CN106856500A - A kind of nursing interactive system of inpatient department - Google Patents
A kind of nursing interactive system of inpatient department Download PDFInfo
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- CN106856500A CN106856500A CN201610905864.7A CN201610905864A CN106856500A CN 106856500 A CN106856500 A CN 106856500A CN 201610905864 A CN201610905864 A CN 201610905864A CN 106856500 A CN106856500 A CN 106856500A
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- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
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- A—HUMAN NECESSITIES
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- A61B5/0205—Simultaneously evaluating both cardiovascular conditions and different types of body conditions, e.g. heart and respiratory condition
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- A61B5/14532—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue for measuring glucose, e.g. by tissue impedance measurement
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- A—HUMAN NECESSITIES
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- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/14—Infusion devices, e.g. infusing by gravity; Blood infusion; Accessories therefor
- A61M5/168—Means for controlling media flow to the body or for metering media to the body, e.g. drip meters, counters ; Monitoring media flow to the body
- A61M5/16831—Monitoring, detecting, signalling or eliminating infusion flow anomalies
- A61M5/1684—Monitoring, detecting, signalling or eliminating infusion flow anomalies by detecting the amount of infusate remaining, e.g. signalling end of infusion
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Abstract
The invention provides a kind of nursing interactive system of inpatient department, relay, client and monitoring end are managed collectively by service end, and data storage;Inquire about, transfer customer terminals, and customer in response end demand in relay;And client is corresponding with inpatient department bed, record patient test report and real-time synchronization to service end, it is ensured that the communication of patient and relay;Under the management of service end, according to the specific instruction of relay, to given client end, corresponding patient is guarded, and the survey report of generation is sent to client at monitoring end.By the collaboration at service end, relay, client and monitoring end, realize the monitoring to patient body indices such as body temperature, heart rate, breathing, blood pressure, blood sugar, the transfusion state for needing the patient of transfusion is monitored simultaneously, ensure that nursing quality, staffing is saved simultaneously, medical personnel cure in the very first time that patient needs to patient, realize the intelligent and integrated of medical and nursing work.
Description
Technical Field
The invention belongs to the technical field of medical equipment and systems, and particularly relates to a nursing interaction system for a courtyard.
Background
Medical care work, especially for patients in the living quarters, is very important. Nursing work is closely related to departments such as patients, clinics, medicaments, logistics and the like, correspondingly, nursing information comes from aspects such as patients, nursing staff, treatment processes, scientific research, teaching, management and the like, and the information quantity is very huge. The most important of them is the most direct information closely related to the patient, namely the interaction information of the patient and the nursing staff.
The care interaction is directly related to the health and life of the patient, which puts high requirements on timeliness, accuracy, integrity and reliability of information acquisition. At present, the health condition information of the patient is collected by nursing interaction with the patient in a way that each bed of the hospital is provided with a doctor and a nurse with corresponding responsibility. Although the timeliness of monitoring is realized, on one hand, the requirement on medical staff is higher, and enough staff must be equipped to realize high-quality monitoring, so that the medical investment is increased, and the workload and the burden of medical staff are increased; on the other hand, the analysis of the nursing information and the diagnosis and treatment of the disease condition need further processing and centralized arrangement on the acquired information, which is not beneficial to the timely application of the nursing information and also increases the workload of medical care personnel.
Disclosure of Invention
The technical problem to be solved by the embodiment of the invention is to provide a nursing interactive system for a hospital department, which directly acquires nursing information of a patient through the interactive system, realizes monitoring of the health condition of the inpatient, analyzes the condition of the patient in time, improves the nursing quality and reduces the workload of nursing staff.
According to one aspect of the invention, a care interaction system for a living quarters is provided, comprising: the system comprises a server side, a relay side, a client side and a monitoring side; wherein,
the server side is used for carrying out unified management on the relay side, the client side and the monitoring side and storing data sent by the relay side, the client side and the monitoring side;
the relay terminal is used for managing the client terminal authority, inquiring and calling client terminal data and responding to client terminal requirements;
the client corresponds to the hospital bed of the living institution, is used for recording the patient inspection report, synchronizes to the server and the relay in real time, and is used for the communication between the patient and the relay;
and the monitoring end monitors the patient corresponding to the appointed client under the management of the server end according to the specific instruction of the relay end and sends the generated inspection report to the client.
