CN210992280U - Infusion early warning system - Google Patents

Abstract

The utility model discloses an infusion early warning system. The system comprises: the monitoring module, the server and the terminal are connected in sequence in a wireless or wired mode, and the monitoring module is arranged on the liquid medicine container; the monitoring module is used for monitoring the infusion progress, and when the liquid level in the infusion container is monitored to be reduced below a critical liquid level, the identification information and the alarm signal of the monitoring module are sent to the server; the server is used for receiving the identification information and the alarm signal sent by the monitoring module and sending the sickbed number information and the alarm signal corresponding to the identification information to the corresponding terminals; the terminal is used for receiving the sickbed number information and the alarm signal sent by the server and generating prompt information. The liquid level in the infusion container is monitored through the monitoring module, the identification information and the alarm signal of the monitoring module are sent to the server and further sent to the terminal, so that the infusion progress is monitored in real time, nursing staff are reminded and informed in time, and infusion safety of patients is guaranteed.

Description

Infusion early warning system

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to an infusion early warning system.

Background

At present, patients often need attendants or doctors and nurses to nurse under the condition of hospital infusion to observe the residual liquid medicine in an infusion container in real time, master the infusion progress, and pull out the infusion tube in time when the infusion is about to be completed. However, if the attendant or doctor's nurse dozes off during the accompanying process or does not notice the exhaustion of the liquid in the infusion container due to other things, serious consequences may occur.

At the present stage, a method for measuring the infusion progress through a spring and then giving an alarm through an alarm lamp exists, however, if the spring has an error due to mechanical loss, the progress detection is inaccurate, and accompanying personnel or doctors and nurses cannot be informed in time. In addition, if the accompanying person or the doctor and nurse are far from the patient, the warning lamp cannot be notified.

SUMMERY OF THE UTILITY MODEL

The utility model provides an infusion early warning system to real time monitoring patient's infusion progress, in time inform medical personnel when the infusion is about to accomplish.

The utility model provides an infusion early warning system, this system includes:

the monitoring module, the server and the terminal are connected in sequence in a wireless or wired mode, and the monitoring module is arranged on the liquid medicine container;

the monitoring module is used for monitoring the infusion progress, and when the liquid level in the infusion container is monitored to be reduced below a critical liquid level, the identification information and the alarm signal of the monitoring module are sent to the server;

the server is used for receiving the identification information and the alarm signal sent by the monitoring module and sending the sickbed number information and the alarm signal corresponding to the identification information to the corresponding terminals;

the terminal is used for receiving the sickbed number information and the alarm signal sent by the server and generating prompt information.

The utility model discloses a monitoring module who connects gradually, server and terminal, and set up monitoring module on the liquid medicine container, detect the infusion progress through monitoring module, when monitoring liquid level drop to below the critical liquid level in the infusion container, send monitoring module's identification information and alarm signal to the server, the identification information and the alarm signal that monitoring module sent are received to the server, and send the sick bed number information and the alarm signal that identification information corresponds to the terminal that corresponds, sick bed number information and the alarm signal that terminal receiving server sent, generate the prompt information, thereby realize the real time monitoring to the infusion progress, and in time remind and inform the caregiver, patient's infusion safety has been guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of an infusion early warning system of the present invention;

fig. 2 is a schematic structural diagram of the monitoring module of the present invention;

fig. 3 is a schematic structural diagram of the infrared sensor of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Fig. 1 is a schematic structural diagram of an infusion early warning system of the present invention. The utility model provides an infusion early warning system is applicable when patient's infusion, monitors patient's infusion progress, in time informs medical personnel's the condition when the infusion is about to accomplish. The system can be applied to the condition of monitoring the infusion progress of patients in each sickbed in a hospital, can also be applied to the condition of monitoring the infusion progress of the patients at home, and is not limited in application scene. Referring to fig. 1, the system of the present invention specifically includes:

the system comprises a monitoring module 10, a server 20 and a terminal 30 which are connected in sequence in a wireless or wired mode, wherein the monitoring module 10 is arranged on a liquid medicine container;

the monitoring module 10 is used for monitoring the infusion progress, and when the liquid level in the infusion container is monitored to be reduced below a critical liquid level, the identification information and the alarm signal of the monitoring module 10 are sent to the server 20;

the server 20 is configured to receive the identification information and the alarm signal sent by the monitoring module 10, and send the hospital bed number information and the alarm signal corresponding to the identification information to the corresponding terminal 30;

the terminal 30 is configured to receive the hospital bed number information and the alarm signal sent by the server 20, and generate a prompt message.

