RU108609U1 - ELECTRONIC THERMOINDICATOR FOR CONTROL OF STORAGE AND TRANSPORTATION OF VACCINES, BIOLOGICAL MATERIALS AND PRODUCTS - Google Patents

Abstract

 1. An electronic thermal indicator for monitoring the storage and transportation of vaccines, biological materials and products, characterized in that it contains a printed circuit board with a thermal sensor and a microprocessor, an electric energy source connected to the printed circuit board with electrical conductive contacts, and LEDs connected to the printed circuit board and working in pulsed mode, and a thermal indicator start-up device, while all of the above is placed and fixed in a sealed plastic case with a transparent the lid. ! 2. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that the monitoring results are displayed using LEDs located on a printed circuit board, and the signal from which passes through a transparent housing cover. ! 3. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that a button is used as a trigger device. ! 4. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that a photosensor is used as a trigger device. ! 5. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that an infrared sensor is used as a trigger device. ! 6. Electronic thermal indicator for monitoring the conditions of storage and transportation of vaccines, biological materials and products

Description

The utility model relates to the field of measurement technology and can be used in refrigeration to control the operation of refrigerators, in medicine to control the storage and transportation of immunobiological preparations, biological materials and in the food industry to control the storage conditions of food products.

Manufacturers of thermo-indicator devices are interested in ensuring that their products supplied to the market are reliable and have a long service life. For this purpose, thermo-indicator devices are supplied only with such means that together increase the accuracy of temperature measurement and increase the service life of the product while ensuring the visibility of the control results.

Although various means for measuring and indicating temperature are widely recognized, it is very difficult to satisfy all conflicting customer requirements. On the one hand, it is necessary to ensure a long autonomous life of the device without recharging, provided that the thermal indicators serve in extreme conditions for some components. On the other hand, it is necessary to ensure the visibility of the control results.

In addition, thermometers, temperature sensors with recorders, chemical thermal indicators, and electronic thermal indicators are usually used to control the thermo-temporal conditions.

When storing and transporting biological materials and products in industrial refrigerators and refrigerators, temperature control is carried out using temperature sensors, information from which is stored in registrars. Subsequently, processing the data obtained, they conclude that the conditions are met.

The situation is slightly different when transporting materials in thermal containers and household and medical refrigerators that are not equipped with recorders. In these cases, thermal indicators are used - chemical or electronic, or thermometers.

When transporting, storing and reloading materials from refrigerators to a vehicle and vice versa, it is often impossible to provide the required conditions. In this case, the maximum possible residence time of the materials and product in the corresponding temperature ranges is introduced into these requirements.

For example, liquid vaccines should be stored and transported at (+ 5 ± 3) ° C.

It is unacceptable to freeze vaccines, and prolonged stay of vaccines at temperatures above + 8 ° C:

from + 8 ° С to + 20 ° С - not more than 48 hours,

from + 20 ° С to 30 ° С - no more than 20 hours,

from + 30 ° С to + 45 ° С - no more than 10 hours,

at more than + 45 ° С - no more than 1 hour.

The use of thermometers does not allow such control. For these purposes, chemical indicators are used that, when these parameters are exceeded, begin to show a violation. But the life of chemical indicators is limited to 1 month and do not allow for end-to-end monitoring from the manufacturer to the consumer during the entire time of storage and transportation. The total storage time for vaccines, subject to conditions, is 12 months.

In this direction, it is known, for example, that a technical solution is an electronic thermal indicator containing integrated temperature sensors connected to an electronic unit including a measuring transducer, a computing unit, a digital indicator, an audible warning device and auxiliary functional units (RU 2073217 C1. 1997).

The above electronic thermal indicator, made in the form of a compact thermometer, allows you to measure the temperature, for example, of liquid and granular substances.

However, it is not informative enough.

The closest in technical solution and the achieved results is the “Thermotest” for cold chain monitoring “Thermotest” (Internet site), which is designed to monitor the storage and transportation of liquid vaccines (medical and immunobiological preparations).

The thermal indicator consists of a printed circuit board with a temperature sensor, a processor, a power source and a liquid crystal display, placed in a plastic case.

The disadvantage of this device is:

- a limited period of operation of the thermal indicator, not exceeding 3 months, despite the fact that the shelf life of immunobiological preparations is 9-12 months;

- the readings of the liquid crystal display can be discerned only by removing the thermal indicator from the controlled space and bringing it closer to the eyes by 30-40 cm, which leads to the accumulation of errors and distortion of the control results;

- the thermal indicator does not give the results of the integral effect of temperature during storage;

- the thermal indicator does not allow to take readings of specific temperature values.

