CN211301473U - 5G intelligent infusion apparatus monitoring control device - Google Patents

Abstract

A5G intelligent infusion apparatus monitoring control device comprises an infusion apparatus monitoring control instrument and an upper computer, wherein the infusion apparatus monitoring control instrument is in signal connection with the upper computer through a 5G transceiver module; the upper computer is provided with a receiving module for receiving a control instruction, and the infusion apparatus monitoring control instrument is provided with an information acquisition device for acquiring the state information of the infusion apparatus in real time; the infusion apparatus monitoring controller also comprises a control module for controlling the infusion apparatus based on the control instruction and the state information; and the infusion apparatus monitoring controller transmits the state information to the upper computer, and the upper computer receives, stores, processes and displays the state information so as to remotely monitor the infusion apparatus and facilitate the later calling of the state information. The utility model discloses a to the intelligent management of infusion, can alleviate medical personnel's working strength, can solve the patient again and at the nurse burden of infusion in-process patient and family members.

Description

5G intelligent infusion apparatus monitoring control device

Technical Field

The utility model relates to a human articles for daily use especially relate to medical instrument, especially a 5G intelligence transfusion system monitor control device.

Background

When a patient is in a hospital for transfusion, the transfusion needs to be monitored, including timely checking whether the liquid medicine in the medicine bottle is completely dripped or whether the dripping speed is proper, and the like, but manual monitoring is time-consuming and labor-consuming, and easy to forget or neglect, so that the nursing burden of the patient or family members is large.

Therefore, an infusion monitoring intelligent system appears in the market to monitor the infusion process, most of the existing infusion monitoring systems adopt a mode of monitoring the weight of an infusion bag, judge whether the liquid medicine in the medicine bottle is completely dripped according to the change of the weight, and send out sound and light alarm when judging that the liquid medicine in the medicine bottle is completely dripped. However, the intelligent infusion monitoring system has single function, can not acquire infusion state information in real time, and can not be operated remotely, so that the working intensity of medical staff is still high.

The existing transfusion monitoring intelligent system has the following problems: because the infusion monitoring intelligent system has single function, the infusion state information can not be known in real time, and the remote operation can not be carried out, so that the working intensity of medical care personnel is still very high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a 5G intelligence transfusion system monitor control device for solve the infusion control intelligent system among the prior art because can not learn infusion state information in real time, also can not remote operation for medical personnel's working strength is very big technical problem still.

In order to solve the technical problem, the technical scheme of the utility model provides a 5G intelligent infusion apparatus monitoring and controlling device, which comprises an infusion apparatus monitoring and controlling instrument positioned at the front end and an upper computer positioned at the rear end, wherein the infusion apparatus monitoring and controlling instrument is connected with the upper computer through a 5G transceiver module signal;

the upper computer is provided with a receiving module for receiving a control instruction, and the infusion apparatus monitoring control instrument is provided with an information acquisition device for acquiring the state information of the infusion apparatus in real time so as to monitor the infusion apparatus; the infusion apparatus monitoring controller also comprises a control module for controlling the infusion apparatus based on the control instruction and the state information so as to realize automatic control and remote operation of the infusion apparatus; and the infusion apparatus monitoring controller transmits the state information to the upper computer, and the upper computer receives, stores, processes and displays the state information so as to remotely monitor the infusion apparatus and facilitate the later calling of the state information.

Furthermore, the infusion apparatus comprises a main infusion tube and a plurality of medicine bottles, the medicine bottles are respectively communicated with the front section of the main infusion tube in parallel through a sub-infusion tube, and a drip cup is arranged on the rear section of the main infusion tube.

Furthermore, the upper computer comprises a controller and a server which are connected through signals, the receiving module comprises a first input port used for inputting patient information and a second input port used for inputting detection control instrument information, and the patient information comprises the control instruction.

Furthermore, the control module comprises a central processing unit, and the central processing unit is connected with the server through the 5G transceiver module by signals.

