RU2296586C2 - Small objects continuous ozone sterilization method - Google Patents

Abstract

FIELD: sterilization and transportation of small-size light-weight objects such as bottle plugs, possibly in food making, biotechnology, pharmaceutical industry branch.

SUBSTANCE: method for sterilizing small-size objects by means of ozone-air mixture for further neutralizing ozone by its natural dissociation in air in the same closed gas circuits having unit for cleaning and drying air, compressor, ozone-air mixture generator and sterilizing chamber. Objects are transported from sterilization chamber along other closed gas circuit that also includes discharging cyclone and sterilized-air compressor. Continuous process is realized due to using two or more sterilizing chambers taking part in operation of said gas circuits in automatic mode according to cyclic diagram of process parameters.

EFFECT: possibility for performing continuous process of sterilizing and transporting objects with use of ozone and compressed air in extensive rational technological cycle while eliminating influence of ozone upon air on working zone.

4 cl, 3 dwg

Description

The invention relates to the sterilization and transportation of objects and can be used in the food, biotechnological, pharmaceutical industries.

Known methods and devices for chemical washing and sterilization, characterized by the great use of manual labor, minimal mechanization and automation capabilities, the need for good rinsing with clean water of treated items, the need for thorough storage and disposal of reagents (Bologa MK, Litinsky GA “Electric antiseptics in food industry. "M., 1988).

A device for disinfecting, in particular bottles (patent RF RU 2144382 class. A 61 L 2/10), in which UV radiation is used as a disinfectant is known. However, the design of the device is such that UV rays propagating along the axis of the bottle from the side of the neck can process only the end surface of the neck and the incomplete surface of the bottom, the beam glides along other surfaces or they remain in the shade. The lateral outer surfaces of the broadened part of the bottle are protected from irradiation with a special device, and you can transfer a fair amount of microorganisms to them in the bottling zone, given that at present, more than ten thousand or more bottles pass through it. The formation of ozone, judging by the instructions in the description, is also not allowed. Therefore, the effectiveness of such a device is small.

A device for gas sterilization (RU 2074007 C1 class A 61 L 2/14) is known, which is the closest analogue of the invention, in which the sterilized objects are loaded into a chamber connected by pipelines to a compressor, generator and a filter-neutralizer in a gas line forming a closed loop for pumping a gaseous medium. Sterilization is carried out by repeatedly pumping the sterilizing agent through the chamber and the ozonizer; neutralization is carried out by repeatedly pumping through the chamber and the neutralizer. Regardless of the costs, they reduce the duration of the process by maintaining a high concentration of the sterilizing agent at the sterilization stage, and then it is also quickly neutralized using a catalyst or other intensive technologies, which is also not cheap. For large-scale production, this is wasteful, moreover, a batch device, issues of further transportation are not resolved.

It is also known that in order to prevent an unregulated stop of the filling machine, storage bunkers are created everywhere in the form of boxes with different degrees of mechanization of the supply and consumption of packaging materials and containers, the purpose of which is to create about an hour stock in case of failure of their supply. The efficiency of using the areas and volumes of the production premises when the equipment performs only this one function is low.

Ozone is a wonderful modern disinfector, however, it, like a strong oxidizing agent, worsens the quality of many products, its maximum permissible concentration in the air of the working zone is 0.1 mg / m ³ .

As a result of the analysis of world experience, own observations and experiments, economic and environmental feasibility, the optimal working range of ozone concentrations of 5-50 mg / m ^{3 is} proposed. Effective disinfection of, for example, milk and beer tanks under ordinary conditions and with an ozone concentration of 40 mg / m ³ in air occurs, respectively, in 10 and 7.5 minutes. Natural dissociation (decay) of ozone molecules is slower by 3 or more times, which complicates the use of gas-ozone disinfection technology in modern production lines, the use of catalysts makes the process more expensive and more complicated (Bologa MK, Litinsky GA “Electric antiseptics in food industry. "M., 1988).

According to other observations on the possibility of ozone dissociation, the transition ozone ⇒ oxygen occurs under the following conditions:

- spontaneous

- accompanied by the release of heat (exothermic process),

- accompanied by the completion of work by the system,

- accompanied by a decrease in enthalpy (internal energy),

- accompanied by an increase in entropy (the structure is simplified). (Vigdorovich V.N., Pravnikov Yu.A., Nizhade-Gavgani E.A. Problems of ozone production and ozone treatment and the creation of second-generation ozone generators. - M. (Shatura) - S. - Pb. (Kolpino): Enterprise "Ecoinformsystem" and Research and Development Enterprise "Ozonite", 1994. - 112 p.).

As many authors show, it is cheaper to obtain ozone from dry purified air than from moist, but the increased humidity of ozonized air accelerates both the disinfection process and the process of dissociation of ozone, and heating significantly accelerates its dissociation.

