RU179373U1 - COMPACT PORTABLE NOTIFICATION MODULE FOR DEVICE FOR CONTROL AND MONITORING OF TEMPERATURE, ADMINISTRATION SPEED OF LIQUIDS AND MEDICINAL SOLUTIONS USED FOR INFUSION THERAPY - Google Patents

Abstract

The utility model relates to the field of medicine. The purpose of the utility model is the treatment and prevention of hypothermia and the complications caused by it, adjusting the rate of administration of the drug solution in the pre-, intra- and postoperative periods, preventing and preventing air from entering the infusion system line. The device’s design includes two digital temperature sensors, three digital panels with buttons for entering the required target liquid heating temperature, the required liquid flow rate and assigning a conditional group number to the device, an optical light refraction sensor, three microcontrollers, two temperature display displays, three digital display panels set parameters of temperature, speed, and a conditionally assigned group, an optical sensor for monitoring the ingress of air into the infusion system line, Ikov pump, heating element, piezoelectric oscillator, transmitter, radio, electronic switch of the heating element and the Peltier semiconductor element, the semiconductor element Peltier notification unit contact wire, the two power sources. This allows you to maintain the optimum temperature and speed of the infused solution qualitatively and safely, to notify of an interruption in the infusion and to prevent air from entering the main line of the infusion system, as well as allowing remote monitoring of the operation of one device or devices grouped by conditional feature. 5 ill.

Description

The utility model relates to medicine, and more particularly to the field of infusion therapy.

The urgency of the problem today is justified by the negative and often fatal influence of the hypothermic and hyperthermic conditions of the human body. Severe forms of hyperthermia and hypothermia pose a threat to life, which determines the importance of their timely recognition and treatment in emergency care. Intravenous administration of cold solutions lowers body temperature and leads to hypothermia, the consequences of which adversely affect human health [1, 2].

A device for heating liquids and medicinal solutions is known, consisting of a container filled with water, the temperature of which is from +40 to + 42 ° C [3].

The disadvantages of this device are the short duration of its performance, the impossibility of objective control of the temperature of the drug solution. Increased risk of injury when working with it.

A device for heating liquids and medicinal solutions, consisting of a wire frame for fixing containers and a heat source [4].

The disadvantages of this device are the inability to uniformly heat the liquid and control the temperature limit of heating.

Known device "Empire - 01". Working on the principle of continuous heating of the liquid by heating the heat exchanger. The device consists of a heat source placed in a ceramic drum on the outer surface of which there are cylindrical grooves where a PVC tube from a disposable infusion system is located. The device is equipped with a digital temperature indicator that displays the temperature of the heated device and a digital temperature controller [5].

The disadvantages of this device are cumbersome and significant weight. The lack of battery life. The device does not provide objective control of the temperature of the medicinal solution at the inlet and outlet when it passes through the device.

A device for heating liquids and medicinal solutions "AMPIRmini" is known. The device includes a housing in which two metal heating plates are placed, a display for displaying the heating temperature of the device, a heat exchanger heating control unit and a battery [5].

The disadvantages of this device is the short duration of its operation from the battery, 3 hours. The device does not provide objective control

  fluid temperature at the inlet and outlet as it passes through the device. It has an insufficient temperature range of the initial infusion solution: from + 18 ° C to + 30 ° C.

A device for heating liquids and medicinal solutions used in infusion therapy. The device includes two buildings and a light refraction sensor connected to each other, one of the buildings performs a control function, and the other housing functions. The device has a power source, a digital panel with buttons for entering the target heating temperature of the solution, a liquid crystal display showing the target heating temperature associated with the microcontroller, form the control part, while the microcontroller is also connected to temperature sensors, with the possibility of installing an infusion system on the highway before and after the heating element, and with liquid crystal displays of the temperature of the solution before heating and the temperature of the heated solution, respectively, by the heating element with an optical element and a Peltier semiconductor element forming the working part, the optical light refraction sensor is configured to detect the movement of fluid in the drip chamber of the infusion system and is connected to the microcontroller [6]. (A Peltier element is a thermoelectric converter, the principle of which is based on the Peltier effect - the occurrence of a temperature difference during the flow of electric current. In English literature, Peltier elements are referred to as a Peltier or thermoelectric module. The basis of the Peltier elements is the contact of two conductive materials with different energy levels electrons in the conduction band.When current flows through the contact of such materials, the electron must acquire energy in order to transfer to a higher energy the conduction band of another semiconductor. When this energy is absorbed, the contact point of the semiconductors is cooled. When the current flows in the opposite direction, the contact point of the semiconductors is heated, in addition to the usual thermal effect).

