Abstract: An apparatus for filling product into containers includes a working chamber through which the containers pass and the containers are acted upon by a sterile fluid to avoid contamination. An external line extends through the working chamber having a plurality of gas openings for the introduction of sterile air into the working chamber and that an internal line extends into the external line having a plurality of openings for spraying a cleaning medium. An annular chamber extends in a longitudinal direction between the internal and the external line. The cross-sectional area of the annular chamber varies in the longitudinal direction so that an even distribution of sterile air emerging from the gas openings into the working chamber is achieved.

Abstract: A system in which technology is associated with adjustable furniture includes at least one use position (in which the technology is available for use) and a storage position (in which the technology is not available for use). The technology is movable between the use position and the storage position. At least one use position is preferably located near the head of the furniture. In the storage position, the technology may be in a container, which may be a sterilizing container. The movement of the technology between the use position and the storage position may be coordinated with the transition between the upright position of the furniture and the recline position of the furniture.

Abstract: A container manufacturing plant (10) includes an air circuit (78) employing a recycling method that includes at least the successive steps of: extracting filtered air from an oven (26), after the air has been used in the latter, for the purpose of cooling at least one part of the preforms; treating the sterilizing agent present in the extracted air resulting from the sterilization of the preforms; and recycling the extracted and treated air to the industrial area (16) where the plant (10) is installed. An air recycling method is also described.

Abstract: The invention relates to a cooking oven (1), having a cavity (2) which is closable by a door (3). To reduce bacteria growth the invention is characterized in that oxygenating gas or ozone generating means (4) are provided for supplying at least a part of the cavity (2) or a region (5) adjacent to the cavity (2) with oxygenating gas or ozone.

Abstract: A device for treating at least one container, preferably for filling at least one container with a fill product and/or for reshaping a container, comprising an isolator chamber containing a defined atmosphere, in which the treatment of the container is carried out, and at least one container channel for conveying the container into the isolator chamber or for conveying the container out of the isolator chamber, and a suction device for sucking air out of the container channel and out of the isolator chamber, and a supply air preparation unit for preparing the air to be fed to the isolator chamber, wherein the suction device is connected with the supply air preparation unit in such a manner that at least a portion of the air sucked out of the container channel and/or the isolator chamber is fed to the supply air preparation unit for renewed preparation.

Abstract: An apparatus (1) for the sterilization of plastics material containers (10), and in particular of plastics material pre-forms (10), with a conveying device (2) which conveys the plastics material containers (10) along a pre-set conveying path, with at least one stressing device (4) which acts upon an external surface of the plastics material containers to be sterilized with a flowable medium. According to the invention the stressing device is arranged in such a way that it acts upon a pre-set area of the plastics material containers (10)—situated below an aperture of the plastics material pre-forms—with the sterilization medium.

Abstract: An apparatus for transporting objects and in particular containers, having a first conveyor which transports the objects along a specified transport path (P), including a sterile room, within which the objects are transported, and including a second conveyor which follows on from the first conveyor. According to the invention, the first conveyor is positioned completely inside of the sterile room and the second conveyor is positioned completely outside of the sterile room, wherein both the first conveyor and the second conveyor are preferably positioned in a specified transitional area (B) along the transport path (P).

Abstract: The invention relates to a device for sterilizing caps or the like closures for closing bottles or the like containers. Said device comprises a conveyor system conveying the caps in a direction of conveyance through a treatment section having a plurality of successive treatment stations in the direction of conveyance.

Abstract: The invention concerns a device, an installation and a method for conveying a hollow body secured to a transport device, comprising a step of injection of a disinfecting fluid through at least one bore designed to pass through said transport device and opening into the inner volume of the hollow body secured to said transport device.

Abstract: A microwave sterilizing device includes a container supplying device, a container transport device, a sterilizing sprayer, a microwave cavity unit and a microwave generating device. The container supplying device may supply containers in a continuous manner. The container transport device has a starting point and an end point and the containers are moved from the starting point to the end point on the container transport device. The container supplying device is disposed near the starting point. The sterilizing sprayer can spray germicide onto the inside and outside of each container. The microwave cavity unit can allow the passage of the containers. The microwave generating device is disposed outside of the microwave cavity unit and can generate microwave which is fed into the microwave cavity unit to heat up the germicide remained on the internal walls of each container so as to sterilize the container.

