SU805154A1 - Device for registering construction material thermophysical characteristics - Google Patents

Description

(54) DEVICE FOR DETERMINATION OF THERMOPHYSICAL CHARACTERISTICS OF MATERIALS OF STRUCTURES

I

The invention relates to the field of determining the thermal and thermal characteristics (thermal conductivity, thermal diffusivity, heat capacity) of a capillary porous liquid of wet materials of building structures,

Devices are known for determining the thermophysical characteristics of materials containing a flat heater, a temperature sensor, a reference body, a heat source to a measuring device, for recording the temperature il.

The disadvantage of these devices is the need for the location of the Dat, the temperature inside the construction material, which does not allow to determine the desired characteristics without compromising the integrity of the material, j

The closest to the invention to the technical essence is a device for determining thermophysical characteristics, which contains, in addition to a flat heater and a measuring device for temperature, also electrodes located along both the electrodes of the plates of the material under study and included in the system of measurements of the electrical parameter, for example, resistance {2.1 .

The drawback of the device is the T & C of the racP (5 Loisenko electrodes. On both sides of the plies of the material under study, which does not allow the use of the known device, if necessary, of a single-sided Access to the C5 of the construction.

The purpose of the invention is to improve the accuracy of determination without violating the integrity of the studied structure.

Claims (2)

The goal is achieved by the fact that a device with an additional additional flat electrode, located coplanarly with a heater that simultaneously serves as a second electrode, which, together with an additional electrode, forms a capacitive volume humidity sensor connected to a capacitance meter. The drawing shows the scheme of the device The scheme of the device contains a flat heater 1, a sensor, 2 temperatures, a reference body 3 ,. additional electrode 4. Measuring devices for temperature, capacitance, and a source of pulse heating are not shown in the drawing. To determine the thermophysical characteristics, the device is installed on the surface of the material in the structure under study so that the flat heater 1 with the temperature sensor 2 and the positive electrode 4 have direct contact with the surface of the material. The device works as follows. The source is switched on, pulse heating, from which a heat pulse is transmitted through heater 1 to the surface of the material under study. At the initial moment of switching on the heating, the temperature n of the material surface is maximum. The temperature change over time is recorded by a temperature meter connected to the temperature sensor 2. At the same time, the heater 1 and the additional electrode 4 form a capacitive sensor with coplanar electrodes. This sensor converts the information about the volume of the material under investigation into the electrical capacitance by measuring the electrical permeability of the material. . . The device allows to obtain results of determining the thermophysical characteristics of the material directly in the structure without disturbing its integrity with unilateral access to it, it will find a wide application in production quality control of finished products at construction enterprises or with field studies of building envelopes. Apparatus of the invention for determining the thermophysical characteristics of materials of construction, comprising a flat heater, a temperature sensor, a reference body, a heating source and a measuring device for temperature registration, characterized in that, in order to improve the determination accuracy without disturbing the integrity of the structure under study, it is equipped with an additional flat electrode located coplanarpo with a heater that serves as a simultaneous electrode, -. together with an additional electrode forms a capacitive capacitance sensor connected to a capacitance meter. Sources of information taken into account in the examination 1. Dmitrovich A, D. Determination of the thermophysical properties of building materials. M., stroiizdat, 1963, p. 95,108. 2. Authors certificate of the USSR NO 415564, 101. GOlN 25/18, 1972 (prototype). fJcGJtedyefra