RU116643U1 - PRESS FORM FOR MEASURING ELECTRICAL RESISTANCE OF CARBONIZED RESIDUES OF ORGANIC MATERIALS AT EXAMINATION OF FIRES - Google Patents

Abstract

A mold device for measuring the electrical resistance of carbonized residues of organic materials after a fire, containing a guide body, a sleeve, a pallet and a punch equipped with a rubber washer, characterized in that the sleeve is made of steel, has a cutting edge and is equipped with a replaceable polyamide tube, squeezing elements of the pallet and the punch are made in such a way that the coal sample is located in the center of the polyamide tube, and are equipped with rubber washers.

Description

The utility model relates to the field of studying the physical properties of substances, namely, determining the electrical resistivity of carbonized residues of organic materials during the examination of fires, both in laboratory and field conditions.

The utility model can be used in the study and examination of fires.

A known method for determining the temperature and time characteristics of combustion and establishing a fire by examining the physicochemical properties of carbonized residues of organic materials (USSR Author's Certificate No. 1220452 class. G01N 27/04. 1985). To implement this method, it is necessary to measure the electrical resistance of carbonized residues of organic materials under a pressure of 3500-5000 kgf / cm ² . This measurement is carried out at the time of compression of the carbon material sample with a hydraulic press connected to a megohmmeter. The press equipment kit includes a mold in which the sample is directly compressed.

The known mold design consists of a guide body and a pallet, an ebonite sleeve, a rubber washer and a punch installed therein.

When measuring electrical resistance, the pallet and ebonite sleeve are placed in the guide body. After loading a fixed amount of the prepared sample, a punch with a rubber washer is placed in the guide body. Measurement of the resistance of the carbon residue layer is made by a megohmmeter at the time of compression of the mold.

In this system, the electric circuit is closed in an ebonite sleeve when the required density of the carbon sample is reached at the moment of compression. When measuring electrical resistance, the pressure in the mold is such that, when the device is used repeatedly, coal particles diffuse into the walls of the ebonite sleeve, forming a carbon roll, and the sleeve acquires its own conductivity value. Therefore, an electric measuring device records the current passing through both the carbon sample layer and the wall of the ebonite sleeve, which leads to a significant measurement error. After the measurement, the ebonite sleeve must be thoroughly cleaned of coal residues, which does not allow to re-measure the electrical resistance of this sample.

The purpose of the utility model is to increase the accuracy of measurements and preserve the carbon sample as material evidence for repeated measurements.

The goal is achieved by changing existing and adding new elements to the design of the mold. The steel guide bush is equipped with a cutting edge for the preparation of retaining foil linings with a thickness of 80 μm (GOST 745-2003). In the guide body, a chamfer is cut for the input of the cutting edge of the guide sleeve. The dielectric element of the device is a Rilsan PA12 polyamide tube (GOST R 51190-98) with a density of 1.03 g / cm ³ (ISO R1183D) placed in the guide sleeve. The compressive elements of the steel (HRC 55-60) pallet and punch equipped with rubber washers are respectively reduced and enlarged so that the coal sample is located in the center of the polyamide tube.

The essence of the utility model is illustrated by the drawing, where the figure shows a section of the inventive device.

The mold device consists of a guide body 10, a sleeve with a cutting edge 3, a replaceable polyamide tube 9 equipped with retaining gaskets made of foil 4 and 5, a punch 1, a pallet 7, rubber washers 2 and 6.

In the guide body 10 there is a sleeve with a cutting edge 3, with a replaceable polyamide tube 9 installed therein, provided with foil gaskets 4 and 5. The punch 1 and the pallet 7 are equipped with rubber washers 2 and 6 and are placed in the polyamide tube 9.

The measurement of electrical resistivity of coal is as follows.

A replaceable polyamide tube 9 is placed in the sleeve 3 and mounted on a pallet 7 equipped with a rubber washer 6. A foil is superimposed on the cutting edge of the sleeve 3 and a gasket 5 is formed by cutting by pressing, over which a prepared sample of carbon material is placed 8. Similarly to the gasket 5, a foil 4 is formed The guide body 10 is mounted on the sleeve 3 and fixed with a punch 1 equipped with a rubber washer 2. Next, the mold is placed in a hydraulic press. The reading of the megohmmeter connected to the press occurs at the time of compression of the mold.

The electrical resistivity of a sample of carbon material enclosed between the retaining gaskets 4 and 5 is determined by the known calculation method by the value of electrical resistance, taking into account the structural characteristics of the mold (the pressure surface of the punch 1 and the height of the layer of carbon material).

The device of the mold will make it possible to obtain more reliable results of measuring the resistance of carbonized residues of organic materials. A replaceable polyamide tube will allow you to save the studied samples for repeated measurements.

In addition, a replacement tube with a breakdown in it may be attached as material evidence to the materials of a criminal (civil, arbitration) case and an administrative investigation into a fire.

Claims (1)

A mold device for measuring the electrical resistance of carbonized residues of organic materials after a fire, containing a guide body, a sleeve, a pallet and a punch equipped with a rubber washer, characterized in that the sleeve is made of steel, has a cutting edge and is equipped with a replaceable polyamide tube, compressing elements of the pallet and the punch is made so that the coal sample is located in the center of the polyamide tube, and equipped with rubber washers.