RU4831U1 - DEVICE FOR EXPRESS CONTROL OF SOIL INFECTION - Google Patents

Abstract

1. A device for express control of soil contamination, including a cylindrical chamber of the sampler and a heating element, characterized in that it is equipped with a movable frame with a rubber casing and a rod, on which an automatic gas analyzer with a flow inducer is installed, the cylindrical chamber of the sampler is equipped with a bell in the lower part and a tube connecting the sampler chamber to the automatic gas analyzer, in the upper one, and is mounted on a movable frame inside the rubber casing, and the heating element is bzhen otrazhatelem.2. The device according to claim 1, characterized in that the heating element with a reflector is installed in front of the sampler chamber in the direction of movement of the frame. The device according to claim 1, characterized in that the bell of the sample chamber is located at a distance of 2 to 4 cm from the soil surface.

Description

DEVICE FOR EXPRESS CONTROL OF SOIL INFECTION

The utility model relates to the control of environmental pollution, in particular, to the control of soil (soil) contamination with toxic substances, rocket fuel components and other pollutants, and can be used to outline the boundaries of the site of contamination of the terrain by rocket fuel components at the places where the separated parts of rockets and the strait fall fuels and lubricants.

A device is known - a military chemical reconnaissance device (VPHR), which is designed to determine poisonous substances (S), such as sarin, soman, V-gases, hydrocyanic acid, chlorocyanine, etc., in the air, on the ground, and in military equipment (Instructions for use of VPHR 1970)

The device consists of a housing with a cover and a hand pump placed in them, paper cassettes with indicator tubes, nozzles for the pump and heating pads. To determine the toxic substances in the soil and in bulk materials, it is necessary to use a spatula to take a sample of the topsoil in the most infected place, pour the sample into the nozzle funnel, filling it to the edges, pump air through the indicator tube, making the pump the required number of swings, and then remove from pump head indicator tube and conduct the determination of toxic substances. Fillers indicator tubes from exposure to OV painted. The reliability of the determination of OM using indicator tubes is ensured at a temperature of more than 10-15 ° С, at lower temperatures the indicator tubes lose their working capacity, therefore, for the successful use of tubes at low temperatures, the use of a heating pad is necessary.

MKH "G01N33 / 24

The disadvantages of using the known device are the complexity of sampling, the visibility of the determination of OM and the frequency of control, which virtually eliminates the possibility of accurately determining the boundaries of soil contamination.

The closest in technical essence to the proposed one is a device for detecting (express control) OM in air, soil samples, samples taken from the surfaces of weapons, military equipment, equipment and uniforms, or directly above various surfaces gas detector semi-automatic PGO-11 (gas detector

semi-automatic PGO-11. Technical description and instruction manual. 1986)

The device can be used for chemical reconnaissance both on board reconnaissance chemical machines and automobile chemical laboratories, and autonomously. Structurally, the device is made in the form of separate blocks. When the device is operating autonomously, an external unit and a support kit are used. The remote unit includes a gas detector and accessories for sampling. The software kit includes a rechargeable battery, bags with indicator tubes, filters, a nozzle, and an electric cable. The gas detector allows you to automatically maintain the temperature in the area of the working indicator tubes. The principle of operation of the device is to suck through a test tube a certain amount of analyzed air. In the presence of OM in the analyzed air, the color of the tube filler changes. The concentration of OM is judged by the intensity of the color. When determining the OM in a soil sample, it is necessary to take a sample with a spatula, pour it into the cylindrical chamber of the sampler (nozzle cap), which is placed in the heater

samples made in the form of a glass, in the walls of which are located spirals of the heating element.

The disadvantages of using the known device are the complexity of sampling, the visibility of determining the OM and the frequency of control.

The technical task of the utility model is to reduce the complexity and increase the reliability of determining the presence of toxic substances and other pollutants, as well as the continuity of the express control, which allows to contour the contaminated area in the shortest time and assess the degree of soil contamination, for example, by rocket fuel components at the places where the separated parts of rockets and spills of fuels and lubricants.

The device shown in the drawing.

A device for express control of soil contamination consists of a movable frame 1 with a rod 2 fixed on it, a rubber casing 3, a cylindrical chamber of the sampler 4 with a bell 5 in the lower part and a pipe 6 in the upper part and a heating element 7 with a reflector 8, the pipe 6 connects the sampler chamber 4 with an automatic gas analyzer 9 with an air flow inducer mounted on the rod 2. Preferably, the heating element 7 with a reflector 8 is installed in front of the sampler chamber 4 in the direction of the frame 1, and the bell 5 of the chamber of the sampler 4 is placed at a distance of 2-4 cm from the soil surface.

The device operates as follows. The frame 1 is set in motion for the rod 2. Turn on the heating element 7 and the gas analyzer 9 with a stimulator of air flow. When moving the frame 1 on the soil, the soil surface is heated by the heating element 7, while there is a desorption of the vapors of the analyzed substances, which through the socket 5 enter the cylindrical

the sampler chamber 4 and through the tube 6 into the gas analyzer. The degree of soil contamination is determined by the readings of the device. The rubber casing 3 provides tight contact with the test soil, limits the area of soil heating and air sampling, and when moving the frame 1 copies the relief of the soil surface. The reflector 8 of the heating element 7 allows for directed heating of the analyzed area of the soil surface. To eliminate sorption of toxic agent vapors on the tube 6, the gas analyzer 9 is located in the immediate vicinity of the sampler 4 and is mounted on the rod 2. To increase the reliability of determining the presence of toxic substances and other pollutants, the bell 5 of the cylindrical chamber of the sampler is located at a distance of 2-4 cm from the soil surface.

Thus, the proposed device can improve the reliability of the determination of poisonous substances and other contaminants, conduct continuous express control of soil contamination, as soon as possible outline the boundaries of the infection site and assess the degree of soil contamination, for example, by rocket fuel components at the places where the separated parts of the rockets and the fuel spill fall lubricants.

Claims (3)

1. A device for express control of soil contamination, including a cylindrical chamber of the sampler and a heating element, characterized in that it is equipped with a movable frame with a rubber casing and a rod, on which an automatic gas analyzer with a flow inducer is installed, the cylindrical chamber of the sampler is equipped with a bell in the lower part and a tube connecting the sampler chamber to the automatic gas analyzer, in the upper one, and is mounted on a movable frame inside the rubber casing, and the heating element is bzhen reflector.  2. The device according to claim 1, characterized in that the heating element with a reflector is installed in front of the sampler chamber in the direction of movement of the frame. 3. The device according to claim 1, characterized in that the bell of the sampler chamber is located at a distance of 2 to 4 cm from the soil surface.