RU2589749C2 - Control-measuring device for determining thermal parameters of textile materials - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to measurement equipment and can be used for determination of total thermal resistance of textile materials. Disclosed is a control and measuring device for determining thermal parameters of textile materials, including heat accumulator, consisting of a gel in hermetic package, thermocouple with electrical indicator and sample of analysed materials. Hermetic package of heat accumulator is shaped as hollow cylinder, around vertical walls of which runs tape made of analysed materials. Heat accumulator is introduced into a pack of heat-shielding film placed in its turn in rectangular transparent housing with detachable or opening cover, additionally equipped with heating system, as well as system of determination of total thermal resistance of sample of analysed materials, composed of two thermocouples, switches, conductors and electrical indicator, in which EMF meter is used. Device is also equipped with stop watch and portable three-functional control-measuring instrument, providing for definition of local meteorological data, including barometric pressure, humidity and air temperature.

EFFECT: technical result is provision of accuracy and reliability of measurement results.

3 cl, 2 dwg

Description

The invention relates to the clothing, textile and light industry and can be used to determine such a heat engineering indicator, such as, for example, the total thermal resistance of textile materials.

Known control instrument (CIP), which serves to measure the total thermal resistance of fabrics and other types of textiles [1], including a housing, a plate with a diameter of 225 mm with an electric heater, contact, pressure, needle and aerodynamic elements, a fan, a galvanometer, a thermocouple, an autotransformer , power supply, calm air chamber, stopwatch, voltmeter, thermometer, psychrometer, press and a sample of the material under study placed in the device.

The specified device was widely used at sewing, textile and shoe enterprises in Russia and is used to conduct standard analyzes of the quality of feedstock and manufactured products, however, many of the technical characteristics of this instrumentation have not been brought to perfection. At the same time, the known device is still characterized by excessive complexity, cumbersomeness and oversaturation with structural details, as well as secondary additional and auxiliary elements. In addition, such a device does not have the required versatility, compactness and portability, but the operations for fixing, removing and processing information provided for by the technical conditions of its use are significantly overloaded with intermediate and not always rational techniques and require a lot of time to complete them.

A known method and device for measuring the thermal parameters of textiles and other types of plate materials [2], according to which the instrument described in this source is made of a device designed for convenient placement of samples of the medium, a heater, a measuring chamber with a protective casing, a cooling system, a press and sensors for measuring the level of deformation, pressure, resistance, humidity and temperature of the test sample and ambient air, as well as the power source and system We are a computer software company that performs registration and processing of source data plus management of all types of measuring operations provided by the instrument technology.

Such instrumentation has a certain degree of versatility and a certain level of system control, however, it is also characterized by excessive saturation of components, the bulkiness and complexity of the design, the inconvenience and complexity of a number of basic and auxiliary measuring and management operations, their excessive duration and uneconomicity.

A known method for assessing the heat-shielding properties of tissues and sets of fabrics [3], implemented by using instrumentation, consisting of a transparent cylinder, a flat electric heater, resistance thermometer, conductors and power source, as well as a sample of the studied tissues.

Compared to analogs, such a device has a simpler, more reliable and efficient design scheme, but at the same time, it is not entirely justified in the complexity and duration of the operations to fix and take measured readings, as well as their digital processing.

A device for determining the heat-shielding properties of shoes [4], including a camera with a stand for the sample of shoes, a coolant, which is taken as lead shot, two thermocouples with an electric indicator and a temperature regulator.

The well-known instrumentation is distinguished by the simplicity of the design scheme and the relative simplicity of measuring and computing operations, as well as their efficiency and certain reliability, however, protection of personnel and the environment from the toxic effects of lead is not provided at all. In addition, the heat-shielding insert covering the upper part of the cavity of the sample of the studied shoe remains leaky, which directly affects the accuracy and performance of such instrumentation.

As an object closest to the claimed technical solution, a method has been adopted for determining the heat-shielding properties of materials and clothing packages [5], according to which it is carried out by using a control and measuring device to determine the thermal parameters of textile materials, including a heat accumulator consisting of a gel in a hermetic packaging, thermocouples with an electric indicator and the sample of the studied materials.

Such a device, in spite of a certain simplicity and convenience of both the design and its maintenance operations, still has drawbacks, which, in particular, include the need for additional equipment of the device with an autonomous unit for periodically heating the gel and the test sample, as well as providing it with additional sensors designed for continuous or periodic measurement of a number of basic and indirect thermotechnical and electrical parameters, reading and analytical processing which can significantly improve the accuracy and reliability of the instrumentation, as well as the efficiency of its service.

