EP0059097A2 - Système de conditionnement aseptique avec de l'air chaud - Google Patents

Système de conditionnement aseptique avec de l'air chaud Download PDF

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Publication number
EP0059097A2
EP0059097A2 EP82300894A EP82300894A EP0059097A2 EP 0059097 A2 EP0059097 A2 EP 0059097A2 EP 82300894 A EP82300894 A EP 82300894A EP 82300894 A EP82300894 A EP 82300894A EP 0059097 A2 EP0059097 A2 EP 0059097A2
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EP
European Patent Office
Prior art keywords
containers
conveyor
sterile
lids
product
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP82300894A
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German (de)
English (en)
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EP0059097A3 (fr
Inventor
Daniel W. Pohorski
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James Dole Corp
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James Dole Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by James Dole Corp filed Critical James Dole Corp
Publication of EP0059097A2 publication Critical patent/EP0059097A2/fr
Publication of EP0059097A3 publication Critical patent/EP0059097A3/fr
Withdrawn legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B37/00Supplying or feeding fluent-solid, plastic, or liquid material, or loose masses of small articles, to be packaged
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65BMACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
    • B65B55/00Preserving, protecting or purifying packages or package contents in association with packaging
    • B65B55/02Sterilising, e.g. of complete packages
    • B65B55/04Sterilising wrappers or receptacles prior to, or during, packaging
    • B65B55/10Sterilising wrappers or receptacles prior to, or during, packaging by liquids or gases