In the above solution, the server is configured to perform unified management on the relay terminal, the client and the monitoring terminal, and includes:
adding and reducing menus, changing data, sending instructions and notices to the relay end or the client, upgrading the relay end and the client, recording operation events and time of all the relay ends, setting any client to be started to enter a patient ID position, starting or stopping a monitoring end corresponding to any client, and adding or deleting the monitoring end;
and searching and viewing the inspection report and all parameter data of any client, and organizing authorized doctors to perform remote consultation.
In the scheme, the server side sends data to the hospital management subsystem and receives the management of the hospital management subsystem, and all displays are compatible.
In the above scheme, the server records the operation events and time of all the relay terminals, and further includes:
and recording the GPS track record of the relay terminal, and displaying the geographical position of the current online relay terminal by using red dots on a map.
In the above scheme, the relay terminal is worn by a nurse, includes an input/output interface, and communicates with the server terminal and the client terminal in a wireless manner through the operating platform; and displaying images, sounds and monitoring parameters of the client call in real time in the operation process.
In the scheme, the relay terminal is provided with power-off memory, an external power supply is automatically used when the relay terminal is charged, and the relay terminal is automatically stopped and the charger is disconnected when the charging reaches 98%; the input and output interface is a touch screen display with a menu function.
In the scheme, the client corresponds to the corresponding bed of the patient by setting patient basic data corresponding to the machine serial code of the client at the server; the monitoring system is provided with a plurality of monitoring end sockets, and when the monitoring end is accessed through the sockets, the monitoring end monitors the corresponding patient and uploads an inspection report to the client.
In the foregoing solution, the client further includes:
the payment module is used for paying for the used monitoring equipment and operation by the patient;
and the display module is used for displaying images and sounds when the patient calls the relay terminal and parameters when the patient is monitored by the monitoring terminal.
In the above solution, the monitoring terminal includes: the device comprises a blood pressure monitoring module, a heart rate monitoring module, a respiration monitoring module, an infrared pulse monitoring module, a body temperature monitoring module and an infusion state monitoring module; wherein,
the blood pressure monitoring module is used for monitoring the blood pressure of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the heart rate monitoring module is used for monitoring the heart rate of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the breath monitoring module is used for monitoring the breath of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the infrared pulse monitoring module is used for monitoring the pulse of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the body temperature monitoring module is used for monitoring the body temperature of a patient corresponding to a client connected to the monitoring end and synchronizing the body temperature to the client in real time;
the infusion state monitoring module is used for monitoring an infusion apparatus of a patient corresponding to a client connected to the monitoring end, monitoring the infusion apparatus in real time, and reminding the client of the infusion state when the infusion is finished;
the blood sugar monitoring module is used for monitoring the blood sugar condition of a patient corresponding to the client connected to the monitoring end and synchronizing the blood sugar value to the client in real time.
In the above scheme, the monitoring end further comprises a voice prompt module for broadcasting the monitoring parameters and prompting completion of monitoring when monitoring of each module is completed.
According to the technical scheme of the embodiment, the nursing interaction system for the residential department performs unified management on the relay end, the client end and the monitoring end through the server end, and stores data sent by the relay end, the client end and the monitoring end; the relay manages the client authority, inquires and calls client data, and responds to the client requirement; the client side corresponds to the hospital bed of the living institution, records the patient examination report, synchronizes the patient examination report to the server side and the relay side in real time, and ensures the communication between the patient and the relay side; and meanwhile, the monitoring end monitors the patient corresponding to the appointed client under the management of the server end according to the specific instruction of the relay end, and sends the generated inspection report to the client. Through the cooperation of server side, relay end, customer end and guardianship end, realize the control to each item index of patient's health like body temperature, rhythm of the heart, breathing, blood pressure, blood sugar, monitor the infusion state of the patient that needs the infusion simultaneously, guaranteed nursing quality, practiced thrift personnel simultaneously and equipped with, medical personnel heal the patient in the very first time that the patient needs, have realized medical work's intellectuality and integration.
Drawings
FIG. 1 is a schematic diagram of a care interaction system for a courtyard according to an embodiment of the invention.
