RU212052U1 - Irreversible critical temperature indicator - Google Patents

Abstract

The utility model relates to temperature control methods and irreversible thermal indicators and can be used to control the conditions of storage and transportation of temperature-sensitive objects - food, medicines, plants. The thermal indicator contains a sticky adhesive layer, a substrate made of an air- and waterproof flexible material, a critical temperature excess indication layer, which includes two chemical reagents separated by a barrier layer made of a refractory brittle material, on which direct mechanical action activates the thermal indicator, and a protective transparent film, wherein one of the reagents has a melting point that determines the indicator response temperature, and the second reagent is also responsible for indicating the total temperature-time effect and is made of a porous material containing a dye that changes its optical properties when interacting with the first reagent. This thermal indicator allows you to register the fact of exceeding the critical temperature and evaluate the temperature time on the control object, while the design once allows you to activate its thermal indicator properties immediately before applying it to the control object.

Description

The utility model relates to methods of temperature control and thermal indicators and can be used to control the conditions of storage and transportation of temperature-sensitive objects - food, medicines, plants.

A device "Material for determining temperature, ink for determining temperature using this material, temperature indicator for goods management systems" (JP 2018179826 A, IPC B65H 29/22, B65H 31/36, priority date 17.04.2017, publication date 15.11. 2018). The invention relates to materials and devices based on them for determining the temperature and protecting the preservation of fresh fruits, vegetables, and vaccines. The temperature indicator of the present invention consists of two temperature indicator materials. Both include leuco compounds, a color developing agent, and a bleaching agent, and have a hysteretic color density temperature response. The indicator informs about the excess and decrease of the required storage temperature. However, the indicator properties are effective from the moment the device is manufactured and require compliance with the temperature regime of storage and transportation prior to application to the test object, preventing the activation of thermal indication.

Known device "Multifunctional indicator of time-temperature" (US 5057434 A, IPC G01K 3/04, priority date 29.08.1989, publication date 15.10.1991). EFFECT: invention allows accurate monitoring of the state of a perishable product, which is achieved by integrating two types of indicators in one device - a primary indicator that changes color as a result of a cumulative temperature-time effect, and a threshold second indicator. Structurally, it is a layer of the first chemical reagent, in which a color change appears as a result of a cumulative temperature-time effect; a second reactant layer that is capable of melting at a given temperature; and a third reactant capable of causing a color change only as a result of melting the second reactant, and wherein the color change of the first and third reactants is used together to obtain information about the duration of exposure to temperature. However, the activation of the temperature-sensitive properties of this device is not provided.

Known device "Temperature-time indicator" (EP 1913351 A1, IPC G01K 11/06, priority date: 07/27/2005, publication date 04/23/2008) to control the storage temperature of perishable or heat-sensitive products, which is a pattern of complex shape, made of ink based on two different types of wax with different melting points. However, this invention does not provide for the activation of temperature-indicating properties.

Known device "Freeze Indicator" (US 5239942 A, IPC G01K11/06, priority date: 05/11/1992, publication date: 08/31/1993), containing a fragile ampoule with a liquid that expands upon freezing, a dye dissolved in the liquid, and a nucleating agent, moreover, the ampoule is enclosed in a blister of a transparent film, the blister is glued to the substrate, the inner surface of the blister is covered with an absorbent layer consisting of a binder wetted by a liquid and a filler, due to which, when the ampoule is broken, the liquid containing the dye is absorbed by the absorbent layer, causing staining to change the absorbent layer is visible through the transparent film. However, this device works only when the temperature drops below the critical one and does not allow the activation of thermal indicator properties at the request of the user under external mechanical action - the destruction of a fragile ampoule with a dye occurs by indirect mechanical action when the liquid expands due to freezing. In addition, the described design is quite large, since it contains a glass ampoule, which limits its scope.

Known device "Visible indicator of temperature rise after cooling" (CH 585396 A5, IPC G01K11/06, priority date: 02.10.1974, publication date 28.02.1977), which has a tubular body closed at the lower end with a pointed section, the upper end of the body is open , and two compartments are formed by a seal, the lower compartment is filled with dye. The top compartment closes with a domed lid after being filled with opaque absorbent. Cooling the device freezes the dye, which expands and destroys the septum by indirect mechanical action. If the temperature subsequently exceeds the melting point of the dye, it will flow into the absorbent and become visible. However, the described design is rather large and does not allow for the implementation of a flat layered form factor, and when solving the problem of independent control of a large number of small objects (for example, vaccines in a package), it is not applicable and does not look economically feasible.

The prototype of the proposed utility model is the "Two-functional heating indicator" (US 10514340 B2, IPC G01N 21/78, priority date 11/08/2018, publication date 12/24/2019). This invention relates to devices for visual indication of the temperature history of the indicator, including both recording the impact of the critical temperature and the cumulative effect of ambient heat and consists of an adhesive adhesive layer, a substrate, a critical temperature excess indication layer, which contains two chemical reagents separated by a fusible barrier, with a melting point that determines the response temperature of the indicator, and a layer of indication of the cumulative temperature-time effect, protected by a transparent film. This device can be used to control the temperature regimes of storage and transportation of heat-sensitive products. The disadvantage of the prototype is the impossibility of activating its thermal indicator properties when applied to the temperature control object, and as a result, the increase in costs associated with the need to produce, store and transport the indicator at low temperatures to the control object.