A device for regulating and controlling the temperature, rate of introduction of liquids and medicinal solutions used in infusion therapy, is transfusion composition pro. The device includes a heating element made in the form of metal plates, a Peltier semiconductor element, a microcontroller for processing temperature information connected to a power source, digital temperature sensors installed on the line of the infusion system before and after the heating element, and displays for displaying the temperature of the solution before heating and the temperature of the heated solution, respectively, by digital panels for entering the temperature and displaying the set heating temperature, and optical dates a refraction light installed with the possibility of fixing the movement of fluid in the drip chamber of the infusion system, as well as a microcontroller for the operation of the roller pump connected to a power source, digital input panels for speed and displaying the specified fluid injection rate, a roller pump, a warning unit and an optical sensor for controlling the hit air to the line of the infusion system, also connected to the microcontroller for processing temperature information connected through an electronic switch a probe with a heating element and a Peltier element [7].

The disadvantages of this device is the lack of a compact portable module for notifying you of the interruption or completion of the infusion process, that is, the medical professional should always find in the immediate vicinity of the device, which is not always convenient and often impossible. And also the lack of the ability to programmatically combine devices into groups to optimize the work with a large number of simultaneously working devices.

This device is taken as a prototype.

The technical result, which is provided by the utility model, is the expansion of the arsenal of tools to improve the quality of parameter control during infusion therapy.

The purpose of creating a utility model is to develop a device for adjusting and controlling the temperature, rate of introduction of liquids, and drug solutions used in infusion therapy, with advanced technical and operational characteristics allowing remote monitoring of the operation of one device or devices united into groups according to a conditional criterion .

This goal is achieved by the fact that the radio transmitter of the integrated notification module is additionally installed in the control part, transmitting information to the compact portable notification module, about the interruption or completion of the infusion process associated with the microcontroller for the operation of the roller pump and the microcontroller for processing temperature information, and in turn the compact portable module alerts associated with the transmitter of the integrated alert module by means of a radio receiver integrated into the compact portable portable warning module associated with the power supply of the compact portable warning module, a digital panel for input and display of the assigned number of the conditional group of the device, a piezoelectric emitter connected to the microcontroller for the compact portable warning module.

The device consists of two digital temperature sensors, three digital panels with buttons for entering the required target liquid heating temperature, the necessary liquid flow rate and assigning the conditional group number of the device, an optical light refraction sensor, three microcontrollers, two temperature display displays, three digital display panels of preset parameters temperature, speed and a conditionally assigned group, an optical sensor for monitoring the ingress of air into the highway of the infusion system, roller about a pump, a heating element, a piezoelectric emitter, a radio transmitter, a radio receiver, an electronic switch for a heating element and a Peltier semiconductor element, a Peltier semiconductor element, a warning unit, contact wires, two power sources.

Comparison of the proposed device with others known in the field of medicine, showed its compliance with the criteria of a utility model.

The utility model is illustrated by graphic material. In FIG. 1 shows a structural diagram of a device for regulating and controlling the temperature, rate of introduction of liquids and medicinal solutions used in infusion therapy, transfusion composition xpro (hereinafter referred to as the Device); in FIG. 2 shows a general view of the Device; in FIG. 3 shows a General view of the control part of the Device; in FIG. 4 shows a general view of the working part and the optical light refraction sensor, FIG. 5 shows a general view of a compact portable warning module. Devices: 1 - control part, 2 - working part, 3 - optical light refraction sensor, 4 - microcontroller for processing temperature information, 5 - microcontroller for operation of a roller pump, 6 - digital panel for displaying the set temperature 7 - temperature input panel, 8 - electronic switch of the heating element and the Peltier element, 9 - digital display panel of the set speed, 10 - speed input panel, 11 - Peltier element, 12 - heating element, 13 - ro face pump, 14, 15 - digital temperature sensors, 16 - power supply, 17, 18 - temperature display displays, 19 - drip chamber, 20 - line of the disposable infusion system, 21, 22 - contact wires, 23 - optical sensor for air entry control to the line of the infusion system, 24 - containers with a medicinal solution, 25 - a wheel for adjusting the fluid flow rate in the system, 26 - an integrated warning unit, 27 - a compact portable warning module, 28 - a piezoelectric emitter, 29 - power supply of a compact portable mode To alert, 30 - digital display panel conventionally assigned to the group 31 - input panel conventionally appropriated group 32 - a microcontroller for compact portable alerting unit, 33 - radio, 34 - the transmitter.