Definitions

  • This invention relates to a packaging system and method of packaging.
  • Steam aseptic packaging systems and methods have been used commercially for many years.
  • the substitution of other heated gases (including air) for steam is noted in literature (e.g. Martin Patents No. 2,549,216 and No. 2,631,768).
  • the use of hot air as contrasted with steam offers a number of important advantages.
  • a second important advantage of the use of hot air is a lessening of deterioration of parts which have heretofore been attacked by the steam and also a lessening of the saturation of the insulation of the casings occasioned by condensation of water in such insulation, lessening its thermal efficiency.
  • Still another advantage of the use of hot air is the fact that when steam is used in the headspace of a container, because of condensation, there is a tendency to collapse the walls of the container. Using hot air eliminates this tendency and therefore permits the use of thinner walls of metal and glass containers and also makes the use of fiber and plastic containers practical, along with other containers constructed with less rigid material.
  • the invention provides a hot air aseptic packaging system comprising a container sterilizer, said container sterilizer comprising a first casing, a first conveyor within said first casing, means for feeding empty containers. into said first conveyor, means for discharging containers from said first conveyor, first heating means, said first heating means comprising a heater for raising the temperature of air to a sterilizing temperature and blowing means for blowing sterile air above atmospheric pressure throughout said first casing to sterilize said containers as they pass through said first conveyor; a second conveyor section comprising a second casing, a second conveyor in said second conveyor section receiving containers from said first conveyor, a filler in said second casing positioned to fill product into said containers as they travel on said second conveyor, means for delivering sterile product into said filler, first transfer means for discharging sterile filled containers from said second conveyor, means for.maintaining sterile air at above atmospheric pressure within said second casing; a lid sterilizer comprising a magazine for lids, a third conveyor receiving lids from said magazine, second heating means
  • the first conveyor preferably comprises a belt, a drum and means for guiding and driving the belt in a continuous helical path around the exterior of the drum.
  • the first heating means may further comprise a return duct drawing air from the first casing back to the blowing means in a recirculation path.
  • the heater may typically be of the electric resistance type.
  • the second conveyor preferably comprises a helical conveyor having a first section of a first pitch and a second section of a second pitch greater than the first pitch, the system accommodating containers having top outward flaring flanges, the first pitch being less than the outside diameter of the flanges to force the flanges of adjacent containers into close proximity, the filler being disposed above and extending longitudinally of said helical conveyor above said first section; the filler having a' longitudinally extending slit through which product is continuously discharged in a ribbon into said containers.
  • the second conveyor section may further comprise a duct, means for delivering sterile air into the duct, and means for delivering sterile air from the duct into the second casing at above atmospheric pressure.
  • the means for delivering sterile air can be independent of the first .
  • Heating means may optionally be provided in the second casing to reduce the temperature of the containers; this cooling means may comprise a pipe and means for circulating sterile cool fluid through the pipe, the pipe having a spray aperture to spray fluid onto the exteriors of the containers.
  • the means for maintaining sterile air preferably further comprises cooling means for cooling the sterile air.
  • the means for delivering sterile product may comprise means for creating above atmospheric pressure in the product and a valve between the last-named means and the filler, the valve having a discharge port, a seat inward of the discharge port, a head shaped to engage the seat, resilient means biasing the head into engagement with the seat, the head being movable out of engagement with the seat when the pressure in the valve overcomes the force of the resilient means, whereby excess product is discharged from the valve through the discharge port.
  • the lid sterilizer may comprise a heat insulated third casing around the third conveyor and the second transfer means, the third casing being separated by a partition into . upper and lower parts, the third conveyor having at least one continuous member-and means for driving the member, the member moving the lids in the upper part and returning through-the lower part, the means of circulating sterile air delivering the air at sterilizing temperature into the upper part adjacent the magazine, a duct from the lower part back to the second heating means for recirculation back to the upper part.
  • the third conveyor preferably.comprises two horizontally spaced apart members driven together, the lids being tangential to both the members as the members are driven along the upper part.