Detailed Description
In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic diagram of a care interaction system for a courtyard according to an embodiment of the invention. As shown in fig. 1, the care interaction system for a living department of the embodiment includes: the system comprises a server 1, a relay terminal 2, a client 3 and a monitoring terminal 4; wherein,
the server 1 is used for performing unified management on the relay terminal 2, the client terminal 3 and the monitoring terminal 4 and storing data sent by the relay terminal 2, the client terminal 3 and the monitoring terminal 4;
the relay terminal 2 is used for managing the authority of the client terminal 3, inquiring and calling the data of the client terminal 3 and responding to the requirement of the client terminal 3;
the client 3 corresponds to a bed of the department of living, is used for recording a patient inspection report, synchronizing the patient inspection report to the server and the relay in real time, and is used for communicating the patient with the relay 2;
and the monitoring terminal 4 monitors the patient corresponding to the specified client according to the specific instruction of the relay terminal 2 under the management of the server terminal 1, and sends the generated inspection report to the client.
Further, the server 1 is configured to perform unified management on the relay node 2, the client node 3, and the monitoring node 4, and includes:
adding and reducing menus, changing data, sending instructions and notices to the relay end or the client, upgrading the relay end and the client, recording operation events and time of all the relay ends, setting any client to be started to enter a patient ID position, starting or stopping a monitoring end corresponding to any client, and adding or deleting the monitoring end;
and searching and viewing the inspection report and all parameter data of any client, and organizing authorized doctors to perform remote consultation.
In addition, the client 3 may record basic information of the patient by means of a patient ID, name, or the like. Correspondingly, the server can set any client to start up to enter the ID position of the patient, record the operation events and time of all relay terminals, display images and sounds (switchable), pulse, blood pressure, body temperature, heart rate, respiration sensors, fluid deficiency state and the like when all clients call in real time (for example, display can be carried out in a form arrangement mode), and can also prompt ID data results, such as 10 seconds; the server can also change the ID of the relay terminal and the client terminal and can switch the client terminal screen with the appointed ID; each doctor can perform remote consultation by logging in the system according to the authority. The server can stop or start the sensor input device of any client, and can search and check the inspection report of a certain ID and all parameter data under the ID name.
The server 1 may further include an access channel of a Hospital System (HIS), and interacts with data of a Hospital management subsystem (HIS) and a (Win platform) after access; the server is compatible with all displays, is provided with a UPS to prevent abnormal data loss of a power supply, and can also open login management in IE.
The server 1 records operation events and time of all relay terminals, specifically records GPS track records of the relay terminals, and displays the geographical positions of the current online relay terminals by red dots on a map.
The server 1 sets management authorities of leadership, chief and ren, main treatment, nurse officer on duty, nurse and the like for total scheduling. The general authority is at the server, and the operation of changing data, increasing and decreasing menu functions and sending instructions to the client display screen needs to be logged in at the server according to the authority.
Preferably, the service end 1 can be defined as follows: a machine code is a serial number of a relay terminal or a client terminal (used when a server terminal is added and connected with the relay terminal or the client terminal device); ID is name, visiting card, mobile phone number; ZD is used for a server side calling a relay side and used for a relay side calling the relay side; TD is the serial number of the sensor; the data transmission of the relay terminal and the client terminal is automatically prioritized: WAN port, WIFI, GPRS (mobile 4G number card); server side data transfer automatic precedence: WAN port, WIFI.
Preferably, the sensor connecting wire ensures corresponding flexibility, and the enameled wire is selected, so that the flexibility is high, the winding is not easy to break and age, and the service life of the novel material can reach more than 5 years.
Further, the relay terminal 2 is worn by a nurse, includes an input/output interface, and communicates with the server and the client in a wireless manner through the operating platform; and displaying images, sounds and monitoring parameters of the client call in real time in the operation process.
The relay terminal 2 is provided with power-off memory, an external power supply is automatically used when charging is carried out, and the charger is automatically stopped and disconnected when the charging reaches 98%; the input and output interface is a touch screen display with a menu function.
