CN112121258A - Infusion monitoring device and infusion monitoring method - Google Patents

Abstract

The invention discloses an infusion monitoring device and an infusion monitoring method, the infusion monitoring device comprises a base, a support rod and a horizontal hook, an infusion detection device and a flow rate adjusting device are arranged on the support rod, the invention is used when intravenous infusion is carried out, the liquid level of an infusion bottle, the flow rate of liquid medicine and whether liquid medicine drips out of a drip cup are monitored by a detection camera, data are sent to a control console after processing, a nurse of the control console carries out feedback to adjust the flow rate or manually check and adjust the infusion condition of a patient in time, accompanying personnel of the patient and the patient can send signals to the control console by using a mobile terminal to seek nurse help, the control console is connected with a database to match the basic condition of the patient and check the working condition of the infusion monitoring device, the invention feeds back to the nurse, the accompanying personnel of the patient and the patient according to different conditions of the infusion, and effectively monitors, the burden of the nurse is reduced.

Description

Infusion monitoring device and infusion monitoring method

Technical Field

The invention relates to the field of medical instruments, in particular to an infusion monitoring device and an infusion monitoring method.

Background

Intravenous infusion is one of the methods widely used in clinical treatment at present, and generally, the intravenous infusion needs several hours to be completed, the movement of a patient is limited in the period, and the appropriate infusion speed is set according to different patients. In order to save the cost, the hospital mostly adjusts infusion speed for the patient after pricking according to the experience by the nurse, and the unable whole journey guardianship of nurse work busy also can't in time change infusion medicine bottle or pull out the needle for the patient, can appear that the nurse looks over the patient infusion process many times generally aggravates the work burden, patient's accompanying personnel even the patient finds out nurse, patient's accompanying personnel even the patient does not look for by oneself and changes the circumstances such as infusion medicine bottle or pull out the needle. The more serious condition is that the patients have bad conditions such as blood return during transfusion, nurses cannot find the bad conditions in time, accompanying personnel of the patients and the patients cannot deal with the bad conditions, and the nurses cannot seek help in time. In addition, due to the long infusion time, the patient accompanying person or the patient may adjust the infusion speed faster after the nurse leaves to cause physical discomfort. Venous transfusion has the difficult condition of control, and patient accompany personnel and nurse need constantly observe the infusion condition, and both sides can't carry out timely effectual communication, and patient accompany not fitting of personnel can aggravate nurse's work burden.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide an infusion monitoring device and an infusion monitoring method.

The purpose of the invention is realized by the following technical scheme:

the invention provides an infusion monitoring device, which comprises a base, a supporting rod and a horizontal hook, and is characterized in that: the support rod is provided with an infusion detection device and a flow rate adjusting device, the infusion detection device and the flow rate adjusting device are connected through a power line, and the power line is provided with a plug and a switch.

Further, the infusion detection device comprises a first detection camera and a second detection camera.

Further, the first detection camera is connected with a buzzer.

The invention also provides an infusion monitoring method of the infusion monitoring device, which is divided into a data acquisition unit, a data transmission unit, a data processing unit and a data feedback unit according to the working function.

Furthermore, the data acquisition unit comprises a flow rate detection module, a liquid drop detection module and a liquid level detection module, and is executed by the infusion detection device.

Further, the flow velocity detection module and the liquid drop detection module are executed by a first detection camera, and the liquid level detection module is executed by a second detection camera.

Further, the first detection camera and the second detection camera are divided into an image capturing module, an image processing module and a signal transmitting module according to working functions.

Further, the data transfer unit is implemented as a wireless connection.

Furthermore, the data feedback unit comprises a database, a console, a mobile terminal and a flow rate adjusting device, wherein the database is connected with the console.

Furthermore, the console receives the data processed by the data processing unit through the data acquisition unit through the data transmission unit, controls the flow rate adjusting device, and receives the signal sent by the mobile terminal.

Compared with the prior art, the invention has the beneficial effects that: the two sides of the flow velocity adjusting device are provided with metal elastic clamps which are fixed on the supporting rod and can move up and down to adjust to proper positions. The flow velocity adjusting device is a vertical cuboid which is provided with an open top surface and an open bottom surface and can be penetrated by the disposable infusion apparatus, and the flow velocity adjuster of the disposable infusion apparatus is contained in the flow velocity adjusting device. The positive upper portion of velocity of flow adjusting device and lower part respectively have a expansion plate, and the distance joint velocity of flow regulator's between two expansion plates regulating roller sets up the motion of driving motor control expansion plate and then the regulating roller of control velocity of flow regulator in the velocity of flow adjusting device, realizes the function of velocity of flow regulation. In addition, a control board is arranged in the flow rate adjusting device, receives information sent by the console, and sends a command to the driving motor to execute flow rate adjustment.

