CN110559506A - 5G intelligent infusion apparatus monitoring control system - Google Patents

Abstract

The invention provides a 5G intelligent infusion set monitoring and control system, including an infusion set monitoring and control instrument and a host computer, and the infusion set monitoring and control instrument is connected to the host computer through a 5G transceiver module signal; the host computer It has a receiving module for receiving control instructions, and the infusion set monitoring and control instrument has an information acquisition device for obtaining the status information of the infusion set in real time; the infusion set monitoring and control instrument also includes The information controls the control module of the infusion device; and the monitoring and control instrument of the infusion device transmits the status information to the host computer, and the host computer receives, stores, processes and displays the status information information, so as to remotely monitor the infusion set and facilitate the later calling of the status information. The invention realizes the intelligent management of the transfusion, can not only reduce the work intensity of the medical personnel, but also solve the nursing burden of the patients and their family members during the transfusion process.

Description

A 5G intelligent infusion device monitoring and control system

technical field

The invention relates to daily necessities for human beings, in particular to medical equipment, especially a 5G intelligent infusion set monitoring and control system.

Background technique

During the infusion in the hospital, it is necessary to monitor the infusion, including timely checking whether the medicine in the medicine bottle has been dripped out and whether the dripping speed is appropriate, etc. However, manual monitoring is not only time-consuming and laborious, but also easy to forget or neglect, which makes the nursing burden of patients or family members larger.

For this reason, an intelligent infusion monitoring system has appeared on the market to monitor the infusion process. Most of the existing infusion monitoring systems use the method of monitoring the weight of the infusion bag. When it is judged that the medicine liquid in the medicine bottle is dripped out, an audible and visual alarm is issued. However, the infusion monitoring intelligent system has a single function, and cannot obtain infusion status information in real time, nor can it be operated remotely, so that the work intensity of medical staff is still very high.

The above-mentioned existing infusion monitoring intelligent system has the following problems: due to the single function of the infusion monitoring intelligent system, the infusion status information cannot be obtained in real time, nor can it be operated remotely, so that the work intensity of the medical staff is still very high.

Contents of the invention

The present invention provides a 5G intelligent infusion device monitoring and control system, which is used to solve the problem that the infusion monitoring intelligent system in the prior art cannot obtain the infusion status information in real time, nor can it be operated remotely, so that the work intensity of the medical staff is still very high. question.

In order to solve the above technical problems, the technical solution of the present invention provides a 5G intelligent infusion set monitoring and control system, the system includes an infusion set monitoring and control instrument at the front end and a host computer at the back end, and the infusion set monitoring and control system The instrument is connected to the host computer through a 5G transceiver module signal;

The host computer has a receiving module for receiving control instructions, and the infusion set monitoring and control instrument has an information acquisition device for obtaining the status information of the infusion set in real time, so as to monitor the infusion set; the infusion set monitoring and control instrument is also It includes a control module that controls the infusion set based on the control instruction and the state information, so as to realize the automatic control and remote operation of the infusion set; The status information is sent to the host computer, and the host computer receives, stores, processes and displays the status information, so as to remotely monitor the infusion set and facilitate later calling of the status information.

Further, the infusion set includes a main infusion tube and medicine bottles, several medicine bottles are connected in parallel with the front section of the main infusion tube through the sub-infusion tubes, and a dripping pot is arranged on the rear section of the main infusion tube.

Further, the host computer includes a signal-connected controller and a server, and the receiving module includes a first input port for inputting patient information and a second input port for inputting detection controller information, and the Patient information includes said control instructions.

Further, the control module includes a central processing unit, and the central processing unit is signal-connected to the server through the 5G transceiver module.

The control module also includes an on-off valve and a flow control valve, the on-off valves are respectively arranged on the distribution infusion pipe, the flow control valve is on the main infusion pipe, and the on-off valve Both the flow control valve and the central processing unit are signal-connected; the central processing unit controls the opening and closing of the on-off valve and the opening, closing and flow rate of the flow control valve.

Further, the control instructions include the infusion sequence between each medicine bottle and the set flow rate of each medicine bottle, and the host computer sends the injection sequence and the set flow rate to the central processing unit. The central processing unit sequentially opens the switch valves corresponding to each medicine bottle according to the infusion sequence, and adjusts the flow rate of the flow control valve according to the set flow rate.