Abstract: An apparatus for sterilizing upright containers which are open at the top and transported continuously in succession, which includes a housing a housing with several successively arranged treatment zones, a transport device with several successively arranged receiving spaces, wherein the transport device or the parts thereof forms or form the bottom of the housing. The housing has a fixed channel which is open at the bottom for the passage of the containers, at least one media distribution chamber with perforations at its bottom is provided above the channel in each treatment zone, and distribution members coupled with the transport device are provided above the containers.

Abstract: A unit for sterilizing a web of packaging material for a machine for packaging pourable food products includes a sterilizing chamber containing a liquid sterilizing agent at a first temperature; a conveying device for feeding the web through the sterilizing chamber before the web is formed into a succession of sealed packages of pourable food products; a hold tank for the sterilizing agent; a feed mechanism activated selectively to feed the sterilizing agent from the tank to the sterilizing chamber; a drain activated selectively to drain the sterilizing agent from the sterilizing chamber into the tank in the event of stoppage of the packaging machine; and a cooling device activated selectively, at the end of the package production cycle, to cool the sterilizing agent in the tank to a second temperature lower than the first temperature.

Abstract: An apparatus for sterile filling of beverage containers has a first module and a second module. The first module rinses and sterilizes empty containers and delivers the sterilized containers to the second module. The second module fills and caps the containers with beverage product at ambient temperature in an active sterilization zone utilizing an e-beam sterilization unit.

Abstract: An apparatus for the heat treatment of a product, especially a food product such as a food product contained within a hermetically sealed container or pouch of plastics or like material, for example for sterilization, pasteurization or cooking, having a heating unit to bring product from ambient towards a heat treatment temperature and pressure; a retort unit to apply a heat treatment to a product; and a cooling unit to allow product to be brought down from heat treatment temperature and pressure towards ambient; wherein each unit and retort is selectably sealable from the others and from ambient conditions.

Abstract: Biowaste sterilizers are described. In one implementation an exemplary system has waste transport vessels that can be intermittently heated and pressurized, for example, with steam, and are interconnected to provide multiple sterilization pathways for waste as the waste is transported. Selected sterilization pathways may depend on attributes of the waste. Sterilization factors, such as mechanical shredding, application of steam, application of pressure, maintenance of temperature, separation of liquid, etc., are integrated into the waste transport features of the system, which can be made compact to save space while processing relatively large bulk amounts of materials, such as medical wastes. The system maintains safe isolation of bio-hazardous components in the waste from the external environment. A system controller provides parameters management, smart sterilization cycle control, quality assurance, safety management, diagnostics, and reporting over a network.

Abstract: A culture apparatus which is capable of shortening sterilization time includes a gas concentration measuring sensor, pipes connected to a gas concentration measuring device and every corner of a cultivating chamber, and a sterilizing gas generator that supplies sterilizing gas into a cultivating chamber and atomizes a sterilizer solution (oxygenated water) by means of an ultrasonic vibrator. The culture apparatus further includes an ultraviolet lamp that irradiates gas in the cultivating chamber, a freely opening/closing door, a door-locking device, and a controller for controlling the locking device to prevent the door from being opened from start of the sterilization process to end of the decomposition process.

Abstract: An apparatus for treating containers, including a transport device which transports the containers along a specified transport path, the transport device including a plurality of holding elements for holding the containers, with the holding elements being transported along the specified transport path. The apparatus includes a cleaning device for sterilizing the holding elements at least in sections.

Abstract: An apparatus for decontaminating articles comprised of: a decontamination chamber; a conveyor for conveying articles to be decontaminated along a first path through the decontamination chamber; a vaporizing unit connected to the decontamination chamber, the vaporizing unit disposed above the decontamination chamber; a blower for conveying a carrier gas through the vaporizing unit and through the decontamination chamber; heating means for heating the carrier gas flowing through the vaporizing unit; a source of liquid hydrogen peroxide fluidly connected to the vaporizing unit; and an injection device for injecting liquid hydrogen peroxide into the vaporizing unit.