Specifically, the terminal 30 may be a smart phone, a tablet computer, or a computer. The monitoring module 10 is arranged on a liquid medicine container for transfusion of a patient, and the monitoring module 10 can monitor the liquid level of liquid medicine in the liquid medicine container in real time so as to acquire the transfusion progress. Each monitoring module 10 is provided with identification information corresponding to the monitoring module 10, a hospital bed number corresponding to the infusion progress monitored by the corresponding monitoring module 10 can be known according to the identification information, the monitoring module 10 is connected with the server 20 and the terminal 30 in a wireless or wired mode, when the monitoring module 10 monitors that the liquid level in the liquid medicine container is lowered below a critical liquid level, an alarm signal is generated, and the identification information and the alarm signal of the monitoring module 10 are sent to the server 20. After receiving the identification information and the alarm signal, the server 20 acquires the hospital bed number information corresponding to the identification information through the identification signal, and then sends the hospital bed number information and the alarm signal to the terminal 30 held by the medical staff responsible for nursing the patient with the hospital bed number, so as to prompt the medical staff to complete the infusion in time, and display the hospital bed number to be completed by the current infusion to the medical staff through the terminal 30, so that the medical staff can lock the hospital bed number quickly.

Optionally, fig. 2 is a schematic structural diagram of the monitoring module of the present invention, and as shown in fig. 2, the monitoring module 10 further includes an infrared sensor 120 and a micro control unit 110 electrically connected to each other; the micro control unit 110 is a microprocessor or a single chip microcomputer.

The infrared sensor 120 is used for monitoring whether the liquid level in the infusion container drops below a critical liquid level;

the micro control unit 110 is used for receiving the signal of the infrared sensor 120, and sending an alarm signal to the server 20 when the liquid level in the infusion container is judged to be lower than the critical liquid level according to the signal of the infrared sensor 120.

The infrared sensor 120 includes an infrared emitting end 121 and an infrared receiving end 122, which are respectively disposed at two opposite sides of a preset position of the liquid medicine container.

Specifically, the monitoring module 10 includes an infrared sensor 120, the infrared sensor 120 includes an infrared emitting end 121 and an infrared receiving end 122, the infrared emitting end 121 and the infrared receiving end 122 are respectively disposed on two opposite sides of a preset position of the liquid medicine container, and the liquid level position in the liquid medicine container is monitored. When the liquid medicine is sufficient, infrared ray emitted by the infrared emitting end 121 passes through the liquid medicine and reaches the infrared receiving end 122, because the light is refracted by the liquid medicine, the intensity of the light received by the infrared receiving end 122 is weak, when the liquid level of the liquid medicine drops below the critical liquid level, the light emitted by the infrared emitting end 121 passes through the air and reaches the infrared receiving end 122, because the light is not refracted by the liquid medicine, the intensity of the light received by the infrared receiving end 122 is greater than the intensity of the light received by the liquid medicine, therefore, when the liquid level of the liquid medicine drops below the critical liquid level, the intensity of the light received by the infrared receiving end 122 changes, the output level changes, and the liquid medicine can be known to. The preset position can be set up as required, and is optional, and fig. 3 is the utility model discloses an infrared sensor structure schematic diagram, as shown in fig. 3, set up in the position that the liquid medicine container is close to the container mouth to in time monitor the condition when the liquid medicine is about to exhaust, generate alarm signal and send to server 20.

Illustratively, the micro control unit 110 receives the output voltage signal of the infrared emitting terminal 121, generates an alarm signal when it is determined that the liquid level in the infusion container falls below a critical liquid level, and sends the alarm signal to the server 20.

Optionally, the monitoring module 10 further includes: and a wireless transmission unit 130 for data transmission between the monitoring module 10 and the server 20.

The monitoring module 10 further includes an identification information editing unit 140, configured to edit identification information of the monitoring module 10 corresponding to each hospital bed number information, and send the identification information to the server 20 through the wireless transmission unit 130.

The server 20 is further configured to pre-establish an association relationship between the identification information and the patient bed number information and the corresponding terminal 30, so as to obtain the corresponding patient bed number information and the terminal 30 corresponding to the patient bed number information according to the identification information.

Specifically, the identification information editing unit 140 can edit the identification information of each monitoring module 10, where the identification information may be numbers, letters, or a combination thereof, or may be a model identifier of a chip used by each monitoring module 10, and the identification information corresponding to different monitoring modules 10 is different, so as to distinguish each monitoring module 10 from a hospital bed number corresponding to each monitoring module 10. The identification information editing unit 140 generates identification information corresponding to the detection modules, and then transmits the identification information to the server 20 through the wireless transmission unit 130. The server 20 stores in advance an association mapping table between the identification information, the hospital bed number, and the terminal 30 held by the medical staff who attends the hospital bed number, and the server 20 can determine the hospital bed number corresponding to the identification information and the terminal 30 according to the received identification information. After receiving the hospital bed number information and the alarm information, the terminal 30 displays the information to the medical staff, and prompts the medical staff to arrive at a ward with a designated hospital bed number for treating the infusion condition.