Further, the information acquisition device includes a liquid sensor for real-time detection of whether there is liquid medicine flowing in the main infusion tube, and the liquid sensor is connected to the central processing unit in signal; the liquid sensor will The information about whether there is medicinal liquid in the main infusion tube is sent to the central processing unit;

The central processing unit has an acquisition module for obtaining the start time, end time and elapsed time of the infusion according to the information of whether there is medicinal liquid in the total infusion tube; The end time and the elapsed time are sent to the host computer, and the server synchronously stores the start time, the end time and the elapsed time.

Further, the information acquisition device also includes a flow sensor for real-time monitoring of the flow rate of the liquid medicine in the total infusion tube, the flow sensor is located outside the drip pot, and the flow sensor is connected to the central The flow sensor transmits the obtained liquid medicine flow to the central processing unit; the central processor transmits the liquid medicine flow to the upper computer, and the server stores the medicine liquid flow liquid flow data;

The central processing unit has a first comparison module that compares the flow rate of the medicinal liquid with the set flow rate, and when the flow rate of the medicinal liquid is greater than or smaller than the set flow rate, the The central processing unit controls the flow control valve to close, and drives the first alarm and the second alarm to alarm synchronously.

Further, the information acquisition device also includes a liquid level sensor for real-time monitoring of the liquid level in the drip pot, and the liquid level sensor is located outside the drip pot, and the liquid level sensor It is connected with the central processing unit; the liquid level sensor transmits the obtained liquid level of the medicinal liquid to the central processing unit, and the central processing unit monitors the infusion process according to the liquid level of the medicinal liquid; the The central processing unit transmits the liquid level of the liquid medicine to the upper computer, and the server stores the level data of the liquid medicine;

The patient information includes a preset set liquid level, and the central processing unit has a second comparison module that compares the liquid medicine liquid level with the set liquid level. When the liquid level is higher or lower than the set liquid level, the central processing unit controls the flow control valve to close, and drives the first alarm and the second alarm to alarm synchronously.

Further, the infusion set monitoring and control instrument also includes a first display, and the first display is connected to the central processing unit for signals, and the host computer also includes a second display, and the second display Connected with the server, both the first display and the second display synchronously display the elapsed time, the flow rate of the medicinal solution, and the liquid level of the medicinal solution.

Further, the monitor and control instrument of the infusion set is provided with two card slots that can be respectively clamped on the main infusion tube at the inlet end and the outlet end of the dripping pot.

A 5G intelligent infusion device monitoring and control system according to the present invention obtains the status information of the infusion device in real time by setting an information acquisition device, thereby monitoring the infusion device; receiving remote control instructions by setting a receiving module, and by setting The control module controls the infusion set based on the control instruction and the status information, thereby realizing remote operation and automatic control of the infusion set; the host computer receives, stores, processes and displays the infusion set Status information, so that the infusion set can be monitored remotely and the status information can be called later.

Specifically, the liquid sensor, the flow sensor and the liquid level sensor described in the present invention all adopt known technical solutions in the prior art. For example, the signal terminals of liquid sensors, flow sensors, and liquid level sensors using photoelectric or capacitive sensors communicate with the input and output circuits connected to the central processing unit, and the central processing unit judges whether the liquid exists and the position of the liquid level through the change of the photoelectric signal. and the number of droplets. Since those skilled in the art are already familiar with the above-mentioned solutions, details will not be repeated here.

In the 5G intelligent infusion set monitoring and control system described in the present invention, when the dressing needs to be changed, the infusion is completed, or the infusion is abnormal, both the infusion set monitoring and control instrument and the upper computer will have prompt alarms, which realizes effective monitoring of the infusion process; can be automatically closed Or open the main infusion tube and can change the bottle automatically, which reduces the nursing pressure of patients and the workload of medical staff. At the same time, both the infusion set monitoring controller and the host computer can display the status information of the infusion set, and the infusion set can be monitored remotely, and the relevant data of the infusion process can be saved on the host computer, which is convenient for later query . Moreover, the medical staff can trigger the infusion set monitoring and control instrument through the controller to realize remote operation of the infusion set, for example, remotely adjust the infusion flow, etc., which effectively reduces the work intensity of the medical staff.