  • the closer may be enclosed by a third casing and may further comprise a duct for sterile heated air above atmospheric pressure leading into the third casing, the duct discharging into an air distributor located adjacent the means for discharging closed containers, the air distributor having apertures opening into the third casing.
  • the discharging duct preferably also discharges into the means for maintaining sterile air in the second conveyor section, while the second conveyor section may typically communicate with the third casing.
  • the invention also provides a method of hot air aseptic packaging comprising: sterilizing empty containers by conveying said containers in an enclosed first area while subjecting said continers to hot air at a temperature in the range of 300-400°F (approx 149-2040C) for a period of time in the range of 60 to 240 seconds, conveying sterile containers through an enclosed second area in sterile air above atmospheric pressure, providing sterile product into said second area, filling said product into said containers, sterilizing lids for containers by conveying said lids in an enclosed third area while subjecting said lids to hot air above atmospheric pressure at a temperature at about 400°F (approx 204°C) for a sufficient period of time to sterilize said lids, delivering sterile filled container and sterile lids into an enclosed fourth area, applying said lids onto said containers and securing said lids to said containers.
  • the conveying sterile container step preferably includes forcing the containers close together in a line and then providing the product in a ribbon above the line to flow into the containers substantially without spillage.
  • the containers may advantageously have outward turned flanges, the flanges overlapping as the product is filled thereinto.
  • the containers are preferably cooled to a range of about 75-90° F (approx 24-32 o C ) before filling, the product also being cooled for filling.
  • pre-sterilized and cooled product may be filled into the containers at a much lower temperature than is possible where steam is employed, thereby avoiding the deterioration at elevated temperatures which otherwise occurs.
  • containers made of products such as fiber are less likely to be damaged under the conditions heretofore set forth. This reduces degradation of the product.
  • the sterilizing lids step preferably comprises providing a stack of lids, turning the stack of lids horizontal, and conveying the lids horizontal touching each other while heating the lids for sufficient time to sterilize the lids.
  • the stack of lids may be turned around corners so that the lids fan apart while turning the corners, the hot air having access to the tops and bottoms of the lids while fanned apart.
  • the steps-of applying and securing the lids is preferably performed in an enclosed area to allow sterile air to be blown into the enclosed area.
  • the sterile air for the step of conveying sterile containers may be typically from the same source as the air provided in the step of applying and securing lids.
  • the invention further provides a filler for use with a hot air aseptic packaging system comprising, a tunnel, a straight-line conveyor in said tunnel receiving sterile, empty containers at a first end and discharging said containers filled with sterile product at a second end, a filler in said tunnel positioned above said conveyor, first means for delivering said sterile product to said filler, second means for delivering sterile air under pressure to said tunnel, support means supporting said filler from said tunnel, said filler comprising a casing extending longitudinally above the path of said containers as they are moved along said conveyor, said casing being formed at its bottom with an elongated longitudinal first slit, a tube of lesser diameter then the interior of said casing disposed within said casing perforated at its top and connected to said first means, an elongated insert formed with a second slit disposed in said first slit, and detachable means securing said insert to said casing, whereby said insert may be replaced with another insert having a second slit of
  • the slit through which product is discharged is interchangeable, the width of the slit determining the volume of product dispensed.
  • this adaptability of the filler to different rates of product flow is achieved.
  • An optional feature of the filler is its adjustability for different heights and widths of containers.
  • a filler tube in which the slit may be installed is preferably supported in the filler chamber in such manner that it may readily be raised and lowered to accommodate different container heights. Additionally, guides which maintain straight line travel of the containers may be moved apart or together to accommodate different container widths.
  • the conveyor preferably comprises a helical conveyor having a first section of a first pitch and a second secticn of a second; pitch greater than the first pitch, the system accommodating containers having top outward flaring flanges, the first pitch being less than the outside diameter of the flanges to force the flanges of adjacent containers into close proximity.
  • Cooling means may advantageously provided in the tunnel to reduce the temperature of the containers; this means preferably comprises a pipe and means for circulating sterile cool fluid through the pipe, the pipe having a spray aperture to spray fluid onto the sides or exteriors of the containers, optionally before filling.