Preferably, the relay terminal 2 is worn by a nurse in the left hand, the program is clipped into an Android platform, communication can be performed through WIFI, Bluetooth, GPS, NFC, GSM/GPRS mobile 4G and the like, and an input and output interface is set, wherein the input and output interface comprises 6 inches (1280x800 pixels) of a touch screen and 4G (512M video memory shared in the memory). ROM 16G, 5000 ma lithium battery; the CPU uses the concurrency technology MTK 8752.
And according to the authorization of the server, the relay terminal 2 can execute the authority of the management client terminal by logging in. The relay terminal can call out personal related data inquiry of the patient according to the ID or name, the ID card, the telephone number and the like, and can send the personal related data inquiry to the printer to print data such as sensor data, notice and the like.
Preferably, the relay terminal 2 logs in according to a password after being started, images and sounds (which can be switched) when the client calls are displayed in real time, ID data such as pulse, blood pressure, fluid shortage, body temperature, heart rate and respiration sensors are prompted for 10 seconds (which can be set), a certain client screen can be switched on and off, data shared among all parameters is real-time, and the phenomenon that data are inconsistent between the upper and lower sides is avoided. The board carries waterproof sign. The server side can inquire the workload 'pedometer' of each relay side by the aid of the vibration sensor.
Specifically, the right side of the repeater 2 can be provided with a charging hole, a long button is used as a power switch, a short button is used as a screen off, and a 4G number card slot can be arranged. The upper right corner of the display screen is provided with a camera, such as an 800 ten thousand pixel camera.
The touch screen display, touch button function keys of the repeater 2 may be set as follows:
1: setting → permission → WIFI setting → input interface stop → volume → display setting → screen saver setting → company of which → hardware information → upgrade prompting → correction of input data deviation of sensor → 4G network → GPS → FM → NFC switch → sensor add and delete → (search, view data parameter under ID currently connected) → selective transmission to printer print → timed audio and video recording → timed stop and start device.
2: sending certain parameter data to the default printer → reporting to the server describing the patient's condition or recording patient specific conditions or detecting events → memo: the message or log suggestion prompts the next shift colleague to be aware of the current incomplete transaction, event or follow-up notes.
3: and stopping starting the sensing equipment under the client ID in the current connection.
4: switch current task → view patient data or test report → memo: and sending and storing some interesting events or abnormal matters in the current shift to the server, so that a server administrator can conveniently count the progress in time as reference data.
5: view notification events under client ID in current connection.
6: and checking a sensor task event and a detection result under the ID of the client in the current connection.
7: switch client → view server instructions and latest instructions.
8: call relay (colleague) → reporting important events or seeking help "group chat function".
9: call service (upper level) → reporting important events or seeking help "group chat function".
0: calling client (patient) "can voice or the client prompt light flash".
Further, the client 3 is corresponding to the corresponding bed of the patient by setting patient basic data corresponding to the client machine serial code at the server; the monitoring system is provided with a plurality of monitoring end sockets, and when the monitoring end is accessed through the sockets, the monitoring end monitors the corresponding patient and uploads an inspection report to the client.
The client 3 further comprises:
the payment module is used for paying for the used monitoring equipment and operation by the patient;
and the display module is used for displaying images and sounds when the patient calls the relay terminal and parameters when the patient is monitored by the monitoring terminal.
Preferably, the client is used in a hospital bed, programs are clamped into an Android platform, communication is carried out through WIFI, Bluetooth, GPS, NFC and GSM/GPRS mobile 4G, and the communication comprises an input and output interface, such as 9.7 inches (1280x800 pixels) of a touch screen, 4G (512M video memory shared in the memory), ROM 16G and 5000 mA lithium batteries. The CPU uses the concurrency technology MTK 8752. The board carries waterproof sign.
Preferably, the payment module comprises a WeChat and Payment code scanning payment function. Still possess NFC read-write function simultaneously, the broadcast is collected to image sound, GPS, 4G network, FM, WIFI, WAN, NFC, USB, earphone, speaker etc. set up control.
Preferably, the data of the client 3 is synchronized to the relay terminal and the server terminal in real time. The client can check the inspection report under the ID, and returns to the main menu after 20 seconds of no operation. And the data such as ID, name and the like corresponding to the machine serial code of each client side are arranged at the server side, and the server side is provided with a GPS module and a waterproof identification.