The back of the first detection camera and the back of the second detection camera are also provided with a metal elastic clamp so that the metal elastic clamp can be fixed on the support rod and can move up and down, when intravenous infusion is carried out, an infusion bottle is hung on the horizontal hook, the disposable infusion apparatus penetrates through the flow rate adjusting device, the adjusting roller is clamped between the expansion plates, the disposable infusion apparatus is inserted into the infusion bottle, a nurse carries out needle pricking operation on the patient and adjusts the flow rate, the positions of the infusion bottle and the disposable infusion apparatus are adjusted, and the first detection camera is moved to align the position of the drip cup of the disposable infusion apparatus. First detection camera bottom connects bee calling organ, first detection camera detects the liquid drop condition of drip chamber, the time interval that last liquid drop appeared and next liquid drop appeared is caught to the image capture module and whether there is the liquid drop, the image processing module carries out the velocity of flow calculation, signal emission module sends relevant information to the control cabinet, the control cabinet sends the order to flow rate adjusting device and adjusts when the velocity of flow is unusual, signal emission module sends continuous alarm signal to control cabinet and bee calling organ when not detecting the liquid drop in the drip chamber, the nurse of control cabinet receives the signal and in time looks over the patient infusion condition, bee calling organ reports to the police in succession and reminds patient's accompanying personnel and patient in time to call the nurse. And moving the second detection camera to align with the bottom of the infusion bottle to detect the liquid level, analyzing and judging by the image processing module after the image capturing module captures image information, sending a prompt signal to the console by the signal transmitting module when the liquid level is lower than 3cm, and sending an alarm signal to the console by the signal transmitting module when the liquid level is lower than 0.5 cm.

The control cabinet is connected with a hospital database, the control cabinet can monitor the infusion monitoring device in work and receive the signal sent by the infusion monitoring device to be processed by a nurse, and the database can be matched with identity information and infusion information of a patient who carries out infusion, so that the nurse can conveniently control the infusion speed of the patient. The patient attendant or patient can use a mobile terminal (e.g., a cell phone) to call the nurse by sending a signal to the console via a wireless connection (e.g., a bluetooth connection), if desired. Data reception and the transmission in the infusion control process go on through wireless connection, and infusion monitored control system accomplishes when the time control task after the nurse closes switch, and follow-up nurse carries out the operation processing that the infusion ended to the patient, and infusion set's stop function can be indicateed to the control cabinet, if the infusion set appears and is closed the nurse by the accident and can go to look over, if the infusion set closes follow-up this nurse by the nurse and has handled the suggestion mark can.

The infusion monitoring device is used when intravenous infusion is carried out, the liquid level of an infusion bottle, the flow rate of liquid medicine and whether liquid medicine drips out of a drip cup are monitored through the detection camera, data are sent to the control console after processing, a nurse of the control console carries out feedback, the flow rate is adjusted or the infusion condition of a patient is checked and adjusted manually in time, a patient accompanying person and the patient can send signals to the control console by using the mobile terminal to seek the help of the nurse, the control console is connected with the database to match the basic condition of the patient, and the working condition of the infusion monitoring device is checked. The infusion monitoring device can be used for a long time, and can feed back to nurses, patient accompanying personnel and patients according to different situations of infusion, meanwhile, the patients cannot adjust the infusion speed by themselves, the fact that the infusion monitoring device is accidentally closed can be found by the nurses, and after the infusion is finished, the nurses have to check the situations of the patients and stop the infusion monitoring.

Drawings

FIG. 1 is a schematic view of the overall structure of an infusion monitoring device according to the present invention;

FIG. 2 is a schematic view of a portion of an infusion monitoring device in accordance with the present invention;

FIG. 3 is a diagram of the use of the infusion monitoring device of the present invention;

FIG. 4 is a functional partition diagram of infusion monitoring of the present invention;

fig. 5 is a flow chart of the infusion monitoring operation of the present invention.