Specifically, the on-site medical staff can also adjust the flow through the 5G intelligent infusion device monitoring and control system according to the actual situation, and upload the adjusted data to the host computer for record keeping. It is also possible to remotely adjust the flow rate through the upper computer software of the 5G intelligent infusion set monitoring and control system, and all changes that occur during operation will be recorded and saved.

A 5G intelligent infusion device monitoring and control system described in the present invention realizes the intelligent management of infusion, which can not only reduce the work intensity of medical staff, but also solve the nursing burden of patients and their families during the infusion process. Effective means of nursing management level. The present invention is applicable to outpatient infusion room and inpatient ward infusion monitoring and control of hospital, ward of medical care center and other places requiring infusion, especially suitable for children and unaccompanied infusion patients.

To sum up, the 5G intelligent infusion device monitoring and control system described in the present invention overcomes the infusion monitoring intelligent system in the prior art because the infusion status information cannot be obtained in real time, nor can it be operated remotely, so that the work intensity of the medical staff is still very high. technical issues. It realizes the intelligent management of infusion, which can not only reduce the work intensity of medical staff, but also solve the nursing burden of patients and their families during the infusion process.

Description of drawings

Fig. 1 is a schematic structural diagram of an infusion set monitoring and control instrument of a 5G intelligent infusion set monitoring and control system provided in this embodiment;

Fig. 2 is a schematic structural diagram of a host computer of a 5G intelligent infusion set monitoring and control system provided in this embodiment;

Fig. 3 is a schematic diagram of the display content of the first display of a 5G intelligent infusion set monitoring and control system provided in this embodiment;

Reference signs: liquid sensor 1, flow sensor 2, liquid level sensor 3, 5G transceiver module 4, flow control valve 5, first display 6, first alarm 7, call function button 8, central processing unit 9, switch valve 10, 11, 12, 13, 14, server 16, second display 17, controller 18, first input port 19, second input port 20, tee 21, drip pot 22, medicine drop 23, liquid surface 24, Total infusion tube 25.

Detailed ways

An embodiment of the present application provides a monitoring and control system for a 5G intelligent infusion set. The system includes an infusion set monitoring controller at the front end and a host computer at the back end, and the infusion set monitoring controller and the host computer are connected to each other through a 5G transceiver module 4;

The host computer has a receiving module for receiving control instructions, and the infusion set monitoring and control instrument has an information acquisition device for obtaining the status information of the infusion set in real time, so as to monitor the infusion set; the infusion set monitoring and control instrument is also It includes a control module that controls the infusion set based on the control instruction and the state information, so as to realize the automatic control and remote operation of the infusion set; The status information is sent to the host computer, and the host computer receives, stores, processes and displays the status information, so as to remotely monitor the infusion set and facilitate later calling of the status information.

Described infusion set comprises total transfusion tube 25 and medicine bottle, and several medicine bottles are communicated in parallel with the front section of total transfusion tube 25 respectively through sub-transfusion tube, and the rear section of described total transfusion tube 25 is provided with drip pot 22.

Fig. 2 is a schematic structural diagram of a host computer of a 5G intelligent infusion set monitoring and control system provided in this embodiment. As shown in Fig. The module includes a first input port 19 for inputting patient information and a second input port 20 for inputting information of a detection controller, and the patient information includes the control instructions.

Fig. 3 is a schematic diagram of the display content of the first display of a 5G intelligent infusion set monitoring and control system provided in this embodiment. As shown in Fig. 1, the control module includes a central processing unit 9, and the central processing unit 9 Connected to the server 16 through the 5G transceiver module 4;

The control module also includes on-off valves 10, 11, 12, 13, 14 and a flow control valve 5, and the on-off valves 10, 11, 12, 13, 14 are respectively arranged on the distribution pipes, and the The flow control valve 5 is arranged on the main infusion pipe 25, and the on-off valves 10, 11, 12, 13, 14 and the flow control valve 5 are all connected to the central processing unit 9 with signals; The central processing unit 9 controls the opening and closing of the on-off valves 10, 11, 12, 13, 14 and the opening, closing and flow rate of the flow control valve 5.

