RU2728147C1 - Combined washing installation - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention relates to installations of contact type for washing, cleaning from contamination and disinfection of surfaces and can be used in agroindustrial complex, food industry, in transport. Combined apparatus for washing containers from different materials comprises a container for washing solution, rinsing liquid, for settling, filtration and disinfection of waste liquid, compressor-charger, vacuum pump, flexible hoses and washing head-sprayer, at that container for settling, filtration and disinfection is made together with bubbler ozonizer, and in plant there is used ozonizer with capacity for ozonized gas medium, wherein ozonized gas medium by means of water-ring vacuum pump passes along hose lines, wherein tanks for washing solution and rinse-off liquid are equipped with heating elements.EFFECT: creation of combined installation for washing of containers from various materials, which allows to combine washing, cleaning and disinfection processes, using different temperature modes and modes of different pressures.1 cl, 1 dwg

Description

The invention relates to contact-type installations for washing, cleaning from dirt and disinfecting surfaces and can be used in the agro-industrial complex, the food industry, in transport, etc.

Known installation for aerohydrodynamic abrasive cleaning of surfaces, containing a container for the preparation of an abrasive suspension with a mechanism for stirring, including a mixer with at least one blade, and a nozzle for spraying the abrasive suspension, connected to said container and to a compressed gas supply device (patent WO 2011 / 119069 A1, PCT / RU20 10/000671, 2011).

The disadvantage of the known installation is the use of abrasive mixtures in a gaseous state for cleaning, which limits its use for polymer types of coatings, has a low productivity due to the lack of washing and disinfection modes.

Known device for abrasive-jet surface treatment, containing a housing, a nozzle made with a rectangular outlet section, a channel for supplying the working mixture, which is in communication with the nozzle, outlet channels, a nozzle made with a rectangular outlet section (patent RU 2325987 C2, bull. No. 16 , 2006).

The disadvantage of the known installation is the use of an abrasive as an influencing medium, which limits its use for containers made of polymeric materials, the absence of washing and disinfection modes.

A device for cleaning surfaces is known, comprising a washing head with a dish-shaped body having a porous elastic seal around the perimeter and communicated through a hole with a passive nozzle of a vortex ejector, the active nozzle of which is communicated with the atmosphere, and the ejector itself is connected to a vacuum source through holes made in the end wall its radial slot diffuser, the peripheral part of which is connected to the drain tank (patent RU 2075962 C1, class A 47 L 1/02, 1997).

The disadvantage of the known installation is the lack of regulation of the temperature regime supplied to the surface of the working fluid, which reduces the productivity and quality of washing and surface cleaning, there is no disinfection mode.

A device for cleaning surfaces is known, containing a washing element rotated from an electric motor, a reservoir for a washing liquid with a filter, a device for collecting waste liquid and a system for vacuum suction of waste liquid, a washing chamber (patent RU 2026631 C1, class A 47 L 11/283, 1995 ).

The disadvantage of the known device is the use of a system of gravitational supply of working fluid limits the use of the device on horizontal surfaces, and also has a low productivity.

Known device for washing surfaces, containing a washing head, an evacuating device, two barrels for washing liquid and pipelines (see AS USSR No. 380312, class A 47 L 1/02, 1973).

The disadvantage of the known device is the low efficiency of washing due to the reuse of the untreated working fluid.

A device for cleaning and washing surfaces is known, containing a nozzle, the cavity of which is connected with a suction system by means of a flexible hose, a means for closing the suction line, a gate placed in it, a tube for supplying liquid to the nozzle (see A.S. USSR No. 659141, cl A 47 L 13/10, 1979).

The disadvantage of the known device is low cleaning efficiency, low quality of washing, lack of disinfection mode.

The closest to the claimed one is a vacuum treatment unit with a sealed contamination pumping system containing processing heads, a dust separator, a bin with two chambers, a vacuum generator, and a container for collecting abrasives (see US patent 005529530A, 1996).

The disadvantage of the known installation is one-mode cleaning, the applied mode is limited to solid types of surfaces, the lack of disinfection of the surface and working fluid, the lack of temperature control.

The technical task is to create a combined installation for washing containers made of various materials, which allows combining the processes of washing, cleaning and disinfection, using different temperature modes and modes of different pressures, through the use of an ozonator-bubbler, heating elements and a liquid ring vacuum pump.