The device is used as follows. Having prepared the system for infusion, the nurse fixes the optical light refraction sensor - 3, on the drip chamber - 19, and installs the working part of the device - 2 on the line of the infusion system - 20 made of silicone or Teflon, opens the wheel for adjusting the fluid flow rate in the system - 25, then presses the power button of the device, sets the desired target temperature for heating the drug solution on the input panel - 7, sets the rate of fluid injection on the input panel - 10. Target values for the heating temperature and speed The fluid injection rate is displayed on the digital panels - 6 and 9, respectively. Assigns a conditional group number (for example, No. 1) on the compact portable notification module — 27, using the digital input panel of a conditionally assigned group — 31, and a conditionally assigned group number on the digital display panel of a conditionally assigned group — 30. The nurse picks up the compact portable alert module - 27 and leaves with him in another ward. Microcontroller - 5 sends the Start signal to the roller pump - 13. Optical light refraction sensor - 3 detects the movement of liquid in the drip chamber - 19 and sends a signal through the contact wire - 22 to microcontroller - 4. Microcontroller - 4 sends the Start signal to the electronic heating switch element and Peltier element - 8 and in parallel reads information from a digital temperature sensor - 15 installed on the line of the infusion system after the heating element - 12. Digital temperature sensor - 14 installed on the line of the infusion system - 20 to the heating element - 12, measures the temperature of the solution before heating and sends information to the microcontroller - 4, through the contact wire - 21. The temperature of the solution before heating is shown on the display - 17. As soon as the temperature on the digital temperature sensor - 15 reaches the target value set by the medical professional, the microcontroller - 4 fixes and maintains the set temperature, if necessary, cooling the heating element with the help of a semiconductor Peltier element - 11. when air is supplied to the infusion system main line, an optical sensor for monitoring air ingress into the infusion system main line - 23 sends a signal to the microcontroller for operation of the roller pump - 5, the microcontroller - 5 sends signals to the microcontroller - 4 and to the microcontroller for the operation of the compact portable warning module - 32. The microcontroller - 32 sends a signal to the integrated warning unit - 26, the radio transmitter - 34 is triggered and transmits an alarm to the compact portable notification module - 27 by means of a radio receiver and - 33. The microcontroller -5 sends "stop" signal on a roller pump - 13. Microcontroller - 4 sends a signal "stop" the electronic switch of the heating element and the Peltier element - 8 and microcontroller - 5 stops the roller pump. The integrated notification unit - 26 and the compact portable notification module - 27 are triggered simultaneously, signaling light and sound signals about the interruption of the infusion process. The whole system is powered by a power source - 16. The compact portable module has a separate power source - 29.

Heating and infusion of the solution is as follows. The light refraction sensor is fixed on a drip chamber, then the working part of the device is fixed on a line prepared and filled with a medicinal solution, a disposable infusion system; the medical staff opens the wheel for adjusting the flow rate in the system, presses the power button of the device, sets the target parameters for the temperature and rate of administration of the drug solution, and also assigns a conditional group number. The device works automatically.