The control instructions include the infusion sequence between each medicine bottle and the set flow rate of each medicine bottle, and the host computer sends the injection sequence and the set flow rate to the central processing unit 9, The central processing unit 9 sequentially opens the on-off valves 10, 11, 12, 13, and 14 corresponding to the medicine bottles according to the infusion sequence, and adjusts the flow rate of the flow control valve 5 according to the set flow rate. size.

Further, the information acquisition device includes a liquid sensor 1 for detecting in real time whether there is liquid medicine flowing in the main infusion tube 25, and the liquid sensor 1 is connected to the central processing unit 9 in signal; The above-mentioned liquid sensor 1 sends the information of whether there is medicinal liquid in the main infusion tube 25 to the central processing unit 9;

Described central processing unit 9 has the acquisition module that obtains the start time, end time and elapsed time of the infusion according to the information of whether there is medicinal liquid in the said total infusion tube 25; The start time, the end time and the elapsed time are sent to the host computer, and the server 16 synchronously stores the start time, the end time and the elapsed time.

Specifically, after the system described in this embodiment is turned on, the moment when the liquid sensor 1 detects that there is medicinal liquid in the main infusion tube 25 is the start time, and subsequently, when the liquid sensor 1 detects The moment when there is no medicinal solution in the total infusion tube 25 is the end time of the bottle of medicinal solution, and the time counted from the start time is the elapsed time of the bottle of medicinal solution.

Further, the information acquisition device also includes a flow sensor 2 for real-time monitoring of the flow rate of the liquid medicine in the main infusion tube 25, the flow sensor 2 is located outside the drip pot 22, and the flow rate The sensor 2 is located at the inlet end of the drip pot 22, the flow sensor 2 is connected to the central processing unit 9, and the flow sensor 2 delivers the obtained liquid medicine flow to the central processing unit 9; The central processing unit 9 transmits the liquid medicine flow rate to the host computer, and the server stores the liquid medicine flow data;

The central processing unit 9 has a first comparison module that compares the flow rate of the medicinal liquid with the set flow rate, and when the flow rate of the medicinal liquid is greater or smaller than the set flow rate, the The central processing unit 9 controls the flow control valve 5 to close, and drives the first alarm 7 and the second alarm to alarm synchronously.

Further, the information acquisition device also includes a liquid level sensor 3 for real-time monitoring of the liquid level in the dripping pot, and the liquid level sensor 3 is located outside the dripping pot, and the liquid level sensor 3 is located outside the dripping pot. The level sensor 3 is connected to the central processing unit 9; the liquid level sensor 3 transmits the liquid level obtained to the central processing unit 9, and the central processing unit 9 according to the liquid level of the medicinal liquid level monitoring infusion process; the central processing unit transmits the liquid level of the liquid medicine to the host computer, and the server 16 stores the liquid level data of the liquid medicine.

The patient information includes a preset set liquid level, and the central processing unit 9 has a second comparison module that compares the liquid medicine liquid level with the set liquid level. When the liquid level is greater than or less than the set liquid level, the central processing unit 9 controls the flow control valve 5 to close, and drives the first alarm 7 to synchronize with the second alarm Call the police.

The infusion set monitoring and control instrument also includes a first display 6, and the first display 6 is connected to the central processing unit 9 with signals, and the upper computer also includes a second display 17, and the second The display 17 is connected to the server 16, and the first display 6 and the second display 17 synchronously display the elapsed time, the flow rate of the medicinal solution, and the liquid level of the medicinal solution. .

Specifically, the second display 17 is a large display screen.

Concretely, each described medicine bottle is numbered in order, and described patient information also includes bed/seat number, name, age, medicine bottle quantity, current medicine bottle number, and described central processing unit 9 also has clock, The bed/seat number, name, age, medicine bottle quantity, current medicine bottle number and current time information are displayed on the first display, as shown in FIG. 3 .

The monitor and control instrument of the infusion set is provided with two slots that can be respectively clamped on the main infusion tube 25 at the inlet end and the outlet end of the drip pot 22 .

Further, the first alarm 7 is a colored indicator light, and the colored indicator light is connected to the central processing unit 9 .

Further, the second alarm is a symbol prompt screen jump and voice prompt on the second display 17 .