The reference numbers in the figures are: 1-a base; 2-a support rod; 3-horizontal hook; 4-an infusion detection device; 41-a first detection camera; 42-a second detection camera; 43-buzzer; 5-flow rate regulating means; 51-metal spring clips; 52-a retractable plate; 53-flow rate regulator; 6-power line; 7-a plug; 8-a switch; 9-infusion bottle; 10-a drip cup; 11-flow rate regulator.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in figure 1, the infusion monitoring device comprises a base 1, a support rod 2 and a horizontal hook 3, specifically, the base 1 is composed of three support legs, the angle between the support legs is 120 degrees, and each support leg is provided with a wheel to facilitate the movement of the infusion monitoring device. The horizontal hook 3 is arranged at the top of the support rod 2, and the support rod 2 is connected with the base 1 and the horizontal hook 3. The support rod 2 is provided with an infusion detection device 4 and a flow rate adjusting device 5, wherein the infusion detection device 4 comprises a first detection camera 41, a second detection camera 42 and a buzzer 43, and the first detection camera 41 is connected with the buzzer 43. The power cord 6 is connected with the transfusion detection device 4 and the flow rate adjusting device 5, and the power cord 6 is provided with a plug 7 and a switch 8.

The back parts of the first detection camera 41 and the second detection camera 42 are provided with metal elastic clamps to be fixed on the support rod 2, the positions can be adjusted up and down according to needs, and the first detection camera 41 and the second detection camera 42 comprise an image capturing module, an image processing module and a signal transmitting module. The bottom of the first detection camera 41 is connected with the buzzer 43, the flow rate in the infusion process and whether liquid drops exist or not are detected, namely whether the infusion is finished or not are detected, the second detection camera 42 detects the liquid level height of the infusion bottle 9, and the image capturing module and the image processing module transmit the acquired and processed data to the console through the signal transmitting module under the condition of being wirelessly connected with the console.

The flow velocity adjusting device 5 is a vertical cuboid with an open top and an open bottom, the upper part and the lower part of the front surface are respectively provided with a telescopic plate 52, and the two sides are provided with metal elastic clamps 51 to be fixed on the support rod 2, so that the position can be adjusted by moving up and down as required. Set up control panel and driving motor in velocity of flow adjusting device 5, the command that the control panel sent through wireless connection's mode receiving control platform is and carry out, sends the command to driving motor, and driving motor is through adjusting expansion plate 52 and then realize the velocity of flow regulatory function.

Fig. 2 is a schematic partial structure diagram of the infusion monitoring device, which includes a first detection camera 41, a second detection camera 42, a buzzer 43 and a flow rate adjusting device 5 of the infusion detection device 4, wherein the buzzer 43 is connected to the bottom of the first detection camera 41. In addition, metal elastic clips (not shown in the figure) are provided on the back of the first detection camera 41 and the second detection camera 42. The side surface of the flow rate adjusting device 5 is provided with a metal elastic clamp 51, the top and the bottom of the flow rate adjusting device are hollow, so that a disposable infusion apparatus can pass through the flow rate adjusting device, and the expansion plates 52 on the upper part and the lower part of the front surface of the flow rate adjusting device are clamped with adjusting rollers of a flow rate adjuster 53 of the disposable infusion apparatus.

As shown in fig. 3, the using state diagram of the infusion monitoring device is shown, when the infusion monitoring device is used, an infusion bottle 9 is hung on a horizontal hook 3, a nurse enables a disposable infusion apparatus to pass through a flow rate adjusting device 5, a flow rate adjuster 53 of the disposable infusion apparatus is clamped between expansion plates 52, the disposable infusion apparatus is inserted into the infusion bottle 9, after the nurse pricks a needle for a patient, a second detection camera 42 on a movable support rod 2 is aligned with the bottom of the infusion bottle 9, the second detection camera is moved to be aligned with a drip cup 10 of the disposable infusion apparatus, a plug 7 is powered on, and a switch 8 is turned on to monitor the infusion.

As shown in fig. 4, the function division diagram of infusion monitoring is shown, the data acquisition unit includes a flow rate detection module, a liquid level detection module and a liquid drop detection module, the flow rate detection module and the liquid drop detection module are used for data acquisition by an image capture module of a first detection camera 41, the liquid drop detection module is used for data acquisition by an image capture module of a second detection camera 42, an image processing module of the cameras converts acquired data into information and sends the information to a console of the data feedback unit through a signal transmitting module, the console is connected with a database, the mobile terminal can send signals to the console, the console receives the information and then regulates and controls the flow rate adjusting device 5 or manually checks the infusion condition of a patient by a nurse. The data processing involved in the infusion monitoring is converted into a data processing unit, the data transmission is realized by wireless connection, and in addition, the infusion monitoring can work only by a power supply.