The purpose of the invention is to ensure the continuity of the process of sterilization and transportation of small-sized, light objects, such as bottle caps, with a combination of functions using compressed air and ozone in a sealed conveying installation; elimination of the influence of the gases of the transporting installation on the air of the working area and on the product being packaged, the use of minimum concentrations of ozone for sterilization and natural dissociation to neutralize it.

The technical result is achieved by the fact that in the method of sterilization of small-sized light objects, in which the objects are processed in a sterilization chamber connected by a gas line to the ozone-air mixture generator and compressor into a closed sterilizing circuit for pumping the ozone-air mixture, and the subsequent neutralization of ozone-air mixture, the difference is that a storage bin is used as a sterilization chamber, and the subsequent neutralization of objects and ozos after sterilization the o-air mixture is carried out in the same circuit without pumping or, at least for some time, with pumping in a closed sterilizing circuit, bypassing the ozone-air mixture generator along a parallel bypass gas line, by the method of natural dissociation of ozone in air, and two are included in the sterilizing circuit or more parallel connected sterilization chambers for their alternate pumping, and sterile objects are unloaded from sterilization chambers with compressed sterile air after neutralization to and another closed loop - transport, also including sterilizing chambers connected in parallel, from each chamber, in a common time sequence according to the sequence diagram embedded in the automatic system and control unit, which ensures the continuity of operation of the entire installation, while pumping sterilization chambers one by one and their discharges use automatically locking valves of the ozone-air mixture inlet and outlet nozzles and, accordingly, automatically locking all the gates of the inlet and outlet pipes for compressed sterile air and sterile objects, and in a closed highway of the transport circuit, which includes, in addition to the sterilization chamber, a compressor and a cyclone for unloading sterile objects, use a receiver consisting of two containers communicating via a throttle and a system of regulators pressure, the first capacity of which is filled with an ozone-air mixture from a sterilizing circuit, and the unit and automatic control system are used to ensure according to the cyclogram of the time parameters of the process for each sterilization chamber: its loading with sterilization items, sterilization with pumping of the ozone-air mixture, the time for neutralization, unloading of sterile items from it with sterile compressed air, when using several sterilization chambers in turn, making appropriate control according to the time indicator , pressure indicators in gas lines and receiver, according to ozone concentration.

The difference is also that the efficiency of sterilization of objects in the sterilization chamber is set by both the concentration of the ozone-air mixture and the intensity of its supply and mixing of objects in the sterilization chamber, changing the pressure and flow characteristics of the ozone-air mixture for this purpose, the sterilization chamber is equipped with an internal perforated surface to accommodate sterilized objects, which are positioned at an angle greater than 0 degrees to the horizontal, the sterilization chamber is equipped with an internal perforated surface for placement of sterilized objects, which is performed spherical.

A storage bin can be used as a sterilization chamber. It is possible to carry out neutralization to accelerate it, at least for some time, with pumping along a closed sterilizing circuit, but bypassing the ozone-air mixture generator along a parallel bypass gas line.

The efficiency of sterilization of objects in the sterilization chamber is set by both the concentration of the ozone-air mixture and the intensity of its supply and mixing of objects in the sterilization chamber, changing both the pressure and flow characteristics of the ozone-air mixture and the design features of the sterilization chamber. For example, the inner perforated surface of the sterilization chamber, on which the sterilized objects are lying, is positioned at an angle greater than 0 degrees to the horizon to improve mixing and rinsing of the objects with an ozone-air mixture in order to more fully disinfect them. For the same purpose, the inner perforated surface of the sterilization chamber on which the sterilized objects lie is spherical.

The drawings show a device for ozone sterilization: figure 1 is a diagram of the device, figure 2 is a structural diagram of a sterilization chamber, figure 3 is an exemplary cyclogram of the operation of the device.

The device contains (Fig. 1): a mechanical cleaning and drying unit for room 1 air, an air compressor 2, an ozone-air mixture generator 3 and a parallel gas bypass line 4, a sterilization chamber battery, a pressure regulator 5, a pressure regulator 6, an air compressor 7 , discharge cyclone 8, receiver 9, consisting of two containers communicating through a control valve with a throttle 10; the sterilization chamber (figure 2) includes an inlet pipe with a valve 11 and an outlet pipe with a valve 12 for the ozone-air mixture, an inlet pipe with a gate 13 and an outlet pipe 14 with a compressed sterile air gate, an inner perforated surface 15, a loading hatch 16 of the sterilized objects 17 .

The device operates according to the sequence diagram, for example (Fig. 3), feeding sterile objects to the destination, for example bottle caps, into the feed hopper of the filling zone as follows.