Abstract: An apparatus for treating objects with a treatment gas comprises a treatment chamber, a chamber input through which objects enter the treatment chamber, and a chamber output (which may be the same as the chamber input) through which the objects leave the treatment chamber. The treatment chamber encloses the treatment gas, which can be steam. The chamber output and/or the chamber input include an intermediate medium, such as a liquid, through which the objects pass. The intermediate medium prevents escape of the treatment gas from the treatment chamber and the ingress of external gases into the treatment chamber, while facilitating input of the objects to the chamber, and output of the objects from the chamber.

Abstract: A method for sterilizing a plastic bottle in an aseptic filling system according to which at least an inner surface or an outer surface of a bottle is sterilized by injecting a heated sterilizing fluid at 65° C.-90° C. while maintaining internal pressure of the bottle at 1 kPa-20 kPa.

Abstract: Bio-waste sterilizers are described. In one implementation an exemplary system has waste transport vessels that can be intermittently heated and pressurized, for example, with steam, and are interconnected to provide multiple sterilization pathways for waste as the waste is transported. Selected sterilization pathways may depend on attributes of the waste. Sterilization factors, such as mechanical shredding, application of steam, application of pressure, maintenance of temperature, separation of liquid, etc., are integrated into the waste transport features of the system, which can be made compact to save space while processing relatively large bulk amounts of materials, such as medical wastes. The system maintains safe isolation of bio-hazardous components in the waste from the external environment. A system controller provides parameters management, smart sterilization cycle control, quality assurance, safety management, diagnostics, and reporting over a network.

Abstract: An apparatus for sterile filling of beverage containers has a first module and a second module. The first module rinses and sterilizes empty containers and delivers the sterilized containers to the second module. The second module fills and caps the containers with beverage product at ambient temperature in an active sterilization zone utilizing an e-beam sterilization unit.

Abstract: A method for sterilizing a plastic bottle in an aseptic filling system according to which at least an inner surface or an outer surface of a bottle is sterilized by injecting a heated sterilizing fluid at 65° C.-90° C. while maintaining internal pressure of the bottle at 1 kPa-20 kPa.

Abstract: A cassette for preparing a sample is disclosed herein. The cassette includes a housing, which encloses the structures and the processes used to prepare the sample.

Abstract: The invention relates to a thermal conditioning furnace (10) including a first infrared (IR1) heating element (32), an ultraviolet (UV) sterilizer (76) and a second infrared (IR2) heating element (34) for successively carrying out a decontamination for sterilizing at least the outer surface (28) of the body (14) of the perform (12), and to an equipment (56) including such a furnace (10) for producing sterile vessels (68) by a blowing or stretching-blowing technique from decontaminated performs (12) of a thermoplastic material.

Abstract: The method of microbiological decontamination of a machine comprising an enclosure for treating a support and a conveyor comprising a shuttle, comprises the steps of obtaining a container adapted to be received on the shuttle and to diffuse biocidal agent in the enclosure, of placing the container on the shuttle, of moving the shuttle within the enclosure, and of evacuating the agent. The microbiological analysis system comprises a container, a microbiological analysis machine comprising at least two stations for treatment of the support, a conveyor comprising a shuttle adapted to receive and to move the support, the container being adapted to be received on the shuttle, as well as means for evacuating the biocidal agent.

Abstract: A system for sterilizing bottles with a gaseous sterilant. The system includes moving means for continuously moving bottles one after another along a path. An assembly is provided for distributing a predetermined amount of the gaseous sterilant from a source of gaseous sterilant to each of the bottles. The assembly includes a plurality of injectors that are movable with the bottles. One of the plurality of injectors is associated with each of the bottles. The injector is fluidly connected to the source of gaseous sterilant when the bottle associated with the injector is disposed along a first portion of the path. The injector is disposed above the bottle when the injector is in a first position. The injector is disposed within an interior of the bottle when the injector is in a second position such that the predetermined amount of the gaseous sterilant is conveyed into the interior of the bottle.

Abstract: A method for sterilizing a plastic bottle in an aseptic filling system according to which at least an inner surface or an outer surface of a bottle is sterilized by injecting a heated sterilizing fluid at 65° C.-90° C. while maintaining internal pressure of the bottle at 1 kPa-20 kPa.