  • At least one of the guides may consist of a tube having spray holes through which sterile, cooled water may be sprayed on the containers as they pass therealong.
  • the means for maintaining sterile air preferably further comprises cooling means for cooling the sterile air.
  • the support means may comprise vertical members on either side of the tunnel, brackets fixed to said casing and extending outward to either side of the tunnel, and clamp means to clamp the outer ends of the brackets to the vertical members, the clamp means being detachable, whereby the filler may be raised or lowered relative to the conveyor to accommodate containers of different heights.
  • the first means may comprise means for creating above atmospheric pressure in the product and a valve between the last-named means and the filler, the valve having a . discharge port, a seat inward of the discharge port, a head shaped to engage the seat, resilient means biasing the head into engagement with the seat when the pressure in the valve overcomes the force of the resilient means, whereby excess product is discharged 'from the valve through the discharge port.
  • a second valve may be provided between the first mentioned valve and the filler, the second valve having a second seat, a second head, and an external actuator for closing the second head against the second seat and for moving the second head away from the second seat variable distances.
  • the invention still further provides a filler valve comprising a body having a first inlet port and a first outlet port and a third port, a first seat in said body between said first inlet and said first outlet ports, a first head shaped to seal against said first seat, a first stem fixed to said first head and extending out through said third port, resilient means biasing said first head against said first seat, said resilient means being adjustable in force, means for delivering product under pressure from a source to said first inlet port, means for returning product from said first outlet port to said source; a second body having a second inlet port connected to said first outlet port, a second outlet port adapted to be connected to a filler, and a fourth port; a second seat in said second body between said second inlet port and said second outlet port, a second head shaped to seal against said second seat, a second stem fixed to said second head and extending out through said fourth port and actuator means connected to said second stem to move said second head against said second seat and to move said second head away from said second seat variable distance
  • the valve can be installed between the pump or gravity feed of the product and the filler to prevent overflow of product, which might otherwise clog the filler and require the line to be shut down until the overflow is cleaned and also to maintain the product being forced into the filler at a uniform pressure.
  • An advantage of the present invention is the reduction in the required floor space of the packaging facility.
  • a further advantage of the invention is an additional reduction of energy requirements by recirculation of air in the container and lid sterilizing and other portions of the system.
  • Still another advantage of the invention is that the use of pressurized air prevents introduction of non-sterile air from the atmosphere into the system after the container and lids have been sterilized.
  • An additional advantage of the invention is that many of the components of the system comprise adaptations of. standard pieces of equipment, thereby making unnecessary large scale redesign of these components and large inventories of spare parts.
  • Windows may be provided in the various components to allow continuous visual inspection of the product, containers and lids.
  • Containers 19 having top flanges 20 and which may be metal, fiber, glass,plastic or other material are fed into a container sterilizer 21 where they are heated to a temperature of up to approximately 500°F by hot air.
  • the containers then pass through a straight-line conveyor 22 which includes a filler section 23 where a pre-sterilized, cooled liquid or semi-liquid product is filled into the containers.
  • a closing machine 24 which is a modified, enclosed adaptation of a well-known commercially available machine.
  • the lids 18 for the containers, deposited in a lid storage magazine 26 pass through a lid sterilizer 27 and thence up an inclined lid conveyor 28 to;the closer 24. In the closer 24 the lids are attached to the container.
  • the components of the system will be described in detail.
  • the container sterilizer 21 shown in some detail in Figs. 2 and 3 has a double walled casing 31 filled with a heat insulation material 32. In the walls of the casing 31 at convenient intervals are observation windows 33.
  • the containers 19 are fed into sterilizer 21 through the container inlet 34 preferably in double file. From the bottom of the inlet 34 the containers, still in double file, pass onto a conveyor belt 36 which passos around and over the power driven intake pulley 37.
  • the conveyor belt 36 passes in a helical upward path around a central primary drum 38.
  • a helical trackway 39 supports the belt 36 in its path.
  • the containers pass down through a discharge chute 41 and out of the casing 31.
  • the belt 36 is directed by end pulley 42 and additional pulleys 43 back to the intake pulley 37.
  • the structure herein illustrated is a modification of a commercially available conveying system such as that shown in Patent No. 3, 348,659.