The air from the room through the mechanical cleaning and drying unit 1 enters a closed sterilizing circuit through a compressor 2 and an ozone-air mixture generator 3, is fed to pressurize the receiver receiving tank 9, in which the ozone-air mixture is sterilized, gradually neutralizing, and then passes through valve 10 with a throttle, intensively neutralizing finally, into the receiver's consumable capacity. After the completion of pressurization, the ozone-air mixture from the generator enters the sterilization chamber “A” through the inlet valve 11, passes the perforated surface 15, washes, and if necessary, mixes the sterilized objects 17 with an increase in pressure, and leaves the sterilization chamber through the outlet valve 12 chamber, heading to the compressor 2, thereby closing the sterilizing circuit. The ozone-air mixture can be fed into the sterilization chamber in different modes from smooth flow to violent mixing by force of gas jets of sterilized objects for sterilization of the most inaccessible places in them. The sterilizing circuit is replenished with room air thanks to the pressure regulator 5. The ozone-air mixture, circulating along the sterilizing circuit, passing through the generator, maintains the necessary concentration of ozone, however, shortly before the end of the sterilization cycle, it can be turned off and the circulation can be transferred through the gas bypass line 4. At the end the sterilization cycle in the sterilization chamber "A" closes the valves 11 and 12, stops the flow of any gas, the ozone neutralization cycle begins, ie its natural dissociation, which consists in the non-participation of the sterilization chamber "A" in any external influences. At the end of the neutralization cycle, the gates of the sterilization chamber “A” of the inlet 13 and outlet 14 open, sterile compressed air circulates through the transport circuit, which also includes a compressor 7 and an unloading cyclone 8, which delivers sterile items to their destination, for example, into the distribution hopper of the filling zone. Sterile air from the discharge cyclone 8 is returned to the compressor 7, thus closing the transport circuit. The transport circuit is replenished with sterile air thanks to the pressure regulator 6 from the supply container of the receiver 9. At the end of the shipment cycle, the gates of the sterilization chamber “A” of the inlet 13 and outlet 14 are closed, the loading hatch 16 is opened, through which a new portion of items for sterilization is loaded. After closing the loading door 16, the complete duty cycle for the sterilization chamber "A" is repeated. A completely similar complete work cycle is performed for the sterilization chamber "B", with a difference in time only. The cycle diagram can vary according to specific requirements with a change in the number of sterilization chambers, a change in the number and duration of cycles, their time coordinates.

Claims (4)

1. A method of sterilization of small-sized light objects, in which the objects are processed in a sterilization chamber connected by a gas line to the ozone-air mixture generator and compressor into a closed sterilizing circuit for pumping the ozone-air mixture, and the subsequent neutralization of the ozone-air mixture, characterized in that a storage bin is used as a sterilization chamber, and the subsequent neutralization of objects and the ozone-air mixture after sterilization is carried out in the same circuit without rocking, or at least for some time pumping along a closed sterilizing circuit, bypassing the ozone-air mixture generator along a parallel bypass gas line, by the method of natural dissociation of ozone in air, moreover, two or more parallel connected sterilization chambers for pumping them alternately are included in the sterilizing circuit, and unloading of sterile items from sterilization chambers is carried out with compressed, sterile air after neutralization along the line of another closed circuit - conveyor one that also includes parallel-connected sterilization chambers, alternately from each chamber, in a common time sequence according to the sequence diagram embedded in the automatic system and control unit, which ensures the continuity of the operation of the entire installation, while for the alternating pumping of the sterilization chambers and their unloading, they are used automatically lockable valves for the ozone-air mixture inlet and outlet pipes, and, accordingly, automatically locking gates of the inlet and outlet nozzles for compressed sterile air and sterile objects, and in a closed highway of the transport circuit, which includes, in addition to the sterilization chamber, a compressor and a cyclone for unloading sterile objects, a receiver is used as a source of sterile air, consisting of two containers communicating through the choke and a system of pressure regulators, the first container of which is filled with ozone air mixture from the sterilizing circuit, and from the second receive sterile air for the transport circuit, and the unit and automatic control system is used they are used to ensure, according to the cyclogram, the time parameters of the process for each sterilization chamber: its loading with sterilization objects, sterilization with pumping of the ozone-air mixture, the time for neutralization, unloading of sterile objects from it with sterile compressed air, with the use of several sterilization chambers in turn, by appropriate control time indicator, pressure indicators in gas lines and receiver, according to ozone concentration. 2. The method according to claim 1, characterized in that the efficiency of sterilization of objects in the sterilization chamber is set by both the concentration of the ozone-air mixture and the intensity of its supply and mixing of objects in the sterilization chamber, changing the pressure and flow characteristics of the ozone-air mixture for this. 3. The method according to claim 1, characterized in that the sterilization chamber is equipped with an internal perforated surface to accommodate sterilized objects, which are placed at an angle greater than 0 ° to the horizontal. 4. The method according to claim 1, characterized in that the sterilization chamber is equipped with an internal perforated surface to accommodate the sterilized objects, which are spherical.

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