Optionally, the monitoring module 10 further includes a buzzer 150 and an indicator light 160 connected to the micro control unit 110;

accordingly, when the micro control unit 110 analyzes that the liquid level in the infusion container drops below the critical liquid level, the buzzer 150 is controlled to send out an alarm signal, and the indicator light 160 is controlled to light.

Specifically, in order to enhance the safety of the infusion nursing and prevent the nursing staff terminal 30 from failing to receive the alarm signal and the information of the hospital bed number in time, the monitoring module 10 further includes a buzzer 150 and an indicator light 160 connected to the micro control unit 110, and when the micro control unit 110 determines that the current liquid level in the infusion container is lowered below the critical liquid level, the buzzer 150 is controlled to alarm and the indicator light 160 is controlled to light up, so as to remind people near the hospital bed that the infusion is about to be completed.

Optionally, the monitoring module 10 further includes a power source 170 and a switch 180, the power source 170 is configured to provide power to the monitoring module 10, and the switch 180 is configured to control the operating state of the monitoring module 10. Specifically, the power source 170 may be a battery power source, or may be a wired power source such as a USB interface, so as to ensure the normal operation of the monitoring module 10.

According to the technical scheme, the monitoring module, the server and the terminal are sequentially connected in a wireless or wired mode, and the monitoring module is arranged on the liquid medicine container; the monitoring module is used for monitoring the infusion progress, and when the liquid level in the infusion container is monitored to be reduced below a critical liquid level, the identification information and the alarm signal of the monitoring module are sent to the server; the server is used for receiving the identification information and the alarm signal sent by the monitoring module and sending the sickbed number information and the alarm signal corresponding to the identification information to the corresponding terminals; the terminal is used for receiving the sickbed number information and the alarm signal sent by the server and generating prompt information. The liquid level in the infusion container is monitored through the monitoring module, the identification information and the alarm signal of the monitoring module are sent to the server and further sent to the terminal, so that the infusion progress is monitored in real time, nursing staff are reminded and informed in time, and infusion safety of patients is guaranteed.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (7)

1. An infusion early warning system, the system comprising:

the monitoring module, the server and the terminal are connected in sequence in a wireless or wired mode, and the monitoring module is arranged on the liquid medicine container;

the monitoring module is used for monitoring the infusion progress, and when the liquid level in the infusion container is monitored to be reduced below a critical liquid level, the identification information and the alarm signal of the monitoring module are sent to the server;

the server is used for receiving the identification information and the alarm signal sent by the monitoring module and sending the sickbed number information and the alarm signal corresponding to the identification information to the corresponding terminals;

the terminal is used for receiving the sickbed number information and the alarm signal sent by the server and generating prompt information; the terminal is held by a medical staff responsible for nursing the patient with the sickbed number;

and the identification information editing unit is used for editing the identification information of each monitoring module, the identification information is numbers, letters or a combination thereof or chip model identification used by each monitoring module, and the identification information is sent to the server through the wireless transmission unit.

2. The infusion warning system of claim 1, wherein the monitoring module further comprises: the infrared sensor and the micro control unit are electrically connected;

the infrared sensor is used for monitoring whether the liquid level in the infusion container drops below a critical liquid level;

and the micro control unit is used for receiving the signal of the infrared sensor and sending an alarm signal to the server when judging that the liquid level in the infusion container is reduced below a critical liquid level according to the signal of the infrared sensor.

3. The infusion early warning system of claim 2, wherein the infrared sensor comprises: the infrared transmitting end and the infrared receiving end are respectively arranged on two opposite sides of the preset position of the liquid medicine container.

4. The infusion warning system of claim 1, wherein the monitoring module further comprises: and the wireless transmission unit is used for transmitting data between the monitoring module and the server.

5. The infusion warning system of claim 2, wherein the monitoring module further comprises: the buzzer and the indicator light are connected with the micro control unit;

correspondingly, when the micro control unit judges that the liquid level in the infusion container is reduced below the critical liquid level, the buzzer is controlled to send out an alarm signal, and the indicator lamp is controlled to be lightened.

6. The infusion early warning system according to claim 2, wherein the micro-control unit is a microprocessor or a single chip microcomputer.

7. The infusion warning system of claim 1, wherein the monitoring module further comprises: the power supply is used for supplying power to the monitoring module, and the switch is used for controlling the working state of the monitoring module.

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