CN109303944A - A kind of transfusion system - Google Patents

Abstract

The present invention provides a kind of transfusion system, and the system comprises at least one intelligent nurse station, at least one mobile phone terminal and servers；Wherein, the intelligent nurse station, the infusion information for detecting are sent to the server or the mobile phone terminal；Wherein, the infusion information includes drop speed；The server, the infusion information sent for receiving the intelligent nurse station, and control instruction is sent to the intelligent nurse station；Wherein, the control instruction includes dripping fast control instruction；The mobile phone terminal, the infusion information sent for receiving the intelligent nurse station or the server.The system not only can reach warning limit automatic alarm in dropping liquid, can also stablize liquid droping speed, become the intelligent assistant of hospital nurse.

Description

Intelligent infusion system

Technical Field

The invention relates to the technical field of medical machinery, in particular to an intelligent infusion system.

Background

At present, when people transfuse in hospitals, people are most worried that after liquid drops do not exist, the liquid drops cannot be found in time, air enters blood vessels, and life is threatened. Therefore, how to find that the dropping liquid reaches the early warning boundary line in time and give an alarm in time in the infusion process is always a very concerned problem for patients and medical care personnel.

Moreover, the improper dropping speed during transfusion can cause serious adverse reaction of patients. Too fast infusion speed can cause cardiac burden, heart failure and pulmonary edema, especially in children and the elderly. Patients with chest trauma, heart failure and pulmonary edema can be life threatening in severe cases; the transfusion speed is too slow, and the blood concentration is lower than the required treatment concentration, so the rescue and treatment effects can not be achieved.

In addition, since many factors affecting the dropping speed of the infusion solution, such as mechanical factors, changes in blood circulation of the patient, concentration, specific gravity and consistency of the drug solution, etc., all affect the change of the dropping speed, it is a necessary and difficult problem to control the stability of the dropping speed.

Disclosure of Invention

In order to solve the not enough among the prior art, this application provides an intelligent transfusion system, and this system not only can reach early warning limit autoalarm at the dropping liquid, can also stabilize dropping liquid speed, becomes hospital nurse's intelligent assistant.

An intelligent transfusion system comprises at least one intelligent nurse station, at least one mobile phone terminal and a server; the intelligent nurse station is used for sending the detected infusion information to the server or the mobile phone terminal; wherein the infusion information comprises a dropping speed; the server is used for receiving the infusion information sent by the intelligent nurse station and sending a control instruction to the intelligent nurse station; wherein the control instruction comprises a dripping speed control instruction; and the mobile phone terminal is used for receiving the infusion information sent by the intelligent nurse station or the server.

In a possible implementation manner, the mobile phone terminal is further configured to send a control instruction to the intelligent nurse station.

In one possible embodiment, the intelligent nurse station is applied to a nurse infusion scene, and comprises an optoelectronic switch, a stepping motor, a microprocessor, a display, a communication unit and an LED lamp; the photoelectric switch, the stepping motor, the display, the communication unit and the LED lamp are respectively connected with the microprocessor; wherein,

the photoelectric switch is used for detecting the dropping speed of the liquid medicine;

the stepping motor is used for increasing or decreasing the dropping speed of the liquid medicine;

the display is used for displaying the dropping speed and the remaining time of the liquid medicine;

the buzzer is used for sounding;

and the microprocessor is used for controlling the photoelectric switch, the stepping motor, the display and the buzzer.

In one possible implementation mode, the intelligent nurse station contacts the server and the mobile phone terminal through the communication unit; the communication unit comprises a wifi module and a Bluetooth module, the intelligent nurse station is communicated with the server through the wifi module, and the intelligent nurse station is communicated with the mobile phone terminal through the Bluetooth module.

In one possible implementation, the microprocessor employs an STM2 chip.

In one possible implementation, the WIFI module adopts an ESP8266WIFI module, and the Bluetooth module adopts an HC-06 Bluetooth module.

In one possible embodiment, the server comprises a receiving unit, a processing unit, a transmitting unit and a display unit; the receiving unit is used for receiving the infusion information sent by the intelligent nurse station; the processing unit sends a control instruction to the intelligent nurse station through the sending unit according to the infusion information; the display unit is used for displaying infusion information.

In one possible implementation, the mobile phone terminal comprises a receiving unit, a processing unit, a sending unit and a display unit; the receiving unit is used for receiving the infusion information sent by the intelligent nurse station or the server; the processing unit sends a control instruction to the intelligent nurse station through the sending unit according to the infusion information; the display unit is used for displaying infusion information.