The task to be solved by the present utility model is to reduce the costs described above, while maintaining the ergonomics of the device.

The technical result consists in the possibility of activating the indicator properties of a layered thermal indicator by direct external mechanical action.

The essence lies in the fact that the irreversible thermal indicator of the critical temperature contains a sticky adhesive layer, a substrate made of an air- and waterproof flexible material, a layer of indication of exceeding the critical temperature, including two chemical reagents, which are separated by a barrier layer made of a refractory brittle material, a direct mechanical the impact on which activates the thermal indicator, and a protective transparent film, while one of the reagents has a melting point that determines the temperature of the indicator, and the second reagent is also responsible for indicating the total temperature-time effect, and is made of a porous material containing a dye that changes its optical properties when interacting with the first reagent.

The ability to activate the thermal indicator properties of the thermal indicator is achieved by changing the integrity of the barrier under direct mechanical action at the time of application to the test object when it is included in the cold delivery chain. As a result, when the critical temperature is exceeded, one of the reagents passes into a liquid state of aggregation and interacts with the second reagent through the damaged barrier. Due to the interaction, the second reagent is destroyed, changes color and loses its luminescent properties. When using a porous material with a dye - nanocrystals of organic-inorganic lead halide perovskite ABX ₃ as a second reagent, where cation A is methylammonium (MA) or cesium (Cs), cation B is lead (Pb), X is an anion consisting of a combination of iodine (I), bromine (Br) and chlorine (Cl) halides, it becomes possible, by changing the anionic and cationic composition, to vary the position of the photoluminescence line in the entire visible spectral range. Due to this, it becomes difficult to hide the fact of violation of the temperature conditions of storage and transportation of the control object by replacing the thermal indicator with a serviceable one, due to the presence of a unique composition of the luminescent reagent with a given position of the photoluminescence line, which allows, within the framework of one device, to register the fact that the critical temperature of the indicator has been exceeded and to estimate the time of the temperature exposure, activate the thermal indicator immediately before applying it to the test object and protect the thermal indicator from forgery due to the luminescent properties of the thermal indicator material.

The essence of the utility model is illustrated by a figure, which shows a diagram of the proposed device. The thermal indicator consists of a sticky adhesive layer 1, a substrate 2 made of an air- and waterproof flexible material, a layer for indicating the excess of the critical temperature, which includes a fusible reagent 3, which is a mixture of water and dimethyl sulfoxide (DMSO), separated by a fragile refractory barrier 4 from the second reagent 5, made of a porous material with a dye - with nanocrystals of organic-inorganic lead halide perovskite, protected from interaction with the environment by a transparent air- and waterproof film 6.

The device works as follows. Immediately before being applied to the control object, the thermal indicator from normal conditions is placed in conditions with a temperature below the critical response temperature and activated by mechanical destruction of the barrier layer 4, after which it is applied to the control object using an adhesive adhesive layer 1. As a result, when the phase transition temperature is reached fusible reagent 3, through the damaged barrier layer 4 it comes into contact with the reagent 5, which leads to the irreversible decay of the organic-inorganic lead halide perovskite nanocrystals contained in it into salts of individual reagents, accompanied by a change in the color of layer 5 and the loss of its luminescent properties. The process of distribution of reagent 3 in a porous material depends on time, due to which, by the size of the area that has changed color, it is possible to draw a conclusion about the duration of the total temperature-time effect on the object of temperature control.

The critical operating temperature of the thermal indicator is determined by the melting point of reagent 3 and can vary from -45°C to 18.5°C if a mixture of dimethyl sulfoxide and water in various proportions is used as this reagent.

Table 1. Melting point of an aqueous solution of dimethyl sulfoxide as a function of concentration. No. DMSO content, % Melting point (°C) one 100 18.5 2 97.5 12 3 94.5 7 four 91 -3 5 81.3 -45

Thus, the proposed indicator is made in a layered design and allows both to irreversibly register the fact of exposure to a temperature exceeding the critical one, and to estimate the time of the cumulative effect of elevated temperature on the control object. At the same time, the design allows you to activate the thermal indicator properties once, and also increases the level of protection of the indicator from substitution due to the use of perovskite nanocrystals with unique luminescent properties.

Claims (1)

Irreversible thermal indicator of critical temperature, containing a sticky adhesive layer, a substrate, a layer for indicating the excess of a critical temperature, including two chemical reagents separated by a barrier, and a protective transparent film, characterized in that the substrate is made of an air- and waterproof flexible material, and the barrier layer is made of refractory brittle material, direct mechanical impact on which activates the thermal indicator, while one of the reagents is fusible, and the second reagent consists of a porous material containing a dye that changes its optical properties when interacting with the first reagent.

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