Further, the monitoring and control instrument also includes a call function button 8, and the call function button 8 is connected to the central processing unit 9, and the symbol of the call function button 8 is provided on the second display Prompts and voice prompts.

Specifically, when the patient presses the call function button 8, the central processing unit 9 triggers the second display 17 through the 5G transceiver module 4 and the server 16, and the second The corresponding symbol prompts on the display will dance and the voice prompt will be played.

Specifically, if the following abnormal situations occur: (1) The needle falls off, and the flow rate of the drug solution exceeds the set flow rate; (2) The infusion needle falls out of the skin outside the patient’s vein, and the flow rate of the drug solution exceeds the set flow rate; (3) The liquid level of the tube is lower than the set liquid level or the liquid medicine is infused; (4) When the liquid medicine in the dropper stops flowing, the flow rate of the liquid medicine is lower than the set flow rate; (5) The dropper is tilted or other abnormalities, and the liquid level of the dropper is low to set the liquid level.

After the central processing unit 9 recognizes the above abnormality, it will control the flow control valve 5 to close. The color indicator light emits a light prompt, and at the same time, the 5G transceiver module 4 sends abnormal state data to the host computer, and the host computer records and saves the abnormal data of the corresponding time after receiving the data, and at the same time, the second display jumps the corresponding symbol to prompt and Play the voice prompt, after the medical personnel solve the problem, press the call function button 8, and the system returns to normal.

Specifically, the second display 17 is provided with a plurality of symbol prompts, for example, a square indicates the end of the infusion, a circle indicates an abnormal alarm, a triangle indicates a drum needle, a five-pointed star indicates a call, and a rhombus indicates that a needle is removed. When the above call function button 8 is pressed, the five-pointed star will jump, and when the central processing unit judges that the transfusion ends, the square will jump.

Specifically, when there are multiple bottles of medicine bottles that need infusion, a 5G intelligent infusion device monitoring and control system described in this embodiment can automatically change bottles, and can adjust the infusion flow rate according to the set flow rate that has been set. At the end, the central processing unit 9 controls the flow regulating valve 5 to close, thereby preventing air from entering the blood vessel, thereby saving time and labor during the infusion process, and greatly reducing the labor intensity of medical staff.

Further, the controller 18 is a computer.

Further, the 5G transceiver module 4 is set on the infusion detection controller.

The medical staff configures the liquid medicine, and enters the patient's bed/seat number, name, age, number of medicine bottles and other related patient information, medicine information, dispensing doctor and injection doctor information into the controller 18 through the first input port 19, And through the first input port 19, enter the infusion sequence of the input medicine bottle and set the flow rate; through the second input port 20, input the information of the infusion set monitoring and control instrument (including the number of the infusion set monitoring and control instrument, etc.); After the infusion needle is inserted into the patient's vein and fixed, the infusion set monitoring controller is stuck on the main infusion tube 25 above and below the drip pot 22, press the call function button 8, and open the adjustment clamp on the infusion set to the maximum; infusion The device monitoring and control instrument will automatically adjust the size of the flow regulating valve 5 according to the set flow rate, and send information such as the start time to the controller through the 5G module, and the controller starts to record and save the information.

The infusion device monitoring and control instrument described in this embodiment can independently realize the adjustment of the flow rate and feed it back to the controller, and can realize the reminder of changing the dressing and can change the dressing automatically; there are prompts and alarms for the end of the infusion and abnormality of the infusion, and can automatically close or open the infusion The tube realizes the effective monitoring of the infusion process and reduces the monitoring burden of patients or family members.

The second display 17 described in this embodiment can display in real time the current infusion status, the remaining amount of infusion, online real-time control of the flow of infusion and the real-time feedback record of infusion flow data, alarm at the end of infusion, reminder when changing the infusion, and infusion Alarm in case of abnormality, alarm for needle removal, remote adjustment of infusion flow, record of total infusion volume, flow rate record of infusion per minute, and automatic adjustment of corresponding flow rate according to infusion requirements after changing medicines in multiple infusion bottles; and record each bottle of medicine The start time and end time of the infusion of the bottle, the abnormal situation during the infusion process of each bottle, the problem solving results called by the patient during the infusion, and the records of adverse physical reactions. Simultaneously record the corresponding seat number or the corresponding patient ward and bed during the infusion of the patient, and record the dispensing medical personnel and infusion medical personnel during the injection. And save all the data in real time through the controller to remotely monitor the infusion set and call the status information later, because the above data are uploaded to the controller in real time for storage, if the infusion set monitoring controller is fed And the faulty controller system will remind the medical staff to replace it. The medical staff only need to read in the new infusion monitor and controller information in the corresponding patient information on the controller system to continue to use, and all the previous information will not be lost.