The control module further comprises a switch valve and a flow control valve, the switch valve is respectively arranged on the branch infusion tubes, the flow control valve is arranged on the main infusion tube, and the switch valve and the flow control valve are in signal connection with the central processing unit; the central processing unit controls the opening and closing of the switch valve and the opening and closing of the flow control valve and the flow rate.

Furthermore, the control instruction comprises the infusion sequence among the medicine bottles and the set flow rate of the medicine bottles, the upper computer conveys the injection sequence and the set flow rate to the central processing unit, and the central processing unit sequentially opens the switch valves corresponding to the medicine bottles 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 comprises a liquid sensor for detecting whether liquid medicine flows in the main infusion tube in real time, and the liquid sensor is in signal connection with the central processing unit; the liquid sensor transmits the information whether the liquid medicine exists in the main transfusion tube to the central processing unit;

the central processor is provided with an acquisition module for acquiring the starting time, the ending time and the used time of transfusion according to the information whether the liquid medicine exists in the main transfusion tube or not; the central processing unit transmits the starting time, the ending time and the used time to the upper computer, and the server synchronously stores the starting time, the ending time and the used time.

Furthermore, the information acquisition device also comprises a flow sensor for monitoring the flow of the liquid medicine in the total infusion tube in real time, the flow sensor is positioned at the outer side of the drip cup and is connected with the central processing unit, and the flow sensor transmits the obtained flow of the liquid medicine to the central processing unit; the central processing unit transmits the liquid medicine flow to an upper computer, and the server stores the liquid medicine flow data;

the central processing unit is provided with a first comparison module for comparing the liquid medicine flow with the set flow, and when the liquid medicine flow is greater than or less than the set flow, the central processing unit controls the flow control valve to be closed and drives the first alarm and the second alarm to alarm synchronously.

Furthermore, the information acquisition device also comprises a liquid level sensor for monitoring the liquid level of the liquid medicine in the drip cup in real time, the liquid level sensor is positioned at the outer side of the drip cup, and the liquid level sensor is connected with the central processing unit; the liquid level sensor transmits the acquired liquid level of the liquid medicine to the central processing unit, and the central processing unit monitors the infusion process according to the liquid level of the liquid medicine; the central processing unit transmits the liquid level of the liquid medicine to the upper computer, and the server stores the liquid level data of the liquid medicine;

patient information is including the predetermined liquid level of setting for, central processing unit have with the liquid medicine liquid level with set for the second comparison module that the liquid level carries out the comparison, work as the liquid medicine liquid level be greater than or be less than set for during the liquid level, central processing unit control the flow control valve close, and the drive first alarm with the synchronous warning of second alarm.

Further, the infusion apparatus monitoring controller further comprises a first display, the first display is in signal connection with the central processing unit, the upper computer further comprises a second display, the second display is connected with the server, and the first display and the second display synchronously display the elapsed time, the flow rate of the liquid medicine and the liquid level of the liquid medicine.

Furthermore, the infusion apparatus monitoring controller is provided with two clamping grooves which can be respectively clamped on the main infusion tube at the inlet end and the outlet end of the drip cup.

The monitoring and controlling device of the 5G intelligent infusion apparatus of the utility model acquires the state information of the infusion apparatus in real time by arranging the information acquiring device, thereby monitoring the infusion apparatus; the remote control instruction is received by arranging the receiving module, and the infusion apparatus is controlled by arranging the control module based on the control instruction and the state information, so that the remote operation and the automatic control of the infusion apparatus are realized; the upper computer receives, stores, processes and displays the state information, so that the infusion apparatus can be remotely monitored and the state information can be called at the later stage.

In particular, the liquid sensor, the flow sensor and the liquid level sensor of the present invention all adopt the known technical solutions in the prior art. For example, the signal ends of a liquid sensor, a flow sensor and a liquid level sensor which adopt photoelectric or capacitance sensors are respectively communicated with an input and output circuit connected with a central processing unit, and the central processing unit judges whether liquid exists, the position of the liquid level and the number of liquid drops according to the change of photoelectric signals. Since the above solutions are well known to those skilled in the art, they will not be described herein.

