CN212016348U - Intelligent replacement infusion system - Google Patents

Abstract

The utility model discloses an intelligent replacement transfusion system, which is characterized by comprising a main control unit, a transfusion device, a medicine warehouse, an input/output unit and a remote access unit, wherein the main control unit is electrically connected with the transfusion device, the medicine warehouse, the input/output unit and the remote access unit; the drug storage is connected with the infusion device; the main control unit is used for globally controlling and monitoring the working state of the infusion system; the transfusion device is used for implementing fine input and output of liquid medicine; the medicine storage is used for storing and providing liquid medicine; the input/output unit is used for inputting and outputting power supply and data; and the remote access unit is used for being connected with other equipment to realize remote access, monitoring and early warning. The infusion system is stable, reliable and humanized to infuse by arranging the main control unit, the infusion device, the medicine library, the input and output unit and the remote access unit.

Description

Intelligent replacement infusion system

Technical Field

The utility model relates to an infusion set technical field specifically is an intelligence replacement infusion system.

Background

The existing intelligent infusion device has some problems in the using process, such as that the infusion speed is not consistent with a set value, an infusion pump has no reason and gives an alarm frequently, the infusion amount is not consistent with the set value, the infusion pump is in fault, hardware is damaged, and the like. Therefore, a need exists for a reliable and user-friendly intelligent replacement infusion system that solves the above problems.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: provides an intelligent replacement transfusion system, thereby solving the problems of unreliable work and poor humanization of the existing device in the using process.

The utility model discloses a solve a technical scheme that its technical problem provided and be: an intelligent replacement infusion system comprises a main control unit, an infusion device, an input/output unit and a remote access unit, wherein the main control unit is electrically connected with the infusion device, a medicine library, the input/output unit and the remote access unit; the drug library is connected with the infusion device;

the main control unit is used for globally controlling and monitoring the working state of the infusion system;

the transfusion device is used for implementing fine input and output of liquid medicine;

the medicine storage is used for storing and providing liquid medicine;

the input/output unit is used for inputting and outputting power supply and data;

and the remote access unit is used for being connected with other equipment to realize remote access, monitoring and early warning.

As an improvement of the above scheme, the infusion device comprises a puncture outfit fixing disk, a fixing disk driving motor, an infusion apparatus, a flow velocity sensor and a flow velocity control device, wherein the fixing disk driving motor is in transmission connection with the puncture outfit fixing disk, the infusion apparatus is connected with the puncture outfit fixing disk and the flow velocity control device, the flow velocity sensor is fixedly connected with the flow velocity control device, and the working surface of the flow velocity sensor is opposite to the infusion tube of the infusion apparatus.

As an improvement of the above scheme, the flow and flow rate control device includes a flow squeezing sheet, a flow and flow rate control motor, a pressure detector, an air detector, and a locking squeezing sheet, the flow and flow rate control motor is connected to the flow squeezing sheet to drive the flow squeezing sheet to reciprocate, and the pressure detector and the air detector are connected to the flow squeezing sheet to sense the pressure borne by the infusion apparatus and the local air content in the infusion apparatus.

As an improvement of the scheme, the device further comprises a locking extrusion sheet for limiting the position of the flow extrusion sheet.

As a further improvement of the scheme, the medicine warehouse comprises a medicine rotating disc, a rotating disc motor for driving the medicine rotating disc to move, and a sensor arranged on the rotating disc and used for positioning.

As an improvement of the above, the sensors include a working position sensor and a home position sensor, a sterilizer position sensor, and a reserve threshold level sensor.

As a further improvement of the above scheme, the input/output unit comprises a loudspeaker, a data input/output end, a touch screen and a power input/output end, and the loudspeaker, the data input/output end and the touch screen are all electrically connected with the main control unit.

As an improvement of the above scheme, the data input/output end is a USB interface.

As a further improvement of the above scheme, the remote access unit includes a fixed end and a handheld terminal, and the fixed end and/or the handheld terminal are connected to the main control unit through a network.