Abstract: The invention relates to a sterilizing device (10) for sterilizing closures (16), such as lids and caps for containers, such as bottles and jars, which device comprises a housing (12), provided with a closure entry (14) for supplying closures, a closure exit (18) for discharging sterilized closures from the device, a sterilizing-agent feed (21) for feeding sterilizing agent into the device and a discharge (28; 30) for discharging used sterilizing agent, as well as pass-through means (20) for passing closures (16) through the housing (12), the pass-through means (20) comprising a non-rectilinear pass-through path (58) in the plane parallel to the main plane of the closures. A sterilizing method is also described.

Abstract: An installation producing sterile bottles by blow molding starting from preforms (12), includes a sterilizing treatment unit (26), a thermal conditioning unit, a molding unit, where the sterilizing treatment unit (26) includes an atomizing device (36) provided with a nozzle (38) which sprays, onto each preform (12), in laminar-flow form, a stream (F) of vaporized sterilizing product at the interior of the preform (12) and along a mean axis of spraying (A2) of the nozzle (38), where this axis is generally parallel to the axis (A1) of the preform (12) during treatment and is radially off-center with regard to the axis (A1) of the preform (12).

Abstract: The present disclosure relates to the decontamination of articles contaminated (or thought to be contaminated) with bioweapons, such as methods and apparatus for decontaminating articles contaminated with sporualated bioweapons. In some embodiments, the methods are methods of decontaminating an environment, for example a room or building contaminated with a bioweapon.

Abstract: It is aimed to prevent electrical charging inside a resin material as well as a surface of a resin vessel at a time of sterilizing the resin vessel by being irradiated with electron beam. A bottle support unit is mounted to a lower end portion of a cylindrical rotating shaft rotatably supported by a rotating wheel. The bottle support unit includes a pair of griper members by which a mouth portion of a bottle is gripped. The bottle rotated and conveyed in a state supported by the bottle support unit is irradiated with the electron beam from an electron beam irradiator to thereby sterilize the bottle. A ground electrode is disposed to be capable of being inserted into the interior of the resin vessel through a mouth portion thereof, and the interior of the resin vessel is irradiated with the electron beam in a state of the ground electrode being inserted into the resin vessel.

Abstract: There is provided a packaging container which reserves an acidic beverage having a relatively high acidity and allows spore to remain properly without corrupting and the acidic beverage can be aseptically filled and reserved at a normal temperature with low cost without utilizing a container having high heat-proof property and expensive manufacturing equipment. An interior of a container 2 is sterilized by a sterilizing agent “b” and a heated water “c” so as to allow bacterial spore to be alive but not to allow bacteria vegetative cell, mold and yeast to be alive, and a sterilized content “a” having an acidity of an extent of suppressing germination of the bacteria spore fills the container at a normal temperature or low temperature, and then the container is sealed by a lid 3, thereby providing a packaging container 1.

Abstract: The invention refers to a device (1) and method for sterilizing partly formed packages (6) in a packaging machine. The device (1) comprises an inner chamber (2) and an outer chamber (3), the inner chamber (2) being provided with a sterilization unit (5). Further, it comprises a carrier unit (10), comprising a separating member (11) and a package carrying member (12), which is being adapted to rotate between a first position in which the package carrying member (12) is located in the outer chamber (3), and in which the separating member (11) separates the inner chamber (2) from the outer chamber (3), and a second position in which the carrier unit (10) has rotated a package (6) into the inner chamber (2) and in which the separating member (11) separates the inner chamber (2) from the outer chamber (3).

Abstract: A compact system for packaging sterile pharmaceutical liquid products injectable into suitable containers in a sterile environment comprises a plurality of operative packaging stations connected together and arranged in succession along an advancing path of said containers; the plurality of stations comprises at least a washing station intended for cleaning and decontaminating each of the said containers, at least a sterilizing station for sterilizing the containers exiting said washing station, and at least a filling and sealing station for filling said containers with said liquids and for sealing said containers; said stations and a connecting arrangement thereof are mounted in an operating configuration on a sole work platform; the washing station and the sterilizing station being arranged parallel and alongside one another, and connected together by a first conveyor of the containers arranged transversely to the washing station and to the sterilizing station to define a first substantially “U”-shaped port

Abstract: A method and device for sterilizing containers in which a plasma treatment is executed through excitation of an electromagnetic oscillation so that the plasma is excited in a vacuum in the vicinity of the container regions to be sterilized. Between arrival and discharge, the container regions to be sterilized are moved closer to the oscillation-generating device in the chamber, with continuous movement of the container and/or of the oscillation-generating device for one or more predetermined time intervals in such a way that a plasma is excited in these regions inside and/or outside the container. The chamber is provided with a transport apparatus inside it, which produces an essentially rotating motion of the container during the transport from the arrival to the discharge in the chamber.