  • a heater 46 which may bo electric, gas or oil fired. In a preferred device a resistance electric heater is used.
  • a blower 47 forces controlled air up from the air return duct 48 through duct 51 which contains the heater 46 and then down through inlet duct 49 which leads into the casing 31.
  • the air is preferably at a suitable temperature such as 300°F (approx 149°C) for fiber containers which is sufficient to sterilizo containers when they are subjected to such a temperature for a period of about 60 to 240 soconds, normal time for containers 19 to pass through the sterilizer 21.
  • 450°F (approx 232°C) is suitable.
  • the resident time in the container sterilizer may be varied by increasing or decreasing the speed of the conveying system.
  • a horizontally disposed tunnel 61 Communicating with the lower end of the discharge chute 41 is a horizontally disposed tunnel 61. Continuously moving within the tunnel 61 is a conveyor chain 62 and onto the horizontal top stretch of the chain 62 the containers pass in single file. Pulley 63 designates the driver pulley at the proximal end of the tunnel 61.
  • Containers 19 are restrained as they are discharged from chain 62 and received in helix 71 by guide 68.
  • Guide 68 carries horizontal rods 226 which slide in holes in U-shaped brackets 227 and are biased inwardly by springs 228.
  • Brackets 227 are adjustably held by bolts 229 threaded into the wall of tunnel 61. The heads of bolts 229 are externally accessible for adjustment.
  • Helix 71 Mounted horizontally within dhe distal path of the tunnel 61 is helix 71. Helix 71 has at its proximal end flights 72 which are uniformly spaced apart slightly less than the diameter of the flanges 20 of the containers 19 being handled. It will be understood that for different size containers 19 different helices 71 are required. At the distal end of the helix 71 the flights 73 are spread apart, for a purpose which hereinafter appears. Shaft 74 of helix 71 is mounted in bearings 75 at either end.
  • the containers 19 discharged off chain 62 are supported partially by horizontal plate 76 and partially by the vertical flange 78 of horizontal bar 77. There are holddown bars 79 mounted horizontally to engage the top flanges of 20 of the containers 19.
  • Bars 79 are supported by brackets 81. As best shown in Fig. 6 the bars 79 may be moved in and out to accommodate containers of different sizes.
  • the containers 19 are partially supported and are.driven by the flights 72, also as best shown in Fig. 6.
  • the containers are kept in contact with the helix 71 by means of horizontally disposed vertically spaced apart tubes 82.
  • Tubes 82 preferably perform an additional function in that sterile cooling water may be pumped therethrough and the tubes are formed with spray holes (not shown) which spray water against the sides of the containers 19, cooling and cleaning the same.
  • the spray water drains from the tunnel 61 through drain 83.
  • Helix 71 is driven from a power take-off 86 of the closer 24.
  • the take-off sprocket 86 drives chain 87 which is connected to sprocket 88'on the shaft 74 of helix 71.
  • Idler sprocket 89 maintains the chain 87 tight.
  • Shielding 91 functions as a guide for containers 19 at one side.
  • the tunnel 61 There are windows 92 along the length of the tunnel 61 through which the attendant can observe the containers 19 as they pass under the filler which is to be described.
  • a cover 93 is hinged by hinge 94 so that in case of malfunction the operator may obtain access to the interior of the tunnel 61.
  • a distributor 96 having air holes 96A which distributes air throughout the interior of the tunnel.
  • a duct 97 alongside the tunnel 61 communicating at intervals with distributors 96.
  • the tunnel 61 is preferably of double-walled construction and the space between the walls is filled with insulation 98 which may be a ceramic fiber.
  • insulation 98 which may be a ceramic fiber.
  • the materials of which the walls are constructed are preferably stainless steel both inside and out.
  • blower 101 is installed in a convenient location such as the top of the sterilizer 21 adjacent the blower 47.
  • Blower 101 communicates with a heater 102 which heats the air to a temperature of about 400°F (approx 205°C), thence to a horizontal duct 103 along the top of the sterilizer 21 and thence down through a vertical duct 104 to a horizontal duct 106 which communicates with the duct 97.
  • air is preferably at 450-500°F (approx 232-260°C) and then reduced.
  • a heat exchanger 107 may be installed in the vertical duct 104.
  • the heat exchanger 107 has a coolant inlet 108 and a coolant outlet 109.
  • coils (not shown, but of a common commercial type) around which the hot air in the duct 104 circulates and by which ita comporature 1a materially reduced. Some products deteriorate rapidly at high temperatures. Accordingly, it is desirable to cool the air emitted through duct 106, while maintaining its.pressure above ntmospheric. Such sterile air, cooled but above atmospheric pressure, is introduced in the filler 111. The pressure of the air prevents ingress of non-sterile air from the surrounding atmosphere.
  • Filler 111 is a modification of a commercially known structure. It is mounted above the path of the containers 19 by means of horizontally outwardly extending brackets 251 spaced at intervals along the length of the filler 111. Each bracket 251 is received in a clamp 252 which i.a, in turn, supported from a vertical support 253 on the side of the filler by moans of bolts 254. By raising and lowering the clamp 252 - i.e., by inserting the bolts 254 through different holes in the support 253, the filler casing 116 may be raised and lowered.