When the monitoring and controlling device of the 5G intelligent transfusion device needs to change medicine, finish transfusion and cause abnormal transfusion, the monitoring and controlling device of the transfusion device and the upper computer are both provided with prompting alarms, thereby realizing the effective monitoring of the transfusion process; the infusion main pipe can be automatically closed or opened, and the bottle can be automatically replaced, so that the nursing pressure of a patient and the workload of medical staff are reduced. Meanwhile, the infusion apparatus monitoring control instrument and the upper computer can both display the state information of the infusion apparatus, the infusion apparatus can be remotely monitored, and the upper computer can store relevant data of the infusion process, so that later-stage query is facilitated. Moreover, medical personnel can trigger the infusion apparatus monitoring control instrument through the controller to realize remote operation on the infusion apparatus, for example, remotely adjust the infusion flow and the like, thereby effectively reducing the working intensity of the medical personnel.

Specifically, on-site medical staff can adjust the flow through the 5G intelligent infusion apparatus monitoring control device according to actual conditions, and upload the adjusted data to an upper computer for recording and storing. The remote flow rate adjustment can also be carried out through the software of the upper computer of the 5G intelligent infusion apparatus monitoring control device, and all changes occurring in the operation can be recorded and stored.

A5G intelligence transfusion system monitor control device realized can alleviate medical personnel's working strength to the intelligent management of infusion, can solve the patient again and at the nurse burden of infusion in-process patient and family members, be the effective means that promotes hospital nursing management level. The utility model is suitable for an outpatient service infusion room and the ward infusion monitor control of being in hospital, medical care center ward and other places need the place of infusion, especially are fit for children and the infusion patient of unmanned nursing.

To sum up, the utility model discloses a 5G intelligent transfusion system monitor control device has overcome among the prior art infusion control intelligent system because can not learn infusion state information in real time, also can not remote operation for medical personnel's working strength is very big technical problem still. The intelligent management of the infusion is realized, the working strength of medical care personnel can be reduced, and the nursing burden of patients and family members in the infusion process can be solved.

Drawings

Fig. 1 is a schematic structural diagram of an infusion apparatus monitoring controller of a 5G intelligent infusion apparatus monitoring control device provided by the embodiment;

fig. 2 is a schematic structural diagram of an upper computer of the 5G intelligent infusion apparatus monitoring control device provided by the embodiment;

fig. 3 is a schematic diagram of display contents of a first display of the monitoring and controlling device of the 5G intelligent infusion apparatus provided by the embodiment;

reference numerals: the liquid level monitoring system comprises a liquid sensor 1, a flow sensor 2, liquid level sensors 3 and 5G transceiver modules 4, a flow control valve 5, a first display 6, a first alarm 7, a calling function key 8, a central processing unit 9, switch valves 10, 11, 12, 13 and 14, a server 16, a second display 17, a controller 18, a first input port 19, a second input port 20, a tee joint 21, a drip cup 22, a medicine drop 23, a liquid level 24 and a main infusion tube 25.

Detailed Description

The embodiment provides a 5G intelligent infusion apparatus monitoring and controlling device. The system comprises an infusion apparatus monitoring and controlling instrument positioned at the front end and an upper computer positioned at the rear end, wherein the infusion apparatus monitoring and controlling instrument is in signal connection with the upper computer through a 5G transceiver module 4;

the upper computer is provided with a receiving module for receiving a control instruction, and the infusion apparatus monitoring control instrument is provided with an information acquisition device for acquiring the state information of the infusion apparatus in real time so as to monitor the infusion apparatus; the infusion apparatus monitoring controller also comprises a control module for controlling the infusion apparatus based on the control instruction and the state information so as to realize automatic control and remote operation of the infusion apparatus; and the infusion apparatus monitoring controller transmits the state information to the upper computer, and the upper computer receives, stores, processes and displays the state information so as to remotely monitor the infusion apparatus and facilitate the later calling of the state information.

