication interface and a camera connected with the main board, the main board is provided with a control module, a communication module and a bluetooth module, and wherein:

3. The platform of claim 2, wherein the bluetooth module comprises a bluetooth chip, the XOSC _ Q1 pin and the XOSC _ Q2 pin of the bluetooth chip are respectively connected to two ends of the first crystal oscillator circuit, the P2_4/XOSC32K _ Q1 pin and the P2_3/XOSC32K _ Q2 pin of the bluetooth chip are respectively connected to two ends of the second crystal oscillator circuit, the RF _ P pin and the RF _ N pin of the bluetooth chip are connected to a transmit/receive channel, the transmit/receive channel is connected to a transmit antenna, and the RBIAS pin of the bluetooth chip is connected to a resistor R6 and then to ground.

4. The hospital binding management platform of claim 3, wherein the first crystal oscillator circuit comprises a crystal oscillator Y1, a load capacitor C2 and a load capacitor C3, the XOSC _ Q1 pin of the Bluetooth chip is respectively connected to one end of the crystal oscillator Y1 and one end of the load capacitor C3, the XOSC _ Q2 pin of the Bluetooth chip is respectively connected to the other end of the crystal oscillator Y1 and one end of the load capacitor C2, and the other ends of the load capacitor C2 and the load capacitor C3 are commonly grounded.

5. The hospital binding management platform of claim 4, wherein the second crystal oscillator circuit comprises a crystal oscillator Y2, a load capacitor C20 and a load capacitor C21, pins P2_4/XOSC32K _ Q1 of the Bluetooth chip are respectively connected with one end of the crystal oscillator Y2 and one end of the load capacitor C20, pins P2_3/XOSC32K _ Q2 of the Bluetooth chip are respectively connected with the other end of the crystal oscillator Y2 and one end of the load capacitor C21, and the other ends of the load capacitor C20 and the load capacitor C21 are commonly grounded.

6. The hospital binding management platform according to claim 5, wherein the transmitting and receiving channel comprises a capacitor C7, a capacitor C8, a capacitor C9, a capacitor C10, an inductor L1, an inductor L2, an inductor L3 and an inductor L4, an RF _ P pin of the Bluetooth chip is connected with a transmitting antenna after being sequentially connected with a capacitor C8, a capacitor C7, an inductor L3 and an inductor L2, an RF _ N pin of the Bluetooth chip is connected with a capacitor C9 and an inductor L4 after being sequentially connected with a capacitor C7 and an inductor L3, an inductor L1 is connected between the capacitor C8 and the capacitor C7 and then grounded, and a capacitor C10 is connected between the inductor L3 and the inductor L2 and then grounded.

7. The hospital binding management platform of claim 1, wherein the server comprises:

8. The hospital binding management platform of claim 1, wherein the electronic medical devices comprise electronic blood pressure meters, blood glucose meters, and smart wristband devices.

9. The medical care binding management platform of claim 8, wherein the smart wristband device comprises a wristwatch body and a watchband, the watchband being connected to the wristwatch body; an integrated circuit is arranged in the wristwatch body;

the integrated circuit includes:

a plurality of acquisition sensors;