The proposed solution of an electronic thermal indicator makes it possible to eliminate the aforementioned shortcomings and expands the amount of information indicated by the thermal sensor.

The technical result of the claimed utility model consists in developing a more reliable design of an electronic thermal indicator with an increased service life, which would satisfy high consumer qualities at an affordable cost and, as a result, increase usability for the consumer and eliminate the disadvantages of the above analogues.

The indicated technical result is achieved in that the electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products consists of a printed circuit board with a temperature sensor, a microprocessor, a battery, represented, for example, by a lithium battery, and contacts connected to the printed circuit board that conduct electrical energy, a thermal indicator start-up device, represented for example by a photosensor or two contacts separated by a strip of dielectric material or a hedge or infrared sensor or a combination of the above elements and LEDs of different colors connected to the printed circuit board, operating in a pulsed mode, which is one of the essential signs of ensuring the claimed technical result, because such a mode of operation does not require a large amount of electrical energy, thereby increasing the resource of the device. In addition to the above, the pulsed operation of the LEDs allows you to increase the life of the thermal indicator up to 24 months. This circumstance allows for end-to-end control from the manufacturer to the consumer throughout the life of the vaccine.

Besides:

- the thermal indicator is placed in a sealed plastic case with a transparent cover;

- indication of the control results is carried out using LEDs located on the printed circuit board and the signal from which passes through the transparent cover of the plastic case of the thermal indicator.

- a plastic label made on a plastic film with an adhesive layer with inscriptions, markings and windows for LEDs through which the LED signal passes can be glued onto a transparent cover, or the marking can be applied directly to the cover. Each LED or a combination of them indicates a corresponding signal, indicating compliance or violation of conditions, or a specific temperature reading.

The device is illustrated in the drawing, where figure 1 shows the device in section.

The positions in the drawing indicate:

Printed circuit board 1, starter 2, transparent cover 3, LEDs 4, plastic label 5, microprocessor 6, thermal sensor 7, plastic case 8, power source (element) 9, power supply contacts 10.

The operation of the device is as follows:

The thermal indicator during operation constantly gives a signal by LEDs in a pulsed mode. Bright flashes of LEDs allow you to take readings without touching or pulling the thermal indicator out of the controlled environment. Before use, the temperature indicator should be in sleep mode when there is no energy consumption and temperature measurement, and should be started without the possibility of stopping operation to exclude the possibility of making changes to the control results. The consumer thermal indicator is used once. The start of the thermal indicator can be carried out by a start device, which can be used as either a photo sensor, or an infrared sensor, or a button, or the removal of dielectric material between two contacts (for example, a polymer film).

The thermal indicator gives the following signals:

- the norm

- partial freezing (10% of the mass of 1 g of water),

- complete freezing (1 g of water),

- integral overheating,

- overexposure for more than 48 hours at a temperature of + 8 ° C to + 20 ° C,

- overexposure for more than 20 hours at a temperature of + 20 ° C to + 30 ° C,

- overexposure for more than 10 hours at a temperature of + 30 ° C to + 45 ° C,

- overexposure for more than 1 hour at a temperature of more than + 45 ° C.

The microprocessor included in the thermal indicator allows you to record any program and any control mode, for example, the control mode for storing frozen foods.

The design of the temperature sensor described in this example and depicted on graphic materials is not the only one possible for solving the above technical problem and does not exclude other options for its manufacture containing a combination of features included in the utility model formula.

Claims (6)

1. An electronic thermal indicator for monitoring the storage and transportation of vaccines, biological materials and products, characterized in that it contains a printed circuit board with a thermal sensor and a microprocessor, an electric energy source connected to the printed circuit board with electrical conductive contacts, and LEDs connected to the printed circuit board and working in pulsed mode, and a thermal indicator start-up device, while all of the above is placed and fixed in a sealed plastic case with a transparent the lid. 2. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that the monitoring results are displayed using LEDs located on a printed circuit board, and the signal from which passes through a transparent housing cover. 3. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that a button is used as a trigger device. 4. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that a photosensor is used as a trigger device. 5. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that an infrared sensor is used as a trigger device. 6. An electronic thermal indicator for monitoring the storage and transportation conditions of vaccines, biological materials and products according to claim 1, characterized in that the thermal indicator starts up by removing the dielectric material between the two contacts.