The infusion apparatus comprises a main infusion tube 25 and a plurality of medicine bottles, the medicine bottles are respectively communicated with the front section of the main infusion tube 25 in parallel through a sub-infusion tube, and a drip cup 22 is arranged on the rear section of the main infusion tube 25.

Fig. 2 is a schematic structural diagram of an upper computer of the 5G intelligent infusion apparatus monitoring and controlling device provided in this embodiment, as shown in fig. 2, the upper computer includes a controller 18 and a server 16 which are connected by signals, the receiving module includes a first input port 19 for inputting patient information and a second input port 20 for inputting detection controller information, and the patient information includes the control instruction.

Fig. 3 is a schematic diagram of display contents of a first display of the monitoring and controlling device of the 5G intelligent infusion set provided by the embodiment, as shown in fig. 1, the control module includes a central processing unit 9, and the central processing unit 9 is in signal connection with the server 16 through the 5G transceiver module 4;

the control module further comprises switching valves 10, 11, 12, 13, 14 and a flow control valve 5, wherein the switching valves 10, 11, 12, 13, 14 are respectively arranged on the branch infusion tubes, the flow control valve 5 is arranged on the main infusion tube 25, and the switching valves 10, 11, 12, 13, 14 and the flow control valve 5 are all in signal connection with the central processing unit 9; the central processor 9 controls the opening and closing of the switch valves 10, 11, 12, 13 and 14 and the opening, closing and flow of the flow control valve 5.

The control instruction comprises the infusion sequence among the medicine bottles and the set flow rate of the medicine bottles, the upper computer sends the injection sequence and the set flow rate to the central processing unit 9, the central processing unit 9 sequentially opens the switch valves 10, 11, 12, 13 and 14 corresponding to the medicine bottles according to the infusion sequence, and the flow rate of the flow control valve 5 is adjusted according to the set flow rate.

Further, the information acquisition device comprises a liquid sensor 1 for detecting whether liquid medicine flows in the main infusion tube 25 in real time, and the liquid sensor 1 is in signal connection with the central processing unit 9; the liquid sensor 1 transmits the information whether the liquid medicine exists in the total transfusion tube 25 to the central processing unit 9;

the central processor 9 is provided with an acquisition module for acquiring the start time, the end time and the used time of transfusion according to the information whether the liquid medicine exists in the total transfusion tube 25; the central processor 9 transmits the start time, the end time and the used time to the upper computer, and the server 16 synchronously stores the start time, the end time and the used time.

Specifically, after the system of this embodiment is turned on, the time when the liquid sensor 1 detects that there is a liquid medicine in the total infusion tube 25 is the start time, and then the time when the liquid sensor 1 detects that there is no liquid medicine in the total infusion tube 25 is the end time of the bottle of liquid medicine, and the elapsed time of the bottle of liquid medicine is counted from the start time.

Further, the information acquisition device further comprises a flow sensor 2 for monitoring the flow rate of the liquid medicine in the total infusion tube 25 in real time, the flow sensor 2 is located at the outer side of the drip cup 22, the flow sensor 2 is located at the inlet end of the drip cup 22, the flow sensor 2 is connected with the central processing unit 9, and the flow sensor 2 transmits the obtained flow rate of the liquid medicine to the central processing unit 9; the central processing unit 9 transmits the liquid medicine flow to the upper computer, and the server stores the liquid medicine flow data;

the central processing unit 9 is provided with a first comparison module for comparing the liquid medicine flow with the set flow, and when the liquid medicine flow is greater than or less than the set flow, 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 further comprises a liquid level sensor 3 for monitoring the liquid level of the liquid medicine in the drip cup in real time, the liquid level sensor 3 is positioned at the outer side of the drip cup, and the liquid level sensor 3 is connected with the central processing unit 9; the liquid level sensor 3 transmits the acquired liquid level of the liquid medicine to the central processing unit 9, and the central processing unit 9 monitors the transfusion process according to the liquid level of the liquid medicine; the central processing unit transmits the liquid level of the liquid medicine to the upper computer, and the server 16 stores the liquid level data of the liquid medicine.