Preferably, the camera 800 ten thousand pixels of the client 3 (start shooting and recording when pressing the call key and transmit to the server for storage), and the server and the relay can be set to start when in use or manually stop.
Preferably, the client 3 can program the corresponding item and display the item in real time when a certain monitoring device is inserted, and the data parameters collected by the program are simultaneously transmitted to the relay terminal display and the server terminal for storage. Collecting client video and sound may set up to cover the old data on a monthly basis.
Preferably, the client 3 sets the power-off memory. When charging, the external power supply is automatically used. When the charging reaches 98%, the charger is automatically terminated and disconnected. (use fly leg polymer lithium battery + charger).
Preferably, the client 3 display screen may be set as follows:
the right side is provided with: a long-press power switch (a short-press screen), a network cable port, USB1, USB2, USB3 and USB 4;
the left side is provided with: the charging hole, the USB5, the USB6, the round orifice 1, the round orifice 2, the round orifice 3, the round orifice 4 and the round orifice 5;
the right side of the top side is provided with: 4G number card slot;
the upper right corner is provided with: a camera;
the display screen touch button function keys can be set as follows:
1: setting → permission → WIFI setting → input interface stop → volume → display setting → screen saver setting → company of which → hardware information → upgrade prompting → correction of input data deviation of sensor → 4G network → GPS → FM → NFC switch → sensor add and delete → (search, view data parameter under ID currently connected) → selective transmission to printer print → timed audio and video recording → timed stop and start device.
2: stop devices → list sensor devices and stop a single device or stop all devices.
3: switching task → viewing switching to display the online operation data and parameter result of a certain device.
4: notification → manually flip through all notifications for the last few days.
5: view parameter → view all running sensor devices under the ID name.
6: call → call to nurse station management or relay and change of fluid.
Further, the monitoring terminal 4 includes: the blood pressure monitoring module, the heart rate monitoring module, the respiration monitoring module, the infrared pulse monitoring module, the body temperature monitoring module, the transfusion state monitoring module and the blood sugar monitoring module are/is arranged in the blood pressure monitoring module; wherein,
the blood pressure monitoring module is used for monitoring the blood pressure of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the heart rate monitoring module is used for monitoring the heart rate of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the breath monitoring module is used for monitoring the breath of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the infrared pulse monitoring module is used for monitoring the pulse of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the body temperature monitoring module is used for monitoring the body temperature of a patient corresponding to a client connected to the monitoring end and synchronizing the body temperature to the client in real time;
the infusion state monitoring module is used for monitoring an infusion apparatus of a patient corresponding to a client connected to the monitoring end, monitoring the infusion apparatus in real time, and reminding the client of the infusion state when the infusion is finished;
the blood sugar monitoring module is used for monitoring the blood sugar condition of a patient corresponding to the client connected to the monitoring end and synchronizing the blood sugar value to the client in real time.
The monitoring terminal 4 further comprises a voice prompt module for broadcasting monitoring parameters and prompting completion of monitoring when monitoring of each module is completed.
Preferably, the blood pressure monitoring module is realized by a sphygmomanometer, and the specific operation process is as follows:
the cuff of the sphygmomanometer is fixed on the arm, the trachea faces the inner side, and the arm naturally droops. The offset displacement calibration supporting air pipe is connected to the main box to start measurement display, and the program starts to collect data and sends the data to the server for storage.
And finishing voice prompt: after the measurement is finished, the device is required to be put back to the original place and thank you, and meanwhile, the prompt words are displayed on the screen, and if a certain relay end is just connected with the module, the prompt words are also displayed and voice broadcasting is carried out. And the equipment automatically disconnects the sensor after the measurement is finished.
Preferably, the heart rate monitoring module is implemented by a heart rate meter, and the specific operation process is as follows:
two electrodes are attached to two hands or the left and right of the chest, the lead is connected with the main case, and software is started to start measurement. Either heart rate or cycle output mode may be selected. Each heartbeat outputs a real-time heart rate or cycle data that can be used for heart rate variability analysis. The device supports the offset displacement calibration, and a tested person needs to be static, if the action amplitude of the tested person is too large, the contact resistance between the electrode and the skin is changed, and no effective data output is caused.
