RU192107U1 - DEVICE FOR DEACTIVATION OF ARMORED ARMS AND EQUIPMENT - Google Patents

Abstract

The proposal relates to the field of mechanical engineering, namely to means of protection against weapons of mass destruction, and can be used for the degassing, decontamination and disinfection of armored weapons and equipment samples. The technical result of the proposal is to ensure fuel economy and reduce thermal radiation of the power plant of the processed model of armored weapons and The technical result is achieved by replacing the jet ejector with a more efficient vortex ejector of M.G. Dubinsky, equipped with a diffuser with a flap and connected to the auxiliary power unit by a gas sampling device.

Description

The proposal relates to the field of mechanical engineering, namely to means of protection against weapons of mass destruction, and can be used for the degassing, decontamination and disinfection of samples of armored vehicles and equipment.

Known tank degassing kit TDP (Tank degassing kit (TDP kit). Technical description, instruction manual and passport: Military Publishing House of the Ministry of Defense of the USSR, 1970. - P. 38), consisting of two autonomous devices TDP, charging device, 4 clamps, funnels and spare accessories.

The disadvantage of this tank degassing kit is that air is used for charging autonomous devices from the cylinders of the tank’s air system, which is the main system for starting the combat vehicle’s engine, which indicates the negative impact of such a design on the combat readiness of the tank.

The closest in technical essence and the achieved technical result to the claimed device for deactivating armored vehicles and equipment are the car kit for special processing of military equipment DK-4 and its modifications ("Car kit for special processing of military equipment DK-4). Technical description, instruction manual and passport ”M: Military Publishing House of the Ministry of Defense of the USSR, 1969. - P. 60), consisting of the main power plant of the processed sample, gas sampling device, jet ejector, liquid and gas-liquid sleeves, hose with extension cord and brush.

The disadvantage of the known car kit for special processing of military equipment DK-4 is that for its use requires the work of the main power plant of the sample. The operation of the main power plant during the processing of the machine leads to unproductive fuel consumption, reducing its power reserve, as well as to increasing the visibility of the sample in the thermal spectrum, making it detectable for enemy fire weapons.

The technical result of the proposal is to ensure fuel economy and reduce thermal radiation of the power plant of the processed sample of armored vehicles and equipment.

The technical result is achieved by replacing the jet ejector with a more efficient vortex ejector design MG Dubinsky (Merkulov A.P. Vortex effect and its application in engineering / Merkulov A.P. - M .: Mashinostroenie, 1969. - 184 p.), Equipped with a diffuser with a shutter and connected to an auxiliary power unit (APU) with a gas sampling device.

The use of a more effective vortex ejector, in which the ejection coefficient is more than 2 times higher than the serial one, will make it possible to use the much lower kinetic energy of the exhaust gases for the sample processing to be more economical and less noticeable in the thermal spectrum of the APU, which equipped with modern armored vehicles.

The proposal is illustrated in the figure, which shows a General view of the device for the decontamination of armored weapons and equipment.

The claimed device for decontamination of armored weapons and equipment contains an APU of sample 1 connected by a gas sampling device 2 with a vortex ejector 3 equipped with a diffuser 4 with a shutter 5, while the liquid sleeve 6 is equipped with a valve 7, and the gas-liquid sleeve 8 is connected by a hose with an extension 9 with a brush 10 .

The proposed device for the decontamination of armored weapons and equipment works as follows.

When processing the gas-liquid method, the exhaust gases of the APU of sample 1 through the gas sampling device 2 enter the vortex ejector 3 under pressure and, acquiring the necessary speed in the nozzle of the vortex ejector 3, create a vacuum in the inlet of the mixing chamber, thereby providing a solution from the reservoir with the recipe ( not shown) through a liquid sleeve 6 to a gas-liquid sleeve 8 and then to a hose with an extension 9 through a brush 10 to the surface to be treated.

When decontaminated by the method of suction of radioactive dust, close the valve 7 and open the damper 5 of the diffuser 4, the exhaust gases of the APU of sample 1 pass through the ejector 3 and are released into the atmosphere, while a vacuum is created in the gas-liquid sleeve 8 and the dust breaks off from the surface to be treated by mechanical action of the brush 10 and through a hose with an extension 9, through a gas-liquid sleeve 8 is sucked into the ejector 3, from where the environment is discharged with the gas stream through the diffuser 4.

Claims (1)

A device for deactivating armored vehicles and equipment includes a gas sampling device, liquid and gas-liquid hoses, a hose with an extension cord and a brush, characterized in that a vortex ejector is installed, equipped with a diffuser with a shutter and connected to the auxiliary power unit by a gas sampling device.

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