RU1828753C - Device for metering intravenous injections - Google Patents

Abstract

Usage: medical equipment, devices for automatic infusion of drugs. SUMMARY OF THE INVENTION A drop sensor, a liquid level sensor, an air bubble sensor, a control unit with information input and output devices, a correction unit and an alarm function processing unit are introduced into the device for dosed intravenous infusion. The pumping device is designed as a metering pump with an electric drive, the working segment of which is installed with the possibility of acting on the outer wall of the air line. The drop sensor output is connected to the input of the correction unit and to the first input of the alarm function processing unit, the output of the liquid level sensor is connected to the second input of the alarm function processing unit, and the first input is connected to the output of the air bubble sensor. The output of the alarm function processing unit is connected to the inputs of the sensors, and the output of the control unit is connected to the input of the electric drive of the metering pump 1 il. Yo

Description

The invention relates to medical equipment, in particular to devices for infusion of drugs subcutaneously, intramuscularly, intravenously or intra-arterially.

The purpose of the invention is to improve the accuracy of dosing.

The drawing shows a general diagram of a device for dosed intravenous infusion.

The device for dosed intravenous infusion contains a control unit 1. consisting of an information input device 2, a control system 3. an alarm function processing device 4, a correction device 5. information output device 6. A control unit 1 is connected to a metering pump 7. consisting of an electric actuator 8, a pumping device 9, and a sensor unit 10 consisting of a drop sensor 11, which controls the drops, a liquid level sensor 12. that controls the liquid level in the dropper 13 and a bubble sensor ear 14. The guide control carried presence of air bubbles in the system 15. The conductive unit DOTGoedinen sensors to the control unit 1 and performs a feedback system between the conductor 15 and the control system 3 to pumped medium. The drop sensor 11 is connected to the control system 3 through the correction device 5 and the alarm processing device 4, and the level sensors 12 and the air sensor 14 are connected to the control system 3 through the alarm processing device

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functions 4. A standard single-use device consisting of a conductive system 15, of which a dropper 13 is a part, and an air duct 16, is connected to a container 17 that contains intravenous fluid, blood or a blood substitute. The air duct 16 is connected to the working segment 18 of the pumping device 9, to prevent dust particles from being drawn in, a filter 19 is placed at the inlet of the segment 18.

A device for dosed intravenous infusion works as follows.

The fluid flow rate and the volume of the pumped mixture are set by the user using the information input device 2 of the control unit 1. The control signals from the information input device 2 are fed to the control system 3, which in turn starts the electric drive 8 and the pumping device 9 of the metering pump 7 The pumping device 9, crimping the working segment 18, pumps through the duct 16 portions of air into the container 17, with the feed rate of the desired control system 3. Coming into the tank 17, cleaned with a filter 19, the air displaces the liquid volume of bone capacitance 17 which on a conductive system 15 enters the human body. The speed of fluid supply through the conductive system T5 is equal to the speed of air supply to the tank and is set by the control unit 1.

A sensor unit 10 is installed on the dropper 13, which is part of the conductive system 15, which monitors the droplets, the liquid level and the presence of air bubbles in the system 15. The accuracy and constant maintenance of the fluid flow rate is carried out by feedback from the sensor drops 11, by monitoring the passage of drops in the dropper 13 of the conductive system 15, after which the signals of the drop detector 11 enter the correction device 5, where the intensity of the passage of the drops is recalculated and the signals are transmitted section on the control system 3, and then the control pulses on the electric drive 8 of the metering pump 7. At the same time, the control system 3 monitors the total volume of the pumped liquid using the same parameters, which coincides with the volume set by the user at the beginning of work, using the device input information 2, there is a signal to the electric drive 8 and the output device information 6 about stopping the pump 0

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dispenser 7 and turning on the signaling of work completion.

To increase the safety of using the device for dosed intravenous infusion using the sensor unit 10, the following functions are carried out:

1) level sensor 12 - control of the liquid level in the dropper 13, at the drop of which the signals are transmitted to the control system 3 through the alarm function processing device 4, the stop signals are output to the electric drive 8 and the corresponding alarm is activated on the information output device 6.

2) the air sensor 14 monitors the presence of air bubbles in the conductive system 15, upon detection of which the signals are transmitted to the control system 3 through the alarm function processing device 4 and the stop signals of the electric drive 8 are turned on and the corresponding signal is turned on to the information output device 6;

3) drop sensor 11 - control the passage of drops, in the absence of which for a certain time proportional to the specified feed rate, through the alarm processing device 4, the signal is transmitted to the control system 3, which issues a command to the electric drive 8 from the transfer of the metering pump to a low feed (about 1-3 ml / h) to prevent thrombosis of the output needle of the conductive system 15 while the container 17 is being replaced, a signal indicating the absence of drops is also output to the information output device 6. After replacing the container 17, the device restarted by the information input device of the 2nd control system 3 continues to operate taking into account all previously set parameters and the entered liquid volume, i.e. it is possible to maintain process continuity without new readjustments of the installation and replacement of the conductive system and catheter;

4) the droplet sensor 11 and the liquid level sensor 12 monitors the system for a single-use device - a person in case of blockage, followed by the issuance of signals to the control system 3 through the alarm processing device 4 and the output of signals to the electric drive 8 to stop the metering pump 7 and the output device information 6 on the inclusion of an alarm.

The use of a device for dosed intravenous infusions in comparison with the base object can significantly increase the accuracy of dosage of drugs, control and adjust the flow of fluid, establish and regulate the speed and volume of fluid supplied, helps simplify the design, improve ease of use, ensure the safety of the flow of medicines. In the case of pumping blood and blood substitutes, injury to blood cells is prevented due to the absence of mechanical stresses in its passage.

Claims (1)

SUMMARY OF THE INVENTION A device for dosed intravenous infusion containing a sealed vessel with a liquid, having an air line and a discharge device installed on it, and a line with a dropper for supplying a solution, characterized in that, in order to increase the accuracy of dosing, a drop sensor, a level sensor are introduced into it liquids, an air bubble sensor, a control unit with input and output information means, a correction unit and an alarm function processing unit, while the discharge device is designed as Sos-electric dispenser, working segment metering pump is mounted for exposure on the exterior the air line wall, the drop sensor output is connected to the input of the correction unit and to the first input of the alarm function processing unit, the output of the liquid level sensor is connected to the second input of the block processing alarm functions, to the third input of which the output of the air bubble sensor is connected, the alarm processing processing unit is connected to the sensor inputs, and the control unit output is connected to the input of the metering pump electric drive. W I