  • the containers 19 are supported against lateral displacement by guides 256 fixed to brackets 257.
  • Threaded rods 258 are threaded into the vertical flanges of brackets 257. These rods 258 pass through one of several vertically spaced holes in vertical support 259 and are fixed in place by means of nuts 261. Accordingly, by turning threaded rods 258, the brackets 257 and hence the guides 256 may be moved inward and outward so that the guides engage the walls of the containers 19 as they pass under the filler.
  • guides may bo positioned near the tops of containers 19. The lower edges of tho containers 19 are guided by bottom guides 262.
  • Filler 111 has a horizontally disposed casing 116 formed with a continuous slit 117 along its bottom edgo.
  • Interchangeable inserts 266 of Teflon or other suitable material are attached to the slit 117 by means of brackets 267 held by bolts 268 into casing.
  • the width of the slite 269 in tho inoort determines the rate of flow of product. By replacing the insert 266 different product flow may be obtained.
  • a curtain of product is discharged through the slit 269 in the insert 266 immediately above the path of the contain- ors 19 as they are moved along by the helix 71.
  • Pre-sterilized, cooled product is pumped or otherwise forced into a tube 118 within the casing 116.
  • Tube 118 has holes 119 at intervals at its top so that the liquid or semi-liquid product is forced out through the holes 119 and into the interior of the casing 116.
  • the product is fed through an inlet 112 at one end of tube 118.
  • This structure of filler 111 has been found to promote more even distribution of product.
  • the pitch of the flights 72 below the filler 111 is such that the containers 19 arc forced together so that the flanges 20 partially overlap. Hence, there is a minimum of spillage of product discharged through slit 269.
  • a valve 191 which may be used to by-pass flow of product into filler 111, particularly where multiple fillers are used in a particular installation, is shown.
  • Pre-sterilized, cooled product is pumped by pump (not shown) in the product processing plant which is separated from the installation shown in Fig. 1 in many instances by a partition 192.
  • a pipe 194 connects with the pipe 193 extending through the partition, the pipe 194 having a flange 196, which is fasten- od to the partition 192.
  • Pipe 194 may bo connected to an elbow 197. Used throughout the installation are quick-connect couplings 199 of conventional construction.
  • Elbow 197 is connected to an intake 198 of the valve 191.
  • Discharge port 201 of valve 191 is connected to a too 202.
  • the opposite end of tee 202 may be connected to a pipe 203 which lends to another filler.
  • the discharge or vertical leg 204 of the tee 202 is connected by moans of pipe 206 to the inlet 122 ; of the filler 111.
  • Other means of connection may, of course, be employed.
  • valve 191 Within the body 198 of valve 191 is sleeve 211 having a reduced diameter portion 212 and an enlarged diameter portion 213.
  • the juncture of the portions 212 and 213 are formed with a. seat 214, preferably conical.
  • Valve head 216 is' formed at one end with a taper 217 which matches the seat 214. Head 216 is connected to stom 218 which is biased by means of spring 219 into senting ongagement.
  • a fitting 221 is connoctod to tho sleeve 211 and such fitting 221 has a discharge port 222 which leads back to the source of product.
  • Temperature sensor 224 is connected to the body 201 to sense the temperature of product discharged therefrom.
  • the product is pumped by means not shown through the pipe 193.
  • the head 216 is seated and product flows out through reduced diameter portion 212 to the right as viewed in Fig. 13 and thence through tee 202 and pipe 206 to the filler 111.
  • the pressure within the reduced diameter portion 212 increases to the point where it overcomes the force of the spring 219 and the head 216 moves to the left as viewed in Fig. 13.
  • Surplus product then flows out of the discharge port 222 back to the source of product.
  • the discharge port 222 is preferably on the same side of the partition 192 as is the pipe 193.
  • FIG. 16 A modification of the valve heretofore described is illustrated in Fig. 16.
  • the valve of Fig. 16 resembles that shown in Fig. 13 and the same reference numerals followed by the subscript a are used to designate corresponding parts.
  • Tee 236 Product under pressure from a pump or gravity is introduced to one end of Tee 236.
  • quick-connect clamps 194a the end of Tee 236 opposite that through which product is introduced is connected to a pipe 193a by means of quick-connect clamps 194a or other means.
  • the pipe 193a passes through partition 192a and is secured thereto by flange 196a.
  • a pressure relief valve 237 On the product preparation side of partition 192a is a pressure relief valve 237.
  • Valve 237 has a T-shaped casing 238 formed with a seat 239.
  • valve head 241 which seats on seat 239, having a stem 242 which extends exteriorly of casing 238 and is biased by an adjustable spring 243.
  • the head 241 seats on the seat 239.
  • head 241 unseats -i.e., moves to the right as viewed in Fig. 15 , permitting excess product to flow out through the filler 111.