In addition, all corresponding interfaces of abnormal patients such as prompts, alarms, calls, and failures of the infusion set monitoring and control instrument will jump to the second display and send out corresponding voice reminders. The controller system also organizes and automatically organizes the corresponding records and reports for the medical staff. The controller system also supports multiple medical staff to operate the system at the same time, which fully improves the efficiency of the medical staff's infusion work.

To sum up, when the 5G intelligent infusion set monitoring and control system described in this embodiment needs to change the dressing, the end of the infusion, or the infusion is abnormal, both the infusion set monitoring and control instrument and the host computer will have prompts and alarms, which realizes the effective monitoring of the infusion process can automatically close or open the infusion main pipe and can automatically change the bottle, reducing the patient's nursing pressure and the workload of the medical staff; meanwhile, both the infusion set monitoring and control instrument and the upper computer can display the infusion set status information to remotely monitor the infusion set, and the upper computer can save relevant data of the infusion process for later query. Moreover, the medical personnel can trigger the monitoring and control instrument of the infusion set through the controller to realize remote operation on the infusion set, for example, remotely adjust the infusion flow, etc., which effectively reduces the work intensity of the medical personnel. The invention realizes the intelligent management of infusion, which can not only reduce the work intensity of medical personnel, but also solve the nursing burden of patients and family members during the infusion process, and is an effective means to improve the level of nursing management in hospitals. The present invention is applicable to outpatient infusion room and inpatient ward infusion monitoring and control of hospital, ward of medical care center and other places requiring infusion, especially suitable for children and unaccompanied infusion patients.

It should be understood that the orientation terms such as up and down mentioned in this specification are defined relative to the structures shown in the drawings, and they are relative concepts, so they may vary according to their different positions, Change accordingly for different usage conditions. Accordingly, these or other directional terms should not be construed as limiting terms.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any form and in essence. Several improvements and supplements can be made, and these improvements and supplements should also be regarded as the protection scope of the present invention. Those who are familiar with this profession, without departing from the spirit and scope of the present invention, when they can use the technical content disclosed above to make some changes, modifications and equivalent changes of evolution, are all included in the present invention. Equivalent embodiments; at the same time, all changes, modifications and evolutions of any equivalent changes made to the above-mentioned embodiments according to the substantive technology of the present invention still belong to the scope of the technical solution of the present invention.

Claims (10)