Patient information is including the predetermined liquid level of setting for, central processing unit 9 have with the liquid medicine liquid level with set for the second comparison module that the liquid level carries out the comparison, work as the liquid medicine liquid level be greater than or be less than set for during the liquid level, central processing unit 9 control flow control valve 5 close, and the drive first alarm 7 with the synchronous warning of second alarm.

The infusion apparatus monitoring controller further comprises a first display 6, the first display 6 is in signal connection with the central processing unit 9, the upper computer further comprises a second display 17, the second display 17 is connected with the server 16, and the first display 6 and the second display 17 synchronously display the elapsed time, the flow rate of the liquid medicine and the liquid level of the liquid medicine.

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

Specifically, each medicine bottle serial number according to the order, patient information still include bed/seat number, name, age, medicine bottle quantity, current medicine bottle number, central processing unit 9 still have the clock, first display on show bed/seat number, name, age, medicine bottle quantity, current medicine bottle number and current time information, as shown in fig. 3.

The infusion apparatus monitoring controller is provided with two clamping grooves which can be respectively clamped on a main infusion tube 25 at the inlet end and the outlet end of the drip cup 22.

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

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

Furthermore, the monitoring controller further comprises a calling function key 8, the calling function key 8 is connected with the central processing unit 9, and the second display is provided with a symbol prompt and a voice prompt of the calling function key 8.

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, a corresponding symbol prompt on the second display will beat, and a voice prompt will be played.

Specifically, if the following abnormal conditions occur: (1) the needle head falls off, and the flow rate of the liquid medicine exceeds the set flow rate; (2) the transfusion needle head is pulled out of the vein outer skin of the patient, and the flow rate of the liquid medicine exceeds the set flow rate; (3) the liquid level of the dropper is lower than the set liquid level or the liquid medicine is completely 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 inclined or has other abnormality, and the liquid level of the dropper is lower than the set liquid level.

The cpu 9 recognizes the abnormality and controls the flow control valve 5 to close. The color indicator light gives out light prompt, meanwhile, the 5G transceiver module 4 sends abnormal state data to the upper computer, the upper computer records and stores the abnormal data at corresponding time after receiving the data, meanwhile, the second display jumps corresponding symbol prompt and plays a voice prompt, and after medical staff solve problems and presses the calling function key 8, the system is recovered to be normal.

Specifically, the second display 17 is provided with a plurality of symbol prompts, for example, a square indicates the end of infusion, a circle indicates an abnormal alarm, a triangle indicates a needle-bulging, a five-pointed star indicates calling, a diamond indicates needle-off, when the patient presses the calling function key 8, the five-pointed star will jump, and when the central processing unit judges that the infusion is ended, the square will jump.

Concretely, when needing the infusion when many bottles of medicine bottles, this embodiment a 5G intelligence transfusion system monitoring control device can trade the bottle automatically to can be according to the flow control infusion flow of setting for that has set for, when the infusion was all ended, central processing unit 9 control flow control valve 5 close, thereby prevent in the air admission blood vessel, thereby make infusion process labour saving and time saving, greatly reduced medical personnel's intensity of labour.

Further, the controller 18 is a computer.

Furthermore, the 5G transceiver module 4 is arranged on the infusion detection controller.

