RU2485984C2 - Integrated device for special treatment - Google Patents

Abstract

FIELD: rescue equipment.

SUBSTANCE: invention relates to the field of deactivation, degassing, disinfection. The integrated device for deactivation, degassing, disinfection is mounted on a car base chassis and consists of a container which includes: a tank for liquid compositions, the device equipment, set of spare parts, tools and accessories. The device equipment comprises: a membrane pneumatic pump, equipment of electric pneumatic system, two-way valve, the system of pipe supply of solution; the distributing ramp with a fitting to feed the working composition to the object, device remote control. The equipment of electric pneumatic system comprises air pipes, a shut-off valve at the system inlet, a reducer, a solenoid valve, electric cables, air ducts of the pneumatic system of car base chassis through the receiver, a solenoid valve, the reducer is connected to the pump. The solenoid valve is connected by the electric cable to the remote control. The pump is connected by the pipes to the tank, the distributing ramp using the two-way valve.

EFFECT: increased productivity of special treatment and increased reliability of the device operation is achieved due to increasing the number of distributing ramp output fittings, providing multi-channel supply of the working composition.

3 cl, 1 dwg

Description

The invention relates to the field of special processing (decontamination, degassing, disinfection).

Special treatment (CO) consists in the degassing, decontamination and disinfection of automotive vehicles and is carried out in order to maintain the necessary conditions for fulfilling the tasks in an environment of radiation, chemical, biological (RBC) infection. Special processing on-board devices are mounted on the automobile base chassis.

An analog of the described device is a stand-alone device for special processing APSO. The device is designed to carry out special processing of automotive vehicles by irrigation and rubbing with an irrigated brush. The composition of the device includes: a reservoir for a solution (formulations), an autonomous pressure source (with compressed air), a distribution head with a device for spraying and applying solutions, a device for mounting the device on objects and carrying the device during processing. The disadvantages of the device are: lack of control of spray parameters of the formulation; the volume of the reservoir for the formulation allows you to process only equipment with a total surface of up to 40 m ² ; the presence of a cylinder with compressed air.

The prototype of the proposed device is an airborne kit special processing BKSO. The device is designed for special treatment with water and solvent formulations using the energy of exhaust gases from internal combustion engines and the energy of compressed air from automobile pneumatic systems and armored personnel carriers with carburetor and diesel engines. The kit includes: a gas-liquid device (hose), an extension cord, a gas-liquid sleeve, a liquid sleeve, a tank, a cover with a valve, a brush, an adapter, an ejector, a gas separator with a diffuser (when working from exhaust gases) or an air sleeve, an air ejector (when working compressed air), cap, scraper, metal box, two canvas bags for laying and transporting the kit, spare parts, fasteners and accessories. Containers with compounding components are placed in a box. The disadvantages of the device are: a long time to transfer the device to its working position; the volume of the tank for the recipe allows you to process equipment with a total surface of up to 40 m ² .

The technical result achieved by the device built-in for special processing (PVSO), described in this application for the invention, is: reducing the time to transfer the PVSO device to its working position; increase in the area of the treated surface (up to 150 m ² ); improving feed stability and spray quality of the solution for CO; increasing the efficiency of CO; increase in CO productivity; increase the reliability of the device.

The specified technical result is achieved by placing PVSO equipment, spare parts, tools, accessories (spare parts) in a container on an automobile base chassis (ABS), using a liquid tank with a capacity (up to 100 l), which allows processing large-sized equipment. Improving the stability of the feed and the quality of spraying the formulation for СО is achieved by introducing into the pump device a pneumatic diaphragm, electro-pneumatic system of the device, including air pipelines, a shut-off valve at the system inlet, a gearbox, a solenoid valve, electric cables, piping systems for supplying the solution to the processing object. The presence of a pressure regulator together with a pneumatic diaphragm pump allows to reduce fluctuations in the pressure of liquids at the outlet of the hose, which increases the stability of CO. Improving the efficiency of CO is achieved through the use of several gearboxes, solenoid valves, providing different processing modes. An increase in the productivity of CO and an increase in the reliability of the device is achieved, among other things, by increasing the number of outlet fittings on the transfer ramp for supplying working recipe.