The solution to the technical problem lies in the fact that a combined installation for washing containers made of various materials contains a container for a washing solution, rinsing liquid, for settling, filtration and disinfection of waste liquid, a compressor-blower, a vacuum pump, flexible hoses and a washing spray head, when the tank for sediment, filtration and disinfection is made in conjunction with an ozonizer-bubbler, and the installation uses an ozonator with a tank for the ozonized gaseous medium, while the ozonized gaseous medium passes through hose lines by means of a liquid ring vacuum pump, and the tanks for the washing solution and rinsing liquid are equipped with heating elements.

FIG. 1 shows a basic hydropneumatic diagram of a combined washing system.

The installation includes a movable body 1, tanks for rinsing liquid 2, washing solution 3, ozonized gaseous medium 4, spent working fluid 5, compressor-blower 6, ozonator-bubbler 7, liquid ring vacuum pump 8, flexible hoses 9 and 10, washing head- atomizer 11. Tanks 2 and 3 are equipped with heating elements 12. Flexible hoses differ in purpose, pumping action 9 and vacuum action 10, connected respectively to the common line of tanks 2, 3 and 4 and to the vacuum pump 8. Compressor-blower 6 is connected directly to tanks 2 and 3 and through the ozonizer-bubbler 7 to 4 and 5. Tank 5 is collapsible and connected to a vacuum pump 8. Flexible hoses 9 and 10 are connected to the washing spray head 11, which is a hollow, double-walled container with a missing bottom with elastic elastic material at the edges.

The installation works as follows.

In containers 3 and 2, respectively, are filled with washing and rinsing liquids. Depending on the type of pollutant and the surface, they are heated to the required temperature by elements 12. If it is necessary to increase their boiling point in these containers, the compressor-blower 6 increases the pressure, while the gaseous medium is pumped into the ozonizer-bubbler 7, where it is ozonized. Depending on the purpose, the ozonized gaseous medium is fed into the container 4 for its further supply to the surface or into the container 5 for disinfection of the filtered working fluid, for the purpose of its further use. As a direct impact on the contaminated surface of the tool is a jet of liquid from the container 2 or 3, in which the compressor-blower creates excess pressure. Through the control mechanisms, a stream of liquid is supplied through a hose 9 to a contaminated surface, after which the liquid is removed from the surface by a vacuum pump 8, through a hose 10. The pumped-out liquid enters the container 5, where it, passing through the filters, is separated from sufficiently large mechanical impurities and further disinfected with an ozonated gas medium from an ozonizer-bubbler 7. In the future, this liquid can be reused by first moving it into containers 2 and 3, where using heating elements 12, a further procedure for disinfection from biological contaminants through heating is possible. After the washing and cleaning procedures, the waste liquid is drained from the tank 5 and solid impurities are removed from the filters.

The main differences from analogs of this installation are its combination of washing, cleaning and disinfection processes, as well as its multi-mode and multifunctionality. So the installation is capable of carrying out only washing without the action of the compressor-blower by supplying liquids with normal pressure, which is a gentle mode for polymer surfaces. In this mode, the liquid is transported only by a liquid ring vacuum pump. Another mode is cleaning, in which the working fluids are supplied to the surface under pressure, the jet of which has an additional chemical mechanical effect on the pollution. The next mode - disinfection of the surface from biological contamination is carried out with an ozonated gas medium. In addition, it is possible to combine the above modes, as well as additionally use various temperature modes and modes of different pressures, modes with preliminary creation of vacuum at a contaminated surface, modes with preliminary vacuum pulses, etc.

These features make it possible to use a combined washing installation for surfaces made of most materials used in devices for storing and transporting food and semi-finished products, including those that differ in hardness and other physical parameters. These materials include, among others, polymers with restrictions on the effect of temperature and pressure conditions. In addition, the installation allows you to disinfect the surface to be treated, as well as waste liquids.

Thus, the multimodality of the installation is due to the presence of heating elements and a liquid ring vacuum pump in the design, and its multifunctionality is due to the presence of an ozonizer-bubbler.

Claims (1)

A combined contact-type washing system containing containers for a washing solution, rinsing liquid, for settling, filtering and disinfecting waste liquid, a compressor-blower, a vacuum pump, flexible hoses and a washing spray head, characterized in that a container for sediment, filtration and disinfection is made in conjunction with an ozonizer-bubbler, and the installation uses an ozonator with a container for an ozonized gaseous medium, while the ozonized gaseous medium passes through hose lines through a liquid ring vacuum pump, and the containers for the washing solution and rinsing liquid are equipped with heating elements.

Images