Abstract: A method (20) and apparatus (100) for sterilizing packaging (102) is disclosed herein. The method (20) applies a solution of hydrogen peroxide onto the packaging (102) and an alkaline solution to react with the hydrogen peroxide to generate hydroxyl radicals to kill microorganism. The use of an alkaline solution allows the sterilization process to proceed at a lower temperature and a faster rate. A solution of sodium hydroxide is the preferred alkaline solution. The temperature of the process is preferably below 100° C.

Abstract: Disclosed herein is a system for sanitizing objects, particularly food products such as fruits and vegetables. The system includes two or more tanks for generation and storage of chlorine dioxide. The system provides for the simultaneous use and generation of chlorine dioxide so that the system avoids undesired down-time.

Abstract: Equipment for treating open beverage containers (3), e.g. by filling or closing, comprising: a treatment site (1), to which a container (3) can be delivered for treatment, and at which a treatment element (2) is situated that acts upon the mouth (6) of the container (3) from above, and slit nozzles (4), which are situated to the side of the treatment site (1), and discharge clean gas, and which are designed for producing a gas curtain that protects the area of the mouth (6) of the container (3). The invention is characterized in that the slit nozzles (4) are placed in, in essence, oppositely oriented jet directions whereby between the slit nozzles (4), a pressure flow is produced having flow components exiting upward and downward from the area of the slit nozzles (4) perpendicular to the plane of symmetry (S).

Abstract: An apparatus for sterilizing various articles includes a chamber defining an airtight space and an entrance and exit. A vacuum pump is coupled to the chamber for withdrawing air therefrom which reduces the chamber air pressure. An ozone generator is coupled to the chamber for introducing ozone at atmospheric pressure therein following air withdrawal. This causes efficient diffusing of the ozone into the article for sterilizing it against anthrax. The ozone is then withdrawn into an ozone filter having a non-consumable catalyst for converting the ozone back into oxygen. The apparatus may be implemented using single or multiple chambers. A conveyor extending through water chambers surrounding respective sterilizing chambers may be utilized for conveying textile articles while more traditional conveyors may be utilized for traditional mail articles.

Abstract: There are disclosed a method and a reaction apparatus which can safely and continuously treat/discharge especially a short object to be treated without any direct contact with a gas atmosphere, and which surely/efficiently treats the object with a gas without any uneven treatment. A short object A to be treated is put in a hermetically sealed cylindrical treatment section 1. In the treatment section 1, the object is held in a predetermined position by a first operation piece 11 to be treated with a gas for a predetermined time. Then, the holding by the first operation piece is released to move the object A by a desired distance. Subsequently, the object is held in a predetermined position by a second operation piece 12 to be treated again with the gas for a predetermined time, and then a treated object A1 is discharged. This discharged treated object A1 is conveyed to the outside of the apparatus.

Abstract: A liquid germicide is measured; the measured liquid germicide is injected into hollows of concave articles (1); the more or less of volume of the liquid germicide is discriminated from the injected liquid germicide; only concave articles (1) which each have a proper volume of the liquid germicide attached thereto are stored into a storage (6); thereafter the storage is closed, and the concave articles are left to stand in the closed storage for a prescribed period of time. Since the liquid germicide is injected into the hollow of the concave article (1) after measuring, and the more or less of volume of volume of the solution is discriminated from the injected liquid germicide as described above, it is possible to attach a proper amount of liquid germicide to concave article (1) such as vessel or preform, and hence to accomplish efficient sterilization in the storage (6), without the risk of the defective sterilization.

Abstract: The invention concerns a method and a device for sterilising hollow bodies, such as containers, container preforms, tubes and various conduits. The invention is characterised in that it consists in guiding (15) a vaporisable sterilising agent over the walls of the hollow body (9), using guide means (7; 13) enabling the agent to be entirely deposited over the surfaces to be sterilised.