And finishing voice prompt: after the measurement is finished, the device is required to be put back, thank you (meanwhile, the prompt words are displayed on the screen), and if a certain relay end is just connected with the device, the prompt words and the voice broadcast are also displayed. And the equipment automatically disconnects the sensor after the measurement is finished.
Preferably, the specific operation process of the respiration monitoring module is as follows:
the waistband is put on the fixing ring of the sensor, the sensing surface of the sensor faces to the inner side and is fixed above or below the navel, and the force is moderate. The lead is connected with the main box to start measurement display, and the program starts to collect data and send the data to the server for storage. The sensor output is the relative magnitude of the respiratory waveform (coordinate Y value, coordinate X time). Parameters such as respiratory frequency and respiratory amplitude can be calculated through the wave opening data. Offset shift calibration is supported.
And finishing voice prompt: after the measurement is finished, the device is required to be put back, thank you (meanwhile, the prompt words are displayed on the screen), and if a certain relay end is just connected with the device, the prompt words and the voice broadcast are also displayed. And the equipment automatically disconnects the sensor after the measurement is finished.
The finger clip is clamped on the index finger of the tested person, the lead is connected with the main case to start measurement and display, and the program starts to collect data and send the data to the server for storage.
The waveform amplitude can be adjusted by setting the amplification factor. Supporting offset shift calibration
The strapping sensor cannot be too tight, which may cause overload damage to the sensor.
The sensor output data is amplitude relative quantity (coordinate Y value, coordinate X is time), and the received data is plotted on coordinates to form a waveform diagram.
The infrared light emitted by the sensor can not be seen by naked eyes, and a mobile phone can be used for shooting to see whether the emitting head is lightened or not.
And finishing voice prompt: after the measurement is finished, the device is required to be put back, thank you (meanwhile, the prompt words are displayed on the screen), and if a certain relay end is just connected with the device, the prompt words and the voice broadcast are also displayed.
And the equipment automatically disconnects the sensor after the measurement is finished.
Preferably, the infrared pulse monitoring module is implemented by an infrared pulse sensor, and the specific operation process is as follows:
the blood volume change of the finger tip is detected through infrared rays, a digital signal of pulse waves is output, and the digital signal is connected with a PC (personal computer) or other intelligent terminal products through a USB (universal serial bus) port.
Preferably, the specific operation process of the body temperature monitoring module is as follows:
the body temperature sensor is connected through a USB interface, a professional body temperature measuring thermistor sensitive element and a professional current driving circuit are adopted, and a body temperature value is output through a digital signal. The temperature measuring device has the characteristics of high temperature measuring precision, quick response time and the like. The sensor is suitable for various computer-based real-time body temperature measuring systems. Offset shift calibration is supported.
The body temperature sensor related by the invention has the following main characteristics and technical parameters:
and the USB interface is connected with the main box through a lead to start measurement and display, and the program starts to collect data and sends the data to the server for storage.
Supplying power by a USB;
the online temperature calibration is supported, and the temperature is adjusted up or down by sending a command;
the body temperature measurement range is 25-50 ℃;
the body temperature measurement precision is 0.1 ℃;
a communication baud rate 57600;
the temperature is extracted once in 4 minutes and once in 5 minutes from the measurement, and then the two times are added and divided by 2 to be equal to the output number of the body temperature screen (synchronously transmitted to the server for storage).
Voice prompt after 5 minutes: after the measurement is finished, the device is required to be put back, thank you (meanwhile, the prompt words are displayed on the screen), and if a certain relay end is just connected with the device, the prompt words and the voice broadcast are also displayed. And the equipment automatically disconnects the sensor after the measurement is finished. The voice file can be changed at the server.
Preferably, the specific operation process of the infusion state monitoring module is as follows:
the monitoring is carried out by a non-contact liquid level sensor, an external attachment liquid level sensor or a water level liquid sensor.
The intelligent non-contact liquid level sensor with the PNP signal output can realize the installation of the container in an external pasting mode, and the sensor and the liquid level do not need to be in direct contact with the liquid level and can also detect the state of the liquid level inside the container. The nonmetal container does not need to be provided with a hole, can be directly and closely mounted on the outside, and is simple and convenient to mount; the liquid level detection device can detect the liquid level in a non-contact manner, the detection function of the sensor is not influenced by the acid-base degree of the liquid level, the service life of the sensor is influenced, and the chemical property and the physical property of the liquid are not damaged.