The PVSO device consists of: a container (1); tank for special formulations (2); pneumatic diaphragm pump with pressure regulator (3); electric pneumatic system equipment, including air pipelines (4), shut-off valve at the system inlet (5), gearbox (6), solenoid valve (7), electric cables (8); two-way valve (9); piping solution systems (10); transfer ramps (11) with outlet fittings; instrument control panel (12); Spare parts (13) (see drawing).

The container is structurally made in the form of a closed-type spatial structure and is intended for placement and connection of all components of the device into a single functional system, placement of spare parts and auxiliary equipment, transportation of PVSS to ABS (15).

Tank (2) is intended for placement of working formulations, their storage in working condition and delivery during special processing to the PVSO pipeline system.

The device can work both from the built-in capacity (tank), which is part of the equipment of the device, and from the remote. Remote capacity is not included in the equipment.

The main element of the PVSO device is a pneumatic diaphragm pump (3). The energy of compressed air from the pneumatic system of the base chassis is used as a source of energy for the pump. The use of compressed air does not require refinement of the base chassis and the introduction of special mechanisms to drive the pump from the power take-off of the base chassis of the vehicle.

The electro-pneumatic system of the device includes air pipelines, a shut-off valve (5) at the system inlet, a gearbox (6), an electromagnetic valve (7), and electric cables. The introduction of several gearboxes with solenoid valves, tuned to different working fluid pressure, provides various processing modes depending on the type and degree of contamination of the object.

The pipeline system for supplying special solutions (10) includes a two-way valve (9), solution pipelines from the tank to the pump, from the pump to the transfer ramp, and flexible hoses from the transfer ramp to the hose.

Transfer ramp (11) with outlet fittings is designed to connect the hose. An increase in the number of outlet fittings provides a multichannel supply of the working compounding on the transfer ramp, which contributes to an increase in the productivity of CO and to increase the reliability of the device.

The control panel (12) provides a choice of operating modes of the device, an indication of the current status of all systems.

The principle of operation of the PVSO device is as follows.

When the “WORK” toggle switch is turned on, the control unit of the control unit supplies +24 V to the electromagnetic valve (7). The solenoid valve opens, air pressure comes from the air receiver (14) (which is part of the car’s pneumatic system) through the gearbox (6) to the pump’s pneumatic system. The pneumatic diaphragm pump (3) is turned on, overpressure is created in the pipeline system (4). When the required fluid pressure is reached, the gearbox is activated, maintaining the corresponding pressure at the inlet of the air pump. In the pipeline system, a special formulation for CO is under pressure corresponding to the operating mode of the device. After reaching the required pressure in the transfer ramp (11), when the tap is opened on the hose, the formulation is squeezed along the flexible sleeve into the hose and the nozzle is fed to the surface to be treated. The consumption and dispersion of the formulation, as well as the density of the aerosol-droplet flow, are determined by the design of the nozzle. As the formulation is displaced from the transfer ramp (11), the pressure decreases, when the pressure drops to the lower predetermined limit (set by adjusting the gearbox), the gearbox (6) increases the air pressure, the diaphragm pump turns on and compensates for the pressure drop in the ramp.

The control system and equipment of the device ensures its multi-mode operation.

Claims (3)

1. The device is built-in for decontamination, degassing, disinfection, placed on the automobile base chassis and consisting of a container in which there is a tank for liquid formulations, equipment of the device, a set of spare parts, tools, accessories, characterized in that a pump is included in the equipment of the device pneumatic membrane; electric pneumatic system equipment; two-way valve; solution piping system; transfer ramp with fitting for supplying working compounding to the object; the control panel of the device, while the equipment of the electro-pneumatic system includes air pipelines, a shut-off valve at the inlet of the system, a gearbox, an electromagnetic valve, electrical cables; air ducts from the pneumatic system of the automobile base chassis through the receiver, the solenoid valve, the gearbox are connected to the pump, the solenoid valve is connected by an electric cable to the control panel, the pump is connected by pipelines to the tank, the transfer ramp using a two-way valve. 2. The device according to claim 1, the equipment of which is introduced several gearboxes, several solenoid valves. 3. The device according to claim 1, on the dispensing ramp of which there are several fittings for supplying a working recipe.

Images