  • a sleeve 211a is installed in the intake arm of tho valve 191a, this sleeve having a copical sent 214a against which hood 216a may seet.
  • Valve actuator 246 determines the opening and closing of the valve 191a and the amount of opening thereof to maintain the desired pressure within the filler 111 into which the valve 191a discharges. Where closure of the head 216a creates nn excessive pressure in the pipe 193a, the pressure relief valve 237 unseats and excess product is discharged back to the source of product.
  • closer 24 has an inlet chain 116 which passes around a sprocket 117 at the distal end of the tunnel 22.
  • Chain 116 has horizontal fingers 118 which are spaced apart a proper distance to feed containers into the turret of the closer (hereinafter described) and such spacing of fingers 118 is the Same as the spacing of the spread flights 73.
  • Guides 119 transfer the containers 19 discharged from the helix 71 into the spaces between the fingers 118.
  • the chutes 137 are mounted so that they are moved in a rotary pata to one end 138, whereupon the lids 18' in that particular chute are moved outward into a vertically disposed transfer station 139 which connects with guides 141 which cause the lids to make a 90 degree curve bend 140 and assume a horizontal position.
  • the covers reach the lower end of the bend 140, they are deposited to rest upon a pair of stainless steel chains 142 driven around sprockets 143 at either end of the horizontal path.
  • the chains 142 move the lids 18 along the horizontal path above horizontal partition 146.
  • the return stretch of the chains 142 is below partition 146. After leaving the horizontal stretch, the lids are transferred to an upward inclined elevator 148 which has a similar chain 149 drive.
  • a second 90 degree arcuate bend 151 which communicates with the top of the cover stack of closer 24, hereinafter described.
  • magnetic holddowns 152 are used to prevent lids from being forced out of the stack, as well understood in the industry. Non-steel lids are retained in position by mechanical means not illustrated herein, but understood in the art.
  • Casing 147 is provided around the lower end of the transfer station 139 and continues around the horizontal lower stretch and the inclined elevator 148 and the bend 151 which leads to the closing machine.
  • the casing 147 preferably has double walls 156 with heat insulation material 157 between the walls 156.
  • Mounted near the machine is a blower 161, the discharge 162 of which connects to a heater 163, which may be of various types, typically may be of the electric resistance type.
  • Return air is recirculated through return duct 166 below partition 146. Closer 161 draws air from return duct 166. As hereinafter appears, the closer 24 is also in a sterile atmosphere with non-sterile atmospheric air excluded by reason of the pressure inside the enclosure of the closer.
  • the closer 24 shown particularly in Figs. 11 and 12 is an adaptation of the enclosed closer illustrated and described in Patent No. 3,349,542 except that steam is not used therein.
  • An enclosure 171 which communicates with the tunnel 71 feed and filler is double-walled and provided with insulation 172 completely encloses the closer 24. Since sterile air is forced into the enclosure, the pressure is greater than atmospheric and this ensures that non-sterile air cannot enter the enclosure.
  • Duct 97 which extends alongside the conveyor 22 is formed with a bend 173 which communicates with a distributor 174 inside the enclosure adjacent the discharge of the seamed containers.
  • the sterilized lids 18 which have been deposited in- to the closer from the lid sterilizer 27 heretofore described are fed one at a time into pockets 176 in the lid turret 177. Further, containers 19 are advanced by the fingers 118 of the conveyor chain 116 and are fed into the pockets 178 of the main turret 179 of the closer. The lids 18 on the lid turret 177 are brought into position over the containers 19 by timed rotation of the lid turret 177. By means well known in the seamer art, the lifters 181 of the main turret lift each container 19 into contact with a lid 18 and thereupon seaming rolls (not shown) attach the lid to the container.
  • the completed container 182 is then transferred into the discharge star wheel 183 and thence guided by guides 184 out of the system.
  • the details of-the closing machine are not herein illustrated, being of any of several well-known types.
  • the preferred form herein illustrated is the Angelus model 60L seamer which is shown partially in said Patent No. 3,349,542.
  • Pipe 186 sprays sterile cool water through holes onto the lid push fingers (not shown) to keep them clean.
  • Sprays 188 of pipe 187 are in a vertical line and spray sterile, cooled liquid on the container lifter 183 and also on the seaming rolls (not shown) to prevent build-up of product thereon.
  • sterile air in the closer 24 is the preferred way of preventing ingress of atmospheric air, nitrogen or steam (in accordance with conventional practice) may bo used.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Food Preservation Except Freezing, Refrigeration, And Drying (AREA)
  • Apparatus For Disinfection Or Sterilisation (AREA)
EP82300894A 1981-02-23 1982-02-22 Système de conditionnement aseptique avec de l'air chaud Withdrawn EP0059097A3 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US23676681A 1981-02-23 1981-02-23
US236766 1994-05-02