Example No. 1. Patient V., 48 years old, had a medical history 1176/143 who underwent detoxification in the emergency narcological care department of the Samara Regional Narcological Dispensary from 05/15/2017 to 05/25/2017 with a diagnosis of Chronic alcohol intoxication. Abstinence Syndrome ”detoxification procedure has been started, after 180 ml infusion. a solution of sodium chloride 0.9%, the temperature of which was 23 ° C, the patient complains of chills, signs of muscle trembling appear. After infusion, another 120 ml. of the same solution, muscle trembling is more pronounced, the patient begins to panic, actively complains of chills and cold. It was decided to connect a device for regulating and controlling the temperature, rate of introduction of fluids and medicinal solutions used in infusion therapy - transfusion composition xpro (hereinafter referred to as the Device). Having prepared the system for infusion, the nurse attaches the optical light refraction sensor to the drip chamber and installs the working part of the device on the line of the infusion system made of silicone or Teflon, opens the wheel for adjusting the fluid flow rate in the system, then presses the device’s power button and sets the required target temperature heating the drug solution on the temperature input panel, sets the rate of fluid injection on the speed input panel. Target values for heating temperature and fluid injection rate are displayed on digital panels. Assigns the number of the conditional group on the compact portable notification module - No. 1, using the digital input panel of the conditionally assigned group for this, the number of the conditionally assigned group is displayed on the digital display panel of the conditionally assigned group. The nurse picks up the compact portable alert module and leaves with him in another room. The microcontroller for the operation of the roller pump sends a “Start” signal to the roller pump. An optical light refraction sensor detects the movement of fluid in the drip chamber and sends a signal through the contact wire to the microcontroller to process temperature information. The microcontroller for processing temperature information sends a “Start” signal to the electronic switch of the heating element and the Peltier element and in parallel reads information from a digital temperature sensor installed on the line of the infusion system after the heating element. A digital temperature sensor installed on the line of the infusion system to the heating element measures the temperature of the solution before heating and sends information to the microcontroller for processing temperature information via a contact wire. The temperature of the solution before heating is displayed. As soon as the temperature at the digital temperature sensor installed after the heating element reaches the target value set by the medical professional, the controller for processing temperature information captures and maintains the set temperature, if necessary, cooling the heating element using a semiconductor Peltier element. When air enters the line of the infusion system, the optical sensor for controlling air entering the line of the infusion system sends a signal to the microcontroller for the operation of the roller pump, the microcontroller for operation of the roller pump sends signals to the microcontroller for processing temperature information and to the microcontroller for the operation of the compact portable warning module. The microcontroller for the operation of the compact portable warning module sends a signal to the integrated warning unit, the radio transmitter is activated and transmits an alarm to the compact portable warning module by means of a radio receiver. The microcontroller for the operation of the roller pump sends a Stop signal to the roller pump. The microcontroller for processing temperature information sprinkles the Stop signal to the electronic switch of the heating element and the Peltier element, and the microcontroller for the operation of the roller pump stops the roller pump. The integrated notification unit and the compact portable notification module are triggered simultaneously, signaling light and sound signals about the interruption of the infusion process. The whole system is powered by a power source. The compact portable module has a separate power supply.

After an infusion of another 250 ml, the device confirmed its effectiveness. optimal temperature solution: + 36.6 ° C. The patient calmed down, muscle tremors passed, the color of the skin took on a normal, pale pink color.

The proposed device is simple in design and reliable in operation, it is possible and advisable to use it in surgical, toxicological, therapeutic, outpatient, resuscitation, anesthesiology, infectious, oncological, departments and in emergency medical units during infusion therapy.

Information sources:

1. Mallet M.L. Pathophysiology of accidental hypothermia // Q.J. Med. - 2002. - Vol. 95. - P. 775-785.

2. Danzl D.F., Pozos R.S. Accidental hypothermia // N. Engl. J. Med. - 1994. - Vol. 331. - P. 1756-1760.

3. The Feldsher Handbook edited by Professor A.N. Shabanova “Medicine” 1976

4. The rationalization proposal No. 243 of April 10, 2013, Samara State Medical University of Samara.

5. Catalog of medical equipment "TAKHAT".

6. Patent for utility model of the Russian Federation No. 134794 of November 27, 2013.

7. Patent for utility model of the Russian Federation No. 166782 of November 21, 2016.

Claims (1)

A compact portable notification module for a device for regulating and controlling temperature, rate of introduction of liquids and drug solutions, comprising a radio receiver configured to communicate with a radio transmitter of a device for regulating and monitoring temperature, rate of administration of liquids and drug solutions and connected to a microcontroller to which an input panel is conventionally connected assignable group, digital display panel of conventionally assigned group, piezoelectric emitter and power source .

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