Medical staff configures liquid medicine, and inputs the information of the patient, medicine information, dispensing doctor and injection doctor related to the number of the bed/seat where the patient is located, name, age, number of the medicine bottles and the like into the controller 18 through the first input port 19, and inputs the infusion sequence and set flow rate of the medicine bottles through the first input port 19; information (including the serial number of the infusion apparatus monitoring controller and the like) of the infusion apparatus monitoring controller is input through the second input port 20; after the infusion needle is inserted into the vein of a patient and fixed by an injection doctor, the monitoring and controlling instrument of the infusion apparatus is clamped on the main infusion tube 25 above and below the drip cup 22, the calling function key 8 is pressed down, and the adjusting clamp on the infusion apparatus is clamped to the maximum; the infusion apparatus monitoring controller can automatically adjust the size of the flow regulating valve 5 according to the set flow, and sends information such as start time to the controller through the 5G module, and the controller starts to record and store the information.

The infusion apparatus monitoring controller can independently realize flow rate adjustment and feed back the flow rate adjustment to the controller, and can realize dressing change reminding and automatically change dressings; the transfusion is finished and abnormal, the alarm is given, the transfusion tube can be automatically closed or opened, the effective monitoring of the transfusion process is realized, and the monitoring burden of patients or family members is reduced.

The second display 17 of this embodiment can display the current infusion state, the infusion allowance, the online real-time control infusion flow and the infusion flow data real-time feedback record, alarm when the infusion is finished, prompt when the infusion is changed, alarm when the infusion is abnormal, alarm when the needle is broken off, remotely adjust the infusion flow, record of the total infusion volume, record of the infusion flow per minute, and also realize that the corresponding flow rate is automatically adjusted according to the infusion requirement after the medicines of a plurality of infusion bottles are changed; and recording the infusion starting time and the infusion ending time of each bottle of medicine bottle, abnormal conditions occurring in the infusion process of each bottle, the problem solving result called by the patient during infusion and the record of adverse reaction of the body. Simultaneously record the corresponding seat number or the corresponding sickroom and bed of the patient during transfusion of the patient, and record the medical staff for dispensing and the medical staff for transfusion during injection. All data are stored in real time through the controller, the infusion apparatus is remotely monitored, the state information is convenient to call in the later period, the data are uploaded to the controller in real time to be stored, if the infusion apparatus monitoring controller generates a feed and a fault, the controller system can remind medical staff of replacing, the medical staff can continue to use only by reading new infusion apparatus monitoring controller information into information of a corresponding patient on the controller system, and all the previous information cannot be lost.

In addition, the corresponding interfaces of all abnormal patients such as prompting, alarming, calling, failure and the like of the infusion apparatus monitoring control instrument can jump to the second display and send corresponding voice reminding. The controller system also arranges corresponding recording reports for medical staff, and supports a plurality of medical staff to operate the system at the same time, thereby fully improving the infusion efficiency of the medical staff.

In conclusion, when the monitoring and controlling device of the 5G intelligent infusion apparatus needs to change the medicine, the infusion is finished and the infusion is abnormal, the monitoring and controlling device of the infusion apparatus and the upper computer are provided with prompts and alarms, so that the effective monitoring of the infusion process is realized; the infusion main pipe can be automatically closed or opened, and the bottle can be automatically replaced, so that the nursing pressure of a patient and the workload of medical staff are reduced; meanwhile, the infusion apparatus monitoring controller and the upper computer can both display the state information of the infusion apparatus so as to remotely monitor the infusion apparatus, and the upper computer can store relevant data of the infusion process, so that later-stage query is facilitated. Moreover, medical personnel can trigger the infusion apparatus monitoring control instrument through the controller, and remote operation is realized on the infusion apparatus, for example, the infusion flow is remotely adjusted, and the working intensity of the medical personnel is effectively reduced. The utility model discloses a to the intelligent management of infusion, can alleviate medical personnel's working strength, can solve the patient again and at infusion in-process patient and family members' nurse burden, be the effective means that promotes hospital nursing management level. The utility model is suitable for an outpatient service infusion room and the ward infusion monitor control of being in hospital, medical care center ward and other places need the place of infusion, especially are fit for children and the infusion patient of unmanned nursing.