Liquid shortage voice prompt client: when the transfusion is about to be finished, a call key is pressed to remind a nurse, the nurse is thanks (the prompt characters are displayed on the screen for 60 seconds, and the prompt characters can be pressed back to cancel the display), the server receives the prompt at the same time, and displays a list in a screen activity task in a form arrangement mode, if a certain relay terminal is just connected with the device, the prompt characters and voice broadcast are also displayed. The voice announcement file mid or mp3 may be modified at the server.
The non-contact liquid level sensor is suitable for the outer wall of a non-metal container without being in direct contact with liquid, cannot be corroded by corrosive liquid such as strong acid, strong alkali and the like, and cannot be influenced by water scales or other impurities.
The external-pasting type liquid level sensor has the following characteristics:
the installation is pasted outward, and the installation is simple, quick, convenient, and is economical and practical, and the glue can be installed once gluing.
The external mounting does not damage external water quality, is not influenced by acid and alkali, and is not influenced by liquid color.
The external mounting can detect the highest temperature of high-temperature liquid level to 105 ℃, and has strong anti-interference capability
The sensor is mounted externally, the sensing effect is not influenced by sewage and water scale, and the sensor is not required to be cleaned.
Wide voltage input DC5-24V, suitable for various power supplies;
PNP signal, suitable for PLC, relay alarm, etc.,
the pure electronic structure is in a non-mechanical working mode, stable in performance and durable in service life;
the compatibility is strong, and the method is suitable for containers made of various non-metal materials, and can be used for detecting metal containers after treatment, which is described below;
the water signal and the water signal can be switched, and the wiring description is described in detail.
Sensitivity is adjustable, a rear cover of the induction head is opened, a sensitivity knob is adjusted by a small screw driver, sensitivity is increased by anticlockwise rotation, and sensitivity is decreased by clockwise rotation.
The water level liquid sensor has the following characteristics:
dynamic viscosity <10 mPaS. 10mPaS < kinetic viscosity <30mPaS may influence the detection. Kinematic viscosity >30mPaS cannot be measured due to the large amount of liquid adhering to the container walls.
Note: most highly viscous liquids are more significantly affected by temperature as the viscosity decreases with increasing temperature, so the effect of liquid temperature is noted when measuring liquids with viscosity.
The intelligent liquid level reference adjustment and liquid level memory function and the liquid level state display mode can realize multi-point series connection; the device can support NPN or PNP output, high and low level output, RS232 and RS485 data signal output, and can detect the boiling water level accurately and stably. The pure electronic circuit structure is in a non-mechanical working mode, stable in performance and durable in service life. The power adapter has the advantages of high stability, high sensitivity, strong interference resistance, no external electromagnetic interference, and special treatment for power frequency interference and common mode interference, and is compatible with all 5-24V power adapters on the market. The high compatibility is realized, the induction distance can reach more than 10mm when the induction coil penetrates through various containers made of nonmetal materials, such as plastic, glass, ceramic and the like; liquid, powder and particles can be detected. The open collector output mode has wide voltage range (5V-12V or 12V-24V).
Preferably, the blood glucose monitoring module is realized by a blood glucose sensor or a blood glucose meter, and in the specific operation process, the blood sampling needs to be performed as follows:
the fingers can only be disinfected by alcohol or clear water; after cleaning the hands, the fingers must be completely dried to collect blood; after the fingers are disinfected by alcohol, the alcohol must be completely volatilized to be dried, and then blood can be collected; after the blood of the finger is collected by the blood collecting pen, the blood sample can be gently pushed out from the root of the finger to the tip of the finger from bottom to top; the test paper can only lightly touch the blood sample to suck blood.
Meanwhile, the monitoring time needs to be strictly concerned, and particularly, the blood sugar needs to be measured at different times, such as before and after a meal; the blood sugar monitoring time is determined according to the blood sugar control condition; determining blood glucose monitoring frequency according to the blood glucose control condition; monitoring of blood glucose 2 hours after a meal is not negligible.