The objective of the invention is to achieve its versatility, portability, mobility, compactness, simplicity and convenience of design and maintenance, as well as ensuring the accuracy and reliability of measurement results.

The solution to this problem is provided by the fact that in a control and measuring device for determining the thermal parameters of textile materials, including a heat accumulator, consisting of a gel in a sealed package, thermocouples with an electric indicator and a sample of the materials under study, the hermetic packaging of a heat accumulator is shaped like a hollow cylinder, around vertical the walls of which a tape made of the studied materials is wrapped, and its opposite ends are tightly connected with the help of an automatic fastener - Velcro, moreover, the thermal battery itself is introduced into a package of heat-protective film, which is placed in turn in a rectangular transparent case with a removable or opening lid, additionally equipped with a heating system made of a ceramic heater, conductors, switch, temperature regulator and power supply; as well as a system for determining the total thermal resistance of a sample of the studied materials, composed of two thermocouples, switches, conductors and an electric indicator, in which the EMF meter is used, a stopwatch and a portable three-function control and measuring instrument that provides determination of local meteorological data, including barometric pressure, humidity and air temperature. In addition, as a gel for a heat accumulator, for example, polyacrylamide with a liquid phase content in the range from 85 to 95% is used, and the tape made of the studied materials has the form of one or more strips of rectangular shape, the length of which is accepted in the range from 186 up to 378 mm with a width of 20 to 60 mm, and the dimensions of the device are selected in height in the range from 250 to 330 mm, length from 180 to 260 mm and width from 100 to 180 mm.

As part of the studied textile materials, we should consider products made from fibers and threads (fabrics, knitwear, non-woven and duplicated materials, felting and felt products, cotton wool, nets, textile haberdashery, twisted products), which can also include artificial and natural furs, and sets of these materials.

Features of the design of the proposed technical solution are shown in the drawings, where in FIG. 1 shows a general view of the instrumentation in its frontal projection, and in FIG. 2 is a top view of a heat accumulator, which is a gel placed in an airtight package.

As can be seen from the drawings, the instrument includes: a transparent case (1) of a rectangular shape made, for example, of plexiglass, a portable three-function instrumentation (2) that provides a definition of local meteorological data, including the measurement of barometric pressure, humidity and air temperature i.e. a combination in one case of a barometer, hygrometer and thermometer; a system for determining the total thermal resistance of the test sample (8), consisting of thermocouples (3), one of which is located in the upper part of the housing (1), and the other is inserted directly into the gel (10), switches (4), conductors (5) and a meter of electromotive force (EMF) (6) in this system (3, 4, 5, 6); a package of heat-protective film (7); a sample (8) of the test material or a set of such materials; hollow hermetic packaging (9) of a cylindrical shape filled with gel (10), representing together a heat accumulator (9, 10); heating system (4, 5, 11, 12, 13) made of a switch (4), conductors (5), a temperature regulator (11), an electric power source (12) and a ceramic heater (13) introduced directly through hermetic packaging (9 ) in the gel (10); as well as a stopwatch (14). In addition, in the preparation of samples (8) of the studied materials, designed in the form of rectangular tapes, Velcro fasteners (15) were used, which equip the opposite ends of such tapes in order to wrap them tightly around the vertical walls of the hollow cylinder of the hermetic package (9) .

To ensure the preparation of the studied samples (8) and the described device for operation, to take the values of the necessary electrical and thermotechnical parameters, including the cooling time of the samples (8), and to analyze them analytically, one should use recommendations [5], according to which the surface area of the studied (s) of sample (s) (8), time of its (their) cooling in a heat accumulator (9, 10) in a given temperature range, as well as specific heat and gel mass (10) in a heat accumulator (9, 10). In addition, the operation of the described device is ensured by timely switching on and switching of the upper electrical circuit (see Fig. 1), which causes the triggering of the system for determining the total thermal resistance (3, 4, 5, 6) using thermocouples (3), including air in the housing (1) and gel (10), as well as the lower wiring diagram (see ibid.), which activates the heating system (4, 5, 11, 12, 13).