In one possible embodiment, the infusion information includes the name of the patient, the patient room number, the patient bed number, the name of the drug to be infused, the amount of the drug solution to be used, the time of infusion, the dropping speed and the remaining dropping time.

The system of the invention can not only automatically alarm when the dropping liquid reaches the early warning limit, but also stabilize the dropping speed, thus becoming an intelligent assistant for hospital nurses.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an intelligent infusion system according to an embodiment of the invention;

FIG. 2 is a schematic structural diagram of an intelligent nurse station according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a server in an intelligent infusion system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a mobile phone terminal in an intelligent infusion system according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a principle of an optoelectronic switch according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

An intelligent infusion system comprises at least one intelligent nurse station, at least one mobile phone terminal and a server.

The intelligent nurse station is used for sending the detected infusion information to the server or the mobile phone terminal; wherein the infusion information comprises a dropping speed; the server is used for receiving the infusion information sent by the intelligent nurse station and sending a control instruction to the intelligent nurse station; wherein the control instruction comprises a dripping speed control instruction; and the mobile phone terminal is used for receiving the infusion information sent by the intelligent nurse station or the server.

In one example, the mobile phone terminal is further configured to send a control instruction to the intelligent nurse station.

As shown in fig. 1, the following manner may be adopted in the embodiment of the present invention.

First, S101a, the intelligent nurse station sends infusion information to the server.

And S102, the server sends the infusion information to the mobile phone terminal, wherein the infusion information comprises information of dropping speed.

S103, the mobile phone terminal sends a control instruction to the intelligent nurse station, and the control instruction comprises a dropping speed control instruction.

Second, S101a, the intelligent nurse station sends infusion information to the server, where the infusion information includes information on the dropping speed.

S103b, the server directly sends a control instruction to the intelligent nurse station, wherein the control instruction comprises a drip speed control instruction.

Thirdly, S101b, the intelligent nurse station sends infusion information to the mobile phone terminal, wherein the infusion information comprises information of dropping speed.

S103b, the mobile phone terminal directly sends a control instruction to the intelligent nurse station, wherein the control instruction comprises a dripping speed control instruction.

In the embodiment of the present invention, after the intelligent nurse station detects the dropping speed, the microprocessor MCU in the intelligent nurse station can automatically control the dropping speed according to the PID algorithm, so as to maintain the dropping speed of the liquid medicine within a reasonable range. In addition, the nurse can also manually adjust the dropping speed through the server or the mobile phone terminal.

In one example, as shown in fig. 2, the intelligent nurse station is applied to a nurse infusion scenario, and comprises a photoelectric switch 201, a stepping motor 202, a microprocessor 203, a display 204, a communication unit 205 and an LED lamp 206; the photoelectric switch 201, the stepping motor 202, the display 204, the communication unit 205, and the LED lamp 206 are connected to the microprocessor 203, respectively.

The photoelectric switch 201 is used for detecting the dropping speed of the liquid medicine; the stepping motor 202 is used for increasing or decreasing the dropping speed of the liquid medicine; the display 204 is used for displaying the dropping speed and the remaining time of the liquid medicine; the buzzer 207 is used for sounding; the microprocessor 203 is configured to control the photoelectric switch 201, the stepping motor 202, the display 204, and the buzzer 207.

The photoelectric switch 201 detects the dropping speed of the chemical liquid.

The photoelectric detection method has the advantages of high precision, quick response, non-contact and the like, and the photoelectric detection method has the advantages of more measurable parameters, simple structure of the sensor and flexible and various forms, so that the photoelectric sensor is widely applied to detection and control. The reflecting plate type photoelectric switch is characterized in that a light emitter and a light receiver are arranged in the same device, a reflecting plate is arranged in the front of the reflecting plate, and the photoelectric control function is completed by utilizing the reflection principle, so that the reflecting plate type photoelectric switch is called as a reflecting plate type (or reflecting plate type) photoelectric switch. Under normal conditions, the light source emitted by the light emitter is reflected by the reflecting plate and then received by the light receiver; once the liquid drops block the light path, the photoelectric switch acts to output a switch control signal when the light receiver cannot receive light. The device uses the switch control signal to count the liquid drops passing through the drip chamber (as shown in figure 5).