In summary, the nursing interaction system for the living department provided by the invention realizes the coordination of the server, the relay, the client and the monitoring end to realize the aim of various indexes of the body of the patient, such as body temperature, heart rate and respiration.
Claims (10)
1. A care interaction system for a living quarters, the system comprising: the system comprises a server side, a relay side, a client side and a monitoring side; wherein,
the server side is used for carrying out unified management on the relay side, the client side and the monitoring side and storing data sent by the relay side, the client side and the monitoring side;
the relay terminal is used for managing the client terminal authority, inquiring and calling client terminal data and responding to client terminal requirements;
the client corresponds to the hospital bed of the living institution, is used for recording the patient inspection report, synchronizes to the server and the relay in real time, and is used for the communication between the patient and the relay;
and the monitoring end monitors the patient corresponding to the appointed client under the management of the server end according to the specific instruction of the relay end and sends the generated inspection report to the client.
2. The nursing interactive system of claim 1, wherein the server is configured to perform unified management on the relay, the client and the monitoring end, and comprises:
adding and reducing menus, changing data, sending instructions and notices to the relay end or the client, upgrading the relay end and the client, recording operation events and time of all the relay ends, setting any client to be started to enter a patient ID position, starting or stopping a monitoring end corresponding to any client, and adding or deleting the monitoring end;
and searching and viewing the inspection report and all parameter data of any client, and organizing authorized doctors to perform remote consultation.
3. The nursing interaction system of claim 1 or 2, wherein the server sends data to and receives management from the hospital management subsystem, all displays being compatible.
4. The care interaction system of claim 2, wherein the server records the operational events and times of all relays, further comprising:
and recording the GPS track record of the relay terminal, and displaying the geographical position of the current online relay terminal by using red dots on a map.
5. The nursing interaction system of claim 1, wherein the relay terminal is worn by a nurse and comprises an input/output interface for communicating with the server terminal and the client terminal in a wireless manner through the operating platform; and displaying images, sounds and monitoring parameters of the client call in real time in the operation process.
6. The nursing interaction system of claim 5, wherein the relay terminal is provided with a power-off memory, an external power supply is automatically used when charging, and the charger is automatically stopped and disconnected when the charging reaches 98%; the input and output interface is a touch screen display with a menu function.
7. The care interaction system of claim 1, wherein the client corresponds to the patient's corresponding bed by setting patient profile data corresponding to the client machine string code at the server; the monitoring system is provided with a plurality of monitoring end sockets, and when the monitoring end is accessed through the sockets, the monitoring end monitors the corresponding patient and uploads an inspection report to the client.
8. The care interaction system of claim 7, wherein the client further comprises:
the payment module is used for paying for the used monitoring equipment and operation by the patient;
and the display module is used for displaying images and sounds when the patient calls the relay terminal and parameters when the patient is monitored by the monitoring terminal.
9. The care interaction system of claim 1, wherein the monitoring end comprises: the blood pressure monitoring module, the heart rate monitoring module, the respiration monitoring module, the infrared pulse monitoring module, the body temperature monitoring module, the transfusion state monitoring module and the blood sugar monitoring module are/is arranged in the blood pressure monitoring module; wherein,
the blood pressure monitoring module is used for monitoring the blood pressure of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the heart rate monitoring module is used for monitoring the heart rate of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the breath monitoring module is used for monitoring the breath of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the infrared pulse monitoring module is used for monitoring the pulse of a patient corresponding to a client accessed to the monitoring end, generating a test report and synchronizing the test report to the client;
the body temperature monitoring module is used for monitoring the body temperature of a patient corresponding to a client connected to the monitoring end and synchronizing the body temperature to the client in real time;
the infusion state monitoring module is used for monitoring an infusion apparatus of a patient corresponding to a client connected to the monitoring end, monitoring the infusion apparatus in real time, and reminding the client of the infusion state when the infusion is finished;
the blood sugar monitoring module is used for monitoring the blood sugar condition of a patient corresponding to the client connected to the monitoring end and synchronizing the blood sugar value to the client in real time.
10. A nursing interaction system according to claim 9, wherein the monitoring end further comprises a voice prompt module for broadcasting monitoring parameters and prompting completion of monitoring when monitoring of each module is completed.
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