As follows from FIG. 1 and 2 of the graphic illustration of the claimed device, all its parts, nodes, elements and parts are assembled in a single set inside and outside the housing (1), placed on a laboratory bench or a special stand. Through the upper removable or opening cover (not shown in the drawings), a heat accumulator cylinder (9, 10) is inserted and installed on its bottom into the housing (1), around which the tape of the test sample (8) or a set of such tapes (8) are wrapped. Polyacrylamide, gelatin, agar-agar and pectin were considered as an acceptable gel of chemical composition; moreover, it was found that, in terms of cooling rate, environmental safety and economy, subacrylamide (PAA), which is a synthetic polymer based on acrylamide and its derivatives (-CH ₂ CHCONH ₂ -) _n . The main application of PAA is as an inexpensive and non-toxic water-soluble polymer with the properties of a polyelectrolyte. Moreover, this compound is officially approved by Rospotrebnadzor for use on an industrial scale as a safe coagulant and flocculant for the preparation of drinking water and the treatment of all types of wastewater. PAA is also used as a gel in the chemical industry, the production of mineral fertilizers, in molecular biology, and in the extraction and processing of oil and gas condensate.

The opposite ends of the tape or sample tapes (8) of the test materials (see Fig. 2) are connected by means of a Velcro fastener (the so-called “Mestral fastener” or “Velcro fastener”), acting on the principle of burdock, i.e. microhooks are placed on one of the parts of the material bonded in this way, and felt on the other. At the same time, the Velcro fastener assembly is in the form of a ramp, i.e. smoothly converging to nothing (descent) of one end of the tape from the studied materials and the opposite end of the same tape, gradually expanding (lifting).

It should be noted that as a ceramic heater as one of the simplest, most reliable and economical heating devices, domestic heating elements of the chromitlantane, disilicide molybdenum or silicon-silicon type can be adopted; thermocouples - domestic thermoelectrodes - copper and constantan, chromel and copel or chromel and alumel; meteorological instrumentation - portable domestic devices such as "Hunter", "Fisherman" or "Ship" of the company "Brik"; and the stopwatch - the domestic sports three-shooter stopwatch of the Glory brand.

Thus, in the described composition, the claimed device can be fully prepared for operational changes, which include sequential switching on, switching and switching off heating systems and determining the total thermal resistance of the medium. At the same time, a stopwatch is needed for accurate timing of the cooling time of a sample of the studied material or a set of such materials. For the entire period of a specific measurement of technological parameters with the help of this instrument, from its start up to its stop, all intermediate operations are recorded in the workbook in the form of corresponding records of the readings of the EMF meter, stopwatch, barometer, hygrometer and thermometer, as well as the operational constants of the device itself , after which these data are entered into the algorithm for the analytical calculation of the desired indicator of the total thermal resistance of the studied sample (s) according to the recommendations [5].

Information sources

1. GOST 20489-75 *. Materials for clothes. Method for determining the total thermal resistance. - M .: Publishing house of standards, 1986. - 10 p.

2. A method and apparatus for measuring the thermotechnical parameters of textile products and other types of plate materials. Patent for invention US 6116777 (G01N 33/37, G01N 25/18, Barbara Hildegard Pose, 09/12/2000).

3. A method for evaluating the heat-shielding properties of tissues and tissue packets. Patent for invention RU 2012875 (G01N 25/18, NPK TsNIISherst, 05.16.1994).

4. A device for determining the heat-shielding properties of shoes. Copyright certificate for the invention SU 1173288 (G01N 25/18, MINH named after G.V. Plekhanov, 08/15/1985).

5. A method for determining the heat-shielding properties of materials and clothing packages. Patent for invention RU 2527314 (G01N 25/18, OGIS, 07/08/2014).

Claims (3)

1. A control and measuring device for determining the parameters of textile materials, including a heat accumulator consisting of gel in an airtight package, thermocouples with an electric indicator and the sample of the materials under study, characterized in that the hermetic package of the heat accumulator is shaped like a hollow cylinder, which is wrapped around its vertical walls the tape made of the studied materials, and its opposite ends are connected using a Velcro fastener, and the heat accumulator itself is inserted camping into the package of heat shielding films, placed in turn in a rectangular transparent housing with a removable cover or opening, further equipped with a heating system arranged in the ceramic heater, the conductors, the switch controller and the power source; as well as a system for determining the total thermal resistance of a sample of the studied materials, composed of two thermocouples, switches, conductors and an electric indicator, in which the EMF meter is used, a stopwatch and a portable three-function control and measuring instrument that provides determination of local meteorological data, including barometric pressure, humidity and air temperature. 2. The control and measuring device according to claim 1, characterized in that, for example, polyacrylamide with a liquid phase content in the range from 85 to 95% is used as a gel for the heat accumulator. 3. The control and measuring device according to claim 1, characterized in that the tape made of the studied materials has the form of one or more strips of rectangular shape, the length of which is taken in the range from 186 to 378 mm with a width of from 20 to 60 mm, and the housing dimensions devices are selected in height in the range from 250 to 330 mm, length - from 180 to 260 mm and width - from 100 to 180 mm.

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