As an improvement of the scheme, the infusion device further comprises an infusion support connected with the infusion device, a dropping speed detection sensor installed on the infusion support, and a control locking device.

The utility model has the beneficial technical effects that: the infusion system is stable, reliable and humanized to infuse by arranging the main control unit, the infusion device, the medicine library, the input and output unit and the remote access unit.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

FIG. 1 is a schematic block diagram of the intelligent displacement infusion system of the present invention;

FIG. 2 is a schematic view of a part of the structure of the intelligent displacement infusion system of the present invention;

fig. 3 is a schematic view of another embodiment of the intelligent displacement infusion system of the present invention.

Detailed Description

The conception, specific structure and technical effects of the present invention will be described clearly and completely with reference to the accompanying drawings and embodiments, so as to fully understand the objects, aspects and effects of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. In addition, the upper, lower, left, right, etc. descriptions used in the present invention are only relative to the positional relationship of the components of the present invention in the drawings.

Fig. 1 is a schematic block diagram of the intelligent replacement infusion system of the present invention, and fig. 2 is a schematic partial structural diagram of the intelligent replacement infusion system of the present invention, referring to fig. 1 and fig. 2, the intelligent replacement infusion system includes a main control unit 10, an infusion device 20, a drug library 30, an input/output unit 40, and a remote access unit 50. And the main control unit 10 is used for controlling and monitoring the working state of the infusion system in a global manner. The infusion device 20 is used for performing fine input and output of a drug solution. The drug storage 30 is used for storing and providing drug solution. And an input/output unit 40 for inputting/outputting power and data.

The main control unit 10 is electrically connected with the infusion device 20, the drug library 30, the input/output unit 40 and the remote access unit 50,and is capable of inputting and outputting physical data.The drug storage 30 is connected to the infusion device 20, and the drug storage 30 supplies a drug solution for infusion by the infusion device 20.

The infusion device 20 comprises a puncture outfit fixed disk 21, a fixed disk drive motor 22, an infusion apparatus 23 and a flow and flow rate sensor 24、Flow rate control device 25A fixed disk position sensor 26 andmotor driver 27The fixed disk driving motor 22 is in transmission connection with the puncture outfit fixed disk 21 through a screw rod, and drives an infusion apparatus 23 mounted on the puncture outfit fixed disk 21 to move, so that the infusion apparatus 23 is communicated with liquid medicine in the medicine storage 30 to perform infusion operation. The infusion apparatus 23 is connected with the puncture outfit fixing disc 21 and the flow and flow rate control device 25, the flow and flow rate sensor 24 is fixedly connected with the flow and flow rate control device 25, and the working surface of the flow and flow rate sensor 24 is opposite to the infusion tube of the infusion apparatus 23, so that the monitoring and control of the flow and the flow rate of the liquid medicine in the infusion tube are facilitated. Master control unit 10 Electrically connected with the fixed disk position sensor 26 and the motor driver 27 respectively, the motor driver 27 and the fixed disk driving motor 22 And (6) electrically connecting.

The flow rate control device 25 includes a flow squeeze plate 251, a flow rate control motor 252, a pressure detector 253, and an air detector 254And a motor driver 259The flow rate and flow velocity control motor 252 is connected to the flow squeezing blade 251 to drive the flow squeezing blade 251 to reciprocate, thereby adjusting the size of the infusion port of the infusion tube on the infusion apparatus 23 and adjusting the flow rate and flow velocity of the infusion tube. The pressure detector 253 and the air detector 254 are arranged, so that the infusion system can control the flow rate of the liquid medicine more reliably and accurately.The main control unit 10 is electrically connected to the motor driver 259, the motor driver 259 and the flow rate The control motor 252 is electrically connected.