At this time, the microprocessor calculates the drop rate based on the number of drops that pass through the drip chamber in one minute. The normal dropping speed is 60-80 drops/min.

The stepping motor 202 will be explained below.

The tightness degree of the infusion tube is controlled by the motor and the gear system, so that the aim of controlling the flow speed of liquid drops is achieved, and the scheme is simple and convenient to realize. The microprocessor uses PID control algorithm through the feedback of the photoelectric switch to the dropping speed, and the stepping motor can realize the accurate control of the infusion tube, thereby achieving the purpose of controlling the flow rate of the liquid drops.

The prior infusion tube is provided with a wedge-shaped manual control dripping speed control device, a chute is arranged in the device, and the speed of infusion is controlled by pushing a round roller on the chute. In the dripping speed control of the system, the original control device is reserved for emergency use. The invention uses a stepper to control the dropping speed of the transfusion. The rotation of the motor is utilized, the rotation motion is changed into linear motion by assembling a screw rod, the end head of the screw rod is provided with a sliding block, and the automatic control of the infusion dripping speed is realized by tightly extruding (or loosening) the infusion tube through the sliding block.

In other words, after the photoelectric switch detects the liquid medicine dropping speed, the signal is transmitted to the microprocessor, and the microprocessor controls the step switch to adjust the speed of the liquid medicine dropping; so that the dropping speed of the medicine drops is within a preset range. The preset range may be a conventional dropping rate of the medical fluid or may be preset by a nurse according to the condition of the patient.

When the liquid drops of the medicine drops reach the warning line and the medicine liquid needs to be replaced or the needle needs to be pulled out, the microprocessor controls the buzzer to emit buzzing sound and indicates the quantity of the LED lamps, so that a patient and a nurse are prompted. In addition, the patient can rest at ease without keeping staring at the infusion tube. At this time, the remaining time and the remaining amount required for the completion of the dripping of the liquid droplet are displayed on the intelligent nurse station.

The remaining amount of the liquid drops can be set by a nurse according to own experience, and when the infusion is carried out for a preset time, the microprocessor controls the honey device to generate a buzzer sound to remind the nurse and the patient; the embodiments of the present invention do not discuss this much.

In one example, the intelligent nurse station contacts the server and the mobile phone terminal through the communication unit; the communication unit comprises a wifi module and a Bluetooth module, the intelligent nurse station is communicated with the server through the wifi module, and the intelligent nurse station is communicated with the mobile phone terminal through the Bluetooth module.

In one example, the microprocessor employs an STM2 chip.

In one example, the WIFI module is an ESP8266WIFI module, and the Bluetooth module is an HC-06 Bluetooth module.

In one example, as shown in fig. 3, the server includes a receiving unit 301, a processing unit 302, a transmitting unit 303, and a display unit 304.

The receiving unit 301 is configured to receive infusion information sent by the intelligent nurse station; the processing unit 302 is configured to send a control instruction to the intelligent nurse station through the sending unit 303 according to the infusion information; the display unit 304 is used for displaying infusion information.

In one example, as shown in fig. 4, the mobile phone terminal includes a receiving unit 401, a processing unit 402, a transmitting unit 403, and a display unit 404.

The receiving unit 401 is configured to receive infusion information sent by the intelligent nurse station or the server; the processing unit 402 sends a control instruction to the intelligent nurse station through a sending unit 403 according to the infusion information; the display unit 404 is configured to display infusion information.

In one example, in the embodiment of the present invention, the infusion information includes a name of the patient, a patient room number, a patient bed number, a drug name of the infusion, a dosage of the drug solution, an infusion time, a dropping speed, and a remaining dropping time.

In the embodiment of the present invention, the relevant information that can be stored in the server includes:

1. patient information: including patient name, ward number, sickbed number;

2. transfusion information: comprises the time of infusion, the name of the drug to be infused and the dosage of the drug liquid

3. Alarm information: including alarm type, alarm processing personnel, alarm processing time and alarm processing result.

The interface embodiment information of the application software APP in the mobile phone terminal comprises the following steps:

1. the responsibility nurse can check and call the current state of each intelligent nurse (sickbed) at any time.

2. APP can receive alarm information sent by an intelligent nurse.

3. APP can carry out intelligent nurse function parameter setting.

4. The APP can carry out patient information setting.

5. The APP can look up the transfusion record of the patient.

6. The APP can look up the transfusion alarm record of the patient.

The intelligent nurse station can display information including:

1. the dropping speed was automatically measured.