As shown in fig. 5, which is a flow chart of infusion monitoring, the first detection camera 41 detects the drip cup 10 of the disposable infusion set, calculates the flow rate through the time interval appearing between drops, and sends the flow rate to the console, determines whether the flow rate is in a normal interval, and sends information indicating abnormal flow rate to the console if the flow rate is not in a normal interval, the console is connected to a database of a hospital, so that the infusion monitoring device in operation can be checked, the basic identity information of the corresponding patient and the infusion information are matched, and a nurse of the console can send an adjustment command to the flow rate adjustment device 5 according to the information in the database if receiving the abnormal flow rate information. The second detection camera 42 detects the liquid level of the infusion bottle 9, when the liquid level is lower than 3cm, the signal transmitting module sends a prompt signal to the console, enough time is provided for a nurse to schedule the treatment of ending the infusion or replacing the infusion bottle 9 for the patient, and when the liquid level is lower than 0.5cm, the signal transmitting module sends an alarm signal to the console to prompt the nurse to treat the patient as soon as possible. The first detection camera 41 also detects the liquid drop dripping state of the drip cup 10, when the liquid drop is not detected, namely the liquid medicine of the infusion bottle 9 is empty, a continuous alarm signal is sent to the control console and the buzzer 43 to remind a nurse of the control console to quickly check the infusion condition of the patient for treatment, and the buzzer 43 continuously alarms to remind a patient accompanying person and the patient to seek the nurse to treat the end of the infusion or replace the infusion bottle 9 in time. After the console sends an adjusting command to the flow rate adjusting device 5, the control board of the flow rate adjusting device 5 receives and sends the command to the driving motor, and the driving motor controls the movement of the retractable board 52 to adjust the adjusting roller of the flow rate adjuster 53, thereby completing the adjustment of the flow rate. If the patient needs to seek nurse help, the mobile terminal (such as a mobile phone) can be wirelessly connected (such as Bluetooth connection) to the console, and basic information is sent to the console to be matched with the identity of the database and a signal needing help, so that a nurse can conveniently go to check. The infusion monitoring device is closed back the suggestion that the infusion set stopped working can be received to the control cabinet, if the device is closed nurse by patient or other personnel and can go to the condition of looking over, if close when the nurse finishes the infusion and handle the back and to the suggestion mark already to handle. The infusion monitoring device can monitor the infusion condition of a patient in time, reduce the workload of a nurse, remotely control the infusion flow rate, ensure that the patient cannot adjust the flow rate by himself, and ensure that the nurse needs to check the infusion when the infusion is about to be finished, the patient sends a demand signal or the infusion monitoring device is accidentally closed, so that the whole infusion process is monitored, and the pressure of the nurse is reduced.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (10)

1. The utility model provides an infusion monitoring device, includes base (1), bracing piece (2), horizontal hook (3), its characterized in that: the transfusion detection device (4) and the flow rate adjusting device (5) are arranged on the supporting rod (2), the transfusion detection device (4) and the flow rate adjusting device (5) are connected through a power line (6), the power line (6) is provided with a plug (7), and a switch (8) is arranged.

2. The infusion monitoring device according to claim 1, characterized in that the infusion detection device (4) comprises a first detection camera (41) and a second detection camera (42).

3. The infusion monitoring device according to claim 2, characterized in that the first detection camera (41) is connected to a buzzer (43).

4. An infusion monitoring method using the infusion monitoring device of claim 1, characterized by: the infusion monitoring method is divided into a data acquisition unit, a data transmission unit, a data processing unit and a data feedback unit according to the working function.

5. The infusion monitoring method according to claim 4, characterized in that the data acquisition unit comprises a flow rate detection module, a drop detection module and a liquid level detection module, and is executed by the infusion detection device (4).

6. The infusion monitoring method according to claim 5, wherein the flow rate detection module and the droplet detection module are executed by a first detection camera (41), and the liquid level detection module is executed by a second detection camera (42).

7. The infusion monitoring method according to claim 6, characterized in that the first detection camera (41) and the second detection camera (42) are divided into an image capturing module, an image processing module and a signal transmitting module according to working functions.

8. The infusion monitoring method according to claim 4, characterized in that the data transfer unit is implemented as a wireless connection.

9. The infusion monitoring method according to claim 4, characterized in that the data feedback unit comprises a database, a console, a mobile terminal and a flow rate regulating device (5), wherein the database is connected with the console.

10. The infusion monitoring method according to any one of claims 4-9, wherein the console receives the data processed by the data processing unit via the data acquisition unit via the data transmission unit, controls the flow rate adjusting device (5), and receives the signal sent by the mobile terminal.

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