Abstract: At the step of preheating the container, in addition to heating of the whole container, a neck portion (1a) of the container may be heated separately. Alternatively on the step of preheating the container, while whole container is heated by a hot air blast which is supplied in the container, neck portion (1a) of the container may be heated separately. Since it is difficult to increase the temperature of the neck portion as compared with other portions, by heating the neck portion separately, the effect of the preheating is performed more effectively. It is desirable that the hot air blast is supplied from the nozzle inserted in the container. For example by the method of spraying hot air blast from the outside of the portions, heating of the neck portions can be performed.

Abstract: The invention concerns a sterilizing unit for food, pharmaceutical and like products, packaged in rigid or soft containers, comprising at least an autoclave (1) adapted to receive, through at least an access door (10, 11) and by means of a loading/unloading unit (23, 24, 25), at least a container (12) wherein are arranged said packages. Advantageously, the autoclave (1) is vertically arranged and comprises internally vertical conveying means (5, 6, 7) designed to be subjected, by means of motoring means (8, 9) for loading and unloading them in a step-by-step forward movement through the access door(s) for containers in the form of shelves (12, 13).

Abstract: A pasteurizer (1) comprising an endless circulating transport conveyor (3) guided around deflection rolls (7, 8) and used for transporting through the pasteurizer (1) the products (18) to be pasteurized, and having a feed conveyor (5) and/or a discharge conveyor (9) oriented essentially transversely to the conveying direction of the transport conveyor (3) and having a smaller width than the transport conveyor (3), feed conveyor (5) and/or discharge conveyor to and away from the respective end face of the transport conveyor (3), and a transfer surface (4, 19) for bridging a distance between the conveying surface(s) of the feed conveyor (5) and/or of the discharge conveyor (9) and the conveying surface of the transport conveyor (3). The feed conveyor (5) and/or the discharge conveyor (9) is arranged so close to the respective end face of the transport conveyor (3) that the lateral boundary (K) thereof, which face the transport conveyor (3), is arranged above the contour of the respective deflection roll (7, 8).

Abstract: Sterilization apparatus includes a monitoring system capable of continuously monitoring levels of a sterilant, such as hydrogen peroxide vapor. The monitoring system includes a sensor chamber joined in fluid communication with a sterilant supply conduit of the sterilization apparatus. A gas-detecting semiconductor sensing element, and associated temperature sensor, are provided within the sensor chamber to provide output signals corresponding to detected levels of sterilant. The sensor chamber isolates parametric influence, such as relative humidity, temperature and flow rate, to provide more accurate concentration level readings. A data collection circuit is operatively coupled to the sensors to provide an output corresponding to detected levels of sterilant within the apparatus.

Abstract: Methods and systems are disclosed for initiating oxygen scavenging in an angular preformed packaging article comprising an oxygen scavenging layer. The packaging article is moved into and out of a chamber, in which it is exposed to UV radiation of at least about 280 nm. The wavelength of UV radiation to which the article is exposed can be selected so that it will be absorbed by the oxygen scavenging layer as efficiently as possible, taking into account the composition of the oxygen scavenging layer and any additional layers that are present.

Abstract: A method for treating the liquid phase of contaminated materials that are disinfected or sterilized in a treatment chamber is provided, whereby a defined liquid collector area is provided in the treatment chamber. When the liquid in the collector area reaches a maximum level it is discharged into a collector tank and when the level of liquid in the collector area reaches a minimum level liquid is returned to the treatment chamber. When the liquid in the collector tank reaches a maximum level, liquid therefrom is returned to the treatment chamber in case the maximum level of liquid in the treatment chamber is not reached or said liquid is treated in an additional high-temperature disinfector unit to obtain purified liquid. A device that carries out the method is also provided. Using the method or device provided, contaminated solid materials with a high proportion of liquid can be disinfected or sterilized.

Abstract: A method and apparatus is disclosed providing a plurality of sterile zones within a sterilization tunnel in an aseptic packaging apparatus. The sterile zones provide a plurality of sterilant concentration levels within the sterilization tunnel. Additionally, the sterile zones provide a plurality of gas flow rates within the sterilization tunnel.