1. A 5G intelligent infusion set monitoring and control system, characterized in that: the system includes an infusion set monitoring and control instrument at the front end and a host computer at the rear end, and the infusion set monitoring and control instrument and the upper position The machine is connected to the signal through the 5G transceiver module (4); The host computer has a receiving module for receiving control instructions, and the infusion set monitoring and control instrument has an information acquisition device for obtaining the status information of the infusion set in real time, so as to monitor the infusion set; the infusion set monitoring and control instrument is also It includes a control module that controls the infusion set based on the control instruction and the state information, so as to realize the automatic control and remote operation of the infusion set; The status information is sent to the host computer, and the host computer receives, stores, processes and displays the status information, so as to remotely monitor the infusion set and facilitate later calling of the status information. 2. A 5G intelligent infusion device monitoring and control system according to claim 1, characterized in that: the infusion device includes a main infusion tube (25) and a medicine bottle, and several medicine bottles pass through the sub-infusion tube and the main infusion tube respectively. The front section of the infusion tube (25) is connected, and the rear section of the total infusion tube (25) is provided with a drip pot (22). 3. A 5G intelligent infusion device monitoring and control system according to claim 2, characterized in that: the host computer includes a signal-connected controller (18) and a server (16), and the receiving module includes Based on the first input port (19) for inputting patient information and the second input port (20) for inputting information of a detection control instrument, the patient information includes the control instructions. 4. A 5G intelligent infusion device monitoring and control system according to claim 3, characterized in that: the control module includes a central processing unit (9), and the central processing unit (9) passes the 5G The transceiver module (4) is signal-connected to the server (16); The control module also includes on-off valves (10, 11, 12, 13, 14) and flow control valves (5), and the on-off valves (10, 11, 12, 13, 14) are respectively arranged on the On the infusion tube, the flow control valve (5) is set on the main infusion tube (25), the switch valves (10, 11, 12, 13, 14) and the flow control valve ( 5) are connected to the central processing unit (9) for signals; the central processing unit (9) controls the opening and closing of the switching valves (10, 11, 12, 13, 14) and the flow rate Control the opening, closing and flow of the valve (5). 5. A 5G intelligent infusion device monitoring and control system as claimed in claim 4, characterized in that: the control instructions include the infusion sequence between each medicine bottle and the set flow rate of each medicine bottle, and the host computer Send the injection sequence and the set flow rate to the central processing unit (9), and the central processing unit (9) sequentially opens the switch valves corresponding to each medicine bottle according to the infusion sequence ( 10, 11, 12, 13, 14), and adjust the flow rate of the flow control valve (5) according to the set flow rate. 6. A 5G intelligent infusion device monitoring and control system according to claim 5, characterized in that: the information acquisition device includes a device for real-time detection of whether there is liquid medicine flowing in the main infusion tube (25) A liquid sensor (1), the liquid sensor (1) is connected to the central processing unit (9) for signals; The information is sent to said central processing unit (9); The central processing unit (9) has an acquisition module for obtaining the start time, end time and elapsed time of the infusion according to the information on whether there is medicinal liquid in the main infusion tube (25); the central processing unit ( 9) Send the start time, the end time and the elapsed time to the host computer, and the server (16) synchronously stores the start time, the end time and the The elapsed time stated. 7. A 5G intelligent infusion device monitoring and control system according to claim 6, characterized in that: the information acquisition device further includes a flow sensor for real-time monitoring of the flow rate of the liquid medicine in the main infusion tube (25) (2), the flow sensor (2) is located outside the drip pot (22), the flow sensor (2) is connected to the central processing unit (9), and the flow sensor (2) The obtained liquid medicine flow is sent to the central processing unit (9); the central processing unit (9) sends the liquid medicine flow to the host computer, and the server stores the liquid medicine flow data; The central processing unit (9) has a first comparison module that compares the flow rate of the medicinal solution with the set flow rate, and when the flow rate of the medicinal solution is greater than or smaller than the set flow rate, The central processing unit (9) controls the flow control valve (5) to close, and drives the first alarm (7) and the second alarm to alarm synchronously. 8. A 5G intelligent infusion device monitoring and control system as claimed in claim 7, characterized in that: the information acquisition device also includes a liquid level sensor (3 ), and the liquid level sensor (3) is located outside the dripping pot, the liquid level sensor (3) is connected to the central processing unit (9); the liquid level sensor (3) The obtained liquid level of the medicinal liquid is sent to the central processing unit (9), and the central processing unit (9) monitors the infusion process according to the liquid liquid level of the medicinal liquid; The liquid level of the liquid medicine is delivered to the upper computer, and the server (16) stores the liquid level data of the liquid medicine; The patient information includes a preset set liquid level, and the central processing unit (9) has a second comparison module for comparing the liquid medicine liquid level with the set liquid level, when the When the liquid level of the liquid medicine is greater than or less than the set level, the central processing unit (9) controls the flow control valve (5) to close, and drives the first alarm (7) and The second alarm is synchronously alarming. 9. A 5G intelligent infusion set monitoring and control system according to claim 8, characterized in that: the infusion set monitoring and control instrument also includes a first display (6), and the first display (6) is connected to The central processing unit (9) is connected with signals, and the host computer also includes a second display (17), and the second display (17) is connected with the server (16), and the first Both the display (6) and the second display (17) simultaneously display the elapsed time, the flow rate of the medicinal solution, and the liquid level of the medicinal solution. 10. A 5G intelligent infusion set monitoring and control system according to claim 1, characterized in that: the infusion set monitoring and control instrument is equipped with a device that can be respectively clamped at the inlet end of the drip pot (22) and Two draw-in grooves on the total infusion tube (25) at the outlet end.