Publications (2)

Publication Number Publication Date
EP0059097A2 true EP0059097A2 (fr) 1982-09-01
EP0059097A3 EP0059097A3 (fr) 1983-04-06

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EP82300894A Withdrawn EP0059097A3 (fr) 1981-02-23 1982-02-22 Système de conditionnement aseptique avec de l'air chaud

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EP (1) EP0059097A3 (fr)
JP (1) JPS57163617A (fr)
CA (1) CA1182790A (fr)
IL (1) IL65030A0 (fr)
ZA (1) ZA821114B (fr)

Cited By (4)

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EP0383408A1 (fr) * 1989-02-17 1990-08-22 Shikoku Kakoki Co., Ltd. Machine d'emballage
WO1998046486A1 (fr) * 1997-04-16 1998-10-22 Crown Cork & Seal Technologies Corporation Appareil et procede d'emballage aseptique
FR2772002A1 (fr) * 1997-12-09 1999-06-11 Tetra Laval Holdings & Finance Procede et dispositif de traitement d'un emballage dans des conditions hygieniques dans une machine de remplissage
CN113879632A (zh) * 2021-05-15 2022-01-04 余姚市联海实业有限公司 一种消毒机

Families Citing this family (2)

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Publication number Priority date Publication date Assignee Title
JPH089383B2 (ja) * 1987-08-27 1996-01-31 雪印乳業株式会社 キャップ殺菌装置
JPH01226570A (ja) * 1988-02-26 1989-09-11 Toppan Printing Co Ltd 液体用袋及びその袋への液体の無菌充填方法

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US2631768A (en) * 1949-12-27 1953-03-17 Dole Eng Co James Filling apparatus and method
GB689915A (en) * 1949-07-11 1953-04-08 Schwarz Engineering Company In Apparatus for filling products in containers
GB978808A (en) * 1962-05-09 1964-12-23 William Mckinley Martin A filler for an aseptic canning system
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GB1184883A (en) * 1967-05-10 1970-03-18 Mario Sordi A Back Pressure Valve Device for Feeding Circuit of a Machine for the Aseptic Packing of Liquids
US3744209A (en) * 1971-01-13 1973-07-10 Dean Foods Co Sterilized packaging system
US3828833A (en) * 1969-05-08 1974-08-13 Heinz Co H J Aseptic container filling apparatus

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US2549216A (en) * 1947-08-09 1951-04-17 Dole Eng Co James Apparatus and method for preserving products in sealed containers
GB689915A (en) * 1949-07-11 1953-04-08 Schwarz Engineering Company In Apparatus for filling products in containers
US2631768A (en) * 1949-12-27 1953-03-17 Dole Eng Co James Filling apparatus and method
GB978808A (en) * 1962-05-09 1964-12-23 William Mckinley Martin A filler for an aseptic canning system
US3349542A (en) * 1965-04-19 1967-10-31 Dole Eng Co James Container seamer and enclosure therefor
US3348659A (en) * 1967-04-19 1967-10-24 Ashworth Bros Inc Conveyor system
GB1184883A (en) * 1967-05-10 1970-03-18 Mario Sordi A Back Pressure Valve Device for Feeding Circuit of a Machine for the Aseptic Packing of Liquids
US3828833A (en) * 1969-05-08 1974-08-13 Heinz Co H J Aseptic container filling apparatus
US3744209A (en) * 1971-01-13 1973-07-10 Dean Foods Co Sterilized packaging system

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0383408A1 (fr) * 1989-02-17 1990-08-22 Shikoku Kakoki Co., Ltd. Machine d'emballage
WO1998046486A1 (fr) * 1997-04-16 1998-10-22 Crown Cork & Seal Technologies Corporation Appareil et procede d'emballage aseptique
FR2772002A1 (fr) * 1997-12-09 1999-06-11 Tetra Laval Holdings & Finance Procede et dispositif de traitement d'un emballage dans des conditions hygieniques dans une machine de remplissage
CN113879632A (zh) * 2021-05-15 2022-01-04 余姚市联海实业有限公司 一种消毒机
CN113879632B (zh) * 2021-05-15 2023-06-27 余姚市联海实业有限公司 一种消毒机

Also Published As

Publication number Publication date
ZA821114B (en) 1983-02-23
EP0059097A3 (fr) 1983-04-06
CA1182790A (fr) 1985-02-19
IL65030A0 (en) 1982-04-30
JPS57163617A (en) 1982-10-07

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