Preferably, the device also comprises a locking pressing sheet255. Locking driving motor 256, locking telescopic extrusion component 257 and motor drive Actuator 258，Locking squeeze tab 255The flow compression piece 251 is used for limiting the movement position of the flow compression piece 251 and guaranteeing the stability and reliability of the movement of the flow compression piece 251.The locking extrusion sheet 255 is connected with a locking driving motor 256 through a locking telescopic extrusion component 257, and the main control is realized The unit 10 is electrically connected to a motor driver 258, and the motor driver 258 is electrically connected to the lock-up driving motor 256.

The drug storage 30 comprises a drug rotary disc 31 and a rotary disc motor 32 for driving the drug rotary disc 31 to moveDrug containing rotary drum A medicine storage device 33 and a motor driver 34 on the movable disc 31And is provided atMedicineOn the rotary disc 31A sensor for positioning. The sensor comprising a working position sensor311And origin position sensor312Sterilizer position sensor313And a reserve threshold level sensor314. Working position sensor311Sensor for detecting position of puncture head of infusion apparatus 23 on puncture disk and origin position312Sensor for detecting initial position of puncture head of infusion set 23 on puncture disk and position of sterilizer313The sterilizer detector is used for detecting and positioning the position of the sterilizer, thereby ensuring the accuracy of the sterilizer in place.The main control unit 10 is electrically connected to the motor driver 34.

Preferably, the device further comprises a storage amount critical surface sensor314The device is used for monitoring the lowest liquid level of an infusion bag or an infusion bottle, so that early warning can be performed in advance, the stability and reliability of infusion can be guaranteed, and the potential liquid medicine replacement time can be shortened.

The input/output unit 40 includes a speaker 41, a data input/output end 42, a touch screen 43, and a power input/output end 44, and the speaker 41, the data input/output end 42, and the touch screen 43 are all electrically connected to the main control unit 10. The speaker 41 is used for emitting a warning soundRealize voice broadcast remindingThe data input/output terminal 42 is used for reading data recorded by the main control unit 10 or writing a programTo realize input and output of programs。The main control unit 10 can be connected toTouch screen 43The output signal is sent out to the computer,used for displaying the transfusion state, such as the current transfusion speed, flow rate, transfusion time, the number of bottles or bags for delivering liquid medicine. And also through the touch screen 43To master control list The cell 10 is fed with a signal that,the infusion speed is adjusted.The power input/output terminal 44 includes a power adapter 441 and a battery power 442 The adapter 441 is electrically connected to the battery power source 442, and the battery power source 442 is electrically connected to the main control unit 10.

The preferred data input/output end 42 is a USB port, which can be a Micro USB or USB A-Type or Type-C port, without limitationData ofThe type of the input/output end 42 can be adjusted according to different application scenarios during actual use.

The remote access unit 50 comprises a fixed terminal51And a hand-held terminal52Is fixed toTerminal device51Can be used to nurse station's use, handheld terminal52Can be held by medical staff or family members of patientsIs convenient for the family members of the patient to remotely express care. The preferred hand-held terminal can be a mobile phone for installing specific application programs(such as nurse-specific APP)The formed terminal device.

More fixed terminals and/or handheld terminal connect through ethernet, wiFi, GPRS, convenient management and look over, compare in traditional infusion set, the utility model discloses an infusion set for medical personnel, patient, the understanding infusion progress that patient's family members can be convenient have improved current infusion system's humanized degree.

The intelligent replacement transfusion system further comprises an injection pump 80, and the main control unit 10 is electrically connected with the injection pump 80.

Fig. 3 is a schematic diagram of another embodiment of the intelligent replacement infusion system of the present invention, referring to fig. 3, comparing with the embodiment of fig. 2, the difference is that it further includes a single infusion support 60 connected to the drug storage 30, the lower portion of the infusion support 60 is provided with a monitoring dripping speed sensor 61 and a control locking device 70, the detection dripping speed sensor 61 is electrically connected to the main control unit 10, and the control locking device 70 is electrically connected to the main control unit 10. Monitoring and regulation is performed by the main control unit 10. The other structure is the same as that of the embodiment in fig. 2. In practical application, the infusion can be performed at the side with the drug storage 30, and the infusion operation can be performed by arranging a blood bag at the side without the drug storage 30.