It should be understood that the terms "upper" and "lower" as used herein, and the like, are defined relative to the structures shown in the drawings and are relative terms, such that the description may be changed according to the position and the use state of the structure. Therefore, these and other directional terms should not be construed as limiting terms.

The foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the present invention in any way and in any way, and it should be understood that modifications and additions may be made by those skilled in the art without departing from the method of the present invention, and such modifications and additions are also considered to be within the scope of the present invention. Those skilled in the art can make various changes, modifications and evolutions equivalent to those made by the above-disclosed technical content without departing from the spirit and scope of the present invention, and all such changes, modifications and evolutions are equivalent embodiments of the present invention; meanwhile, any changes, modifications and evolutions of equivalent changes to the above embodiments according to the actual technology of the present invention are also within the scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a 5G intelligence transfusion system monitor control device which characterized in that: the infusion set monitoring and controlling device comprises an infusion set monitoring and controlling instrument positioned at the front end and an upper computer positioned at the rear end, wherein the infusion set monitoring and controlling instrument is in signal connection with the upper computer through a 5G transceiver module (4);

the upper computer is provided with a receiving module for receiving a control instruction, the infusion apparatus monitoring and controlling instrument is provided with an information acquisition device for acquiring the state information of the infusion apparatus in real time, and the infusion apparatus monitoring and controlling instrument further comprises a control module for controlling the infusion apparatus based on the control instruction and the state information.

2. The monitoring and control device of the 5G intelligent infusion apparatus according to claim 1, characterized in that: the infusion apparatus comprises a main infusion tube (25) and a plurality of medicine bottles, wherein the medicine bottles are respectively communicated with the front section of the main infusion tube (25) through a sub-infusion tube, and a drip cup (22) is arranged on the rear section of the main infusion tube (25).

3. The monitoring and control device of the 5G intelligent infusion apparatus according to claim 2, characterized in that: the upper computer comprises a controller (18) and a server (16) which are connected through signals, the receiving module comprises a first input port (19) used for inputting patient information and a second input port (20) used for inputting detection control instrument information, and the patient information comprises the control instruction.

4. The monitoring and control device of the 5G intelligent infusion set according to claim 3, characterized in that: the control module comprises a central processing unit (9), and the central processing unit (9) is in signal connection with the server (16) through the 5G transceiver module (4);

the control module also comprises switch valves (10, 11, 12, 13, 14) and a flow control valve (5), wherein the switch valves (10, 11, 12, 13, 14) are respectively arranged on the branch infusion tubes, the flow control valve (5) is arranged on the main infusion tube (25), and the switch valves (10, 11, 12, 13, 14) and the flow control valve (5) are all in signal connection with the central processing unit (9).

5. The monitoring and control device of the 5G intelligent infusion set according to claim 4, characterized in that: the information acquisition device further comprises a flow sensor (2) used for monitoring the flow of the liquid medicine in the total infusion tube (25) in real time, the flow sensor (2) is positioned on the outer side of the drip cup (22), and the flow sensor (2) is connected with the central processing unit (9).

6. The monitoring and control device of the 5G intelligent infusion set according to claim 5, characterized in that: the information acquisition device still including being used for real-time supervision liquid level sensor (3) of liquid medicine liquid level in the kettle drip, just liquid level sensor (3) be located the outside of kettle drip, liquid level sensor (3) with central processing unit (9) link to each other, central processing unit (9) have with the liquid medicine liquid level with set for the liquid level and carry out the second comparison module that compares.

7. The monitoring and control device of the 5G intelligent infusion apparatus according to claim 6, characterized in that: the infusion apparatus monitoring and controlling instrument further comprises a first display (6), the first display (6) is in signal connection with the central processing unit (9), the upper computer further comprises a second display (17), and the second display (17) is connected with the server (16).

8. The monitoring and control device of the 5G intelligent infusion set according to claim 7, characterized in that: the infusion apparatus monitoring controller is provided with two clamping grooves which can be respectively clamped on a main infusion tube (25) at the inlet end and the outlet end of the drip cup (22).

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