2. The dropping speed is displayed.

3. The elapsed dropping time and the remaining dropping time are displayed.

4. The number of milliliters of liquid dropped and the remaining milliliters are shown (shown alternating with time).

5. The dropping speed was automatically stabilized within a range (typically 60-80 drops/min).

6. When the dripping speed exceeds the set dripping speed value, the system gives an alarm through the mobile phone.

7. When the residual amount of the liquid in the infusion bottle (bag) reaches a set value, the mobile phone alarms.

8. When the mobile phone gives an alarm, the mobile phone simultaneously pushes out the sickroom, the sickbed, the name of the patient and the alarm type, such as the dropping speed is too fast or too slow or the dropping liquid reaches the early warning amount.

9. The alarm information may be displayed, for example, on a nurse station computer.

10. A nurse-designated ward group can be formed.

11. The patient can call nurse personnel through the emergency button, and the calling information displays the called ward, sickbed and patient name on a nurse mobile phone and a nurse station computer.

In the embodiment of the invention, the intelligent nurse station, the server and the mobile phone terminal all have alarm information, no matter the problem of dripping speed automatically processed by the intelligent nurse station or the problem processed by the nurse through the APP on the server or the mobile phone terminal; after the problem is solved, the alarm information disappears. Those skilled in the art should understand that this is a reasonable flow design and will not be described in detail again.

The system of the invention can not only automatically alarm when the dropping liquid reaches the early warning limit, but also stabilize the dropping speed, thus becoming an intelligent assistant for hospital nurses.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. An intelligent infusion system is characterized by comprising at least one intelligent nurse station, at least one mobile phone terminal and a server; wherein,

the intelligent nurse station is used for sending the detected infusion information to the server or the mobile phone terminal; wherein the infusion information comprises a dropping speed;

the server is used for receiving the infusion information sent by the intelligent nurse station and sending a control instruction to the intelligent nurse station; wherein the control instruction comprises a dripping speed control instruction;

and the mobile phone terminal is used for receiving the infusion information sent by the intelligent nurse station or the server.

2. The intelligent infusion system of claim 1, wherein the cell phone terminal is further configured to send control instructions to the intelligent nurse station.

3. The intelligent infusion system of claim 1, wherein the intelligent nurse station is used in a nurse infusion scenario and comprises an optoelectronic switch, a stepper motor, a microprocessor, a display, a communication unit and LED lights; the photoelectric switch, the stepping motor, the display, the communication unit and the LED lamp are respectively connected with the microprocessor; wherein,

the photoelectric switch is used for detecting the dropping speed of the liquid medicine;

the stepping motor is used for increasing or decreasing the dropping speed of the liquid medicine;

the display is used for displaying the dropping speed and the remaining time of the liquid medicine;

the buzzer is used for sounding;

and the microprocessor is used for controlling the photoelectric switch, the stepping motor, the display and the buzzer.

4. The intelligent infusion system of claim 1, wherein the intelligent nurse station contacts the server, the cell phone terminal through the communication unit; wherein,

the communication unit comprises a wifi module and a Bluetooth module, the intelligent nurse station is communicated with the server through the wifi module, and the intelligent nurse station is communicated with the mobile phone terminal through the Bluetooth module.

5. The intelligent infusion system of claim 3, wherein said microprocessor employs an STM2 chip.

6. The intelligent infusion system of claim 3, wherein the WIFI module is an ESP8266WIFI module, and the Bluetooth module is an HC-06 Bluetooth module.

7. The intelligent infusion system of claim 1, wherein the server comprises a receiving unit, a processing unit, a transmitting unit, and a display unit;

the receiving unit is used for receiving the infusion information sent by the intelligent nurse station;

the processing unit sends a control instruction to the intelligent nurse station through the sending unit according to the infusion information;

the display unit is used for displaying infusion information.

8. The intelligent infusion system of claim 1, wherein the cell phone terminal comprises a receiving unit, a processing unit, a sending unit and a display unit; wherein,

the receiving unit is used for receiving the infusion information sent by the intelligent nurse station or the server;

the processing unit sends a control instruction to the intelligent nurse station through the sending unit according to the infusion information;

the display unit is used for displaying infusion information.

9. The intelligent infusion system of claim 1, wherein the infusion information comprises a name of the patient, a patient room number, a patient bed number, a drug name of the infusion, a dosage of the drug solution, an infusion time, a dropping speed and a remaining dropping time.