More, still can set up two sets of infusion sets that are the symmetry setting and have medicine storehouse 30 to be applicable to and carry simultaneously, but the transport operation of the liquid medicine that can not produce harm to the human body, greatly reduced infusion time reduces operating personnel's intensity of labour.

The utility model discloses intelligence replacement infusion system's operating procedure does: firstly, an infusion pump is installed, then a power switch of an infusion system is turned on, the infusion system carries out self-checking, an infusion bottle is installed, infusion parameters are set, then the infusion tube is installed, then the infusion tube exhausts air and is connected with a patient and the infusion device after liquid medicine is stably output, then infusion is started, when infusion of a bottle of liquid medicine is about to end, infusion bottle switching is carried out, and after infusion of all liquid medicines to be infused is completed, a nursing staff is informed through a main control unit to pick up residual articles and shut down.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An intelligent replacement infusion system is characterized by comprising a main control unit, an infusion device, a medicine library, an input/output unit and a remote access unit, wherein the main control unit is electrically connected with the infusion device, the medicine library, the input/output unit and the remote access unit; the drug library is connected with the infusion device;

the main control unit is used for globally controlling and monitoring the working state of the infusion system;

the transfusion device is used for implementing fine input and output of liquid medicine;

the medicine storage is used for storing and providing liquid medicine;

the input/output unit is used for inputting and outputting power supply and data;

and the remote access unit is used for being connected with other equipment to realize remote access, monitoring and early warning.

2. The intelligent replacement infusion system of claim 1, wherein the infusion device comprises a puncture outfit fixing disk, a fixing disk drive motor, an infusion set, a flow rate and flow velocity control device, the fixing disk drive motor is in transmission connection with the puncture outfit fixing disk, the infusion set is connected with the puncture outfit fixing disk and the flow rate and flow velocity control device, the flow rate and flow velocity control device is fixedly connected with the flow rate and flow velocity control device, and the working surface of the flow rate and flow velocity sensor is right opposite to the infusion tube of the infusion set.

3. The intelligent displacement infusion system of claim 2, wherein the flow and flow rate control device comprises a flow squeezing sheet, a flow and flow rate control motor, a pressure detector, an air detector and a locking squeezing sheet, the flow and flow rate control motor is connected with the flow squeezing sheet to drive the flow squeezing sheet to reciprocate, and the pressure detector and the air detector are connected with the flow squeezing sheet and used for sensing the pressure born by the infusion apparatus and the local air content in the infusion apparatus.

4. The intelligent replacement infusion system of claim 3,the above-mentionedThe locking pressing sheet is used for limiting the position of the flow pressing sheet.

5. The intelligent replacement infusion system of claim 1, wherein the drug depot comprises a drug turn disc, a dial motor for driving the drug turn disc to move, and a sensor disposed on the turn disc for positioning.

6. The intelligent replacement infusion system of claim 5, wherein the sensors comprise a work position sensor and a home position sensor, a sterilizer position sensor, and a reserve threshold sensor.

7. The intelligent replacement infusion system of claim 1, wherein the input and output unit comprises a speaker, a data input and output end, a touch screen, and a power input and output end, and the speaker, the data input and output end, and the touch screen are electrically connected to the main control unit.

8. The intelligent substitution infusion system of claim 7, wherein the data input and output is a USB interface.

9. The intelligent replacement infusion system of any one of claims 1-8, wherein the remote access unit comprises a fixed terminal and a handheld terminal, and the fixed terminal and/or the handheld terminal is connected to the master control unit via a network.

10. The intelligent replacement infusion system of claim 9, further comprising an infusion support coupled to the infusion device, a drop rate detection sensor mounted to the infusion support, and a control lock.

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