US20060289079A1 - Valve for pre-vacuum filler for products with particulates - Google Patents
Valve for pre-vacuum filler for products with particulates Download PDFInfo
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- US20060289079A1 US20060289079A1 US11/478,369 US47836906A US2006289079A1 US 20060289079 A1 US20060289079 A1 US 20060289079A1 US 47836906 A US47836906 A US 47836906A US 2006289079 A1 US2006289079 A1 US 2006289079A1
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- Prior art keywords
- housing
- passageway
- filler
- valve
- outlet
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B31/00—Packaging articles or materials under special atmospheric or gaseous conditions; Adding propellants to aerosol containers
- B65B31/04—Evacuating, pressurising or gasifying filled containers or wrappers by means of nozzles through which air or other gas, e.g. an inert gas, is withdrawn or supplied
- B65B31/044—Evacuating, pressurising or gasifying filled containers or wrappers by means of nozzles through which air or other gas, e.g. an inert gas, is withdrawn or supplied the nozzles being combined with a filling device
Definitions
- the present invention relates to an apparatus and process for pre-vacuumizing receptacles to be filled with product, and more particularly, to a filling valve capable of pre-vacuumizing a receptacle and then quickly and accurately filling the receptacle.
- Vacuum fillers remove entrapped air from pre-filled products such as fruits, vegetables, or fish, and accurately fill syrup, brine, oils, or sauces to a predetermined headspace.
- a container enters the filling station and is positioned onto a lifter plate which raises the container against a filling valve to seal it from the atmosphere.
- the lifter is lifted by its lifter roller which moves onto a camtrack, called the liftercam.
- the air in the container is removed by means of vacuum.
- product is drawn into the container due to the underpressure in the container.
- a third phase further fills the container with product to the desired filling level. This third phase can be done with or without the help of vacuum.
- the container is connected to the atmosphere and the lifter plate is lowered before the container is being discharged out of the filler.
- a filling valve which contains typically a movable part with holes and/or grooves to connect the container with the vacuum, the filling bowl or the open atmosphere.
- particulates such as sauces with pieces of vegetables.
- a filler valve is interposed between a storage bowl and a container to be filled with the liquid or a liquid and particulate mixture.
- the filler valve includes a housing disposed beneath the bowl.
- the housing has an inlet in content flow communication with the bowl and an outlet in content flow communication with a container to be filled.
- the housing defines portions of a vacuum passageway having an inlet at the housing content outlet and a distal connection location connectable to a source of vacuum.
- the valve also includes a rotatable filler plug closely receivable within the housing, with at least one fill passageway transversely extending through the filler plug to be in registry with the housing content inlet and content outlet at a particular angular orientation of the filler plug within the housing.
- the filler plug is rotatable between an initial position within the housing, wherein the plug fill passageway is out of registry with the housing inlet and outlet and the vacuum passageway is operable to apply vacuum to the container at the housing outlet, and a second position wherein the filler plug fill passageway is in registry with the housing inlet and outlet to allow content to flow from the storage bowl to the container.
- the housing includes portions that define a ventilation passageway from a ventilation inlet to the housing content outlet, thereby to provide ventilation at the housing content outlet during filling of the container with content from the storage bowl.
- the filler plug includes two fill passageways extending transversely therethrough.
- One of the fill passageways is designed to permit content to flow from the storage bowl to the container with the ventilation passageway in closed condition, and the second fill passageway designed to allow content to flow from the storage bowl to the container with the ventilation passageway open.
- a distribution plate is coupled to the distal end portion of the filler plug to rotate therewith, the distribution plate operable to open and close the vacuum passageway and the ventilation passageway during operation of the filler valve.
- flushing fluid is directed to the housing content outlet after a container has been filled, thereby to flush away content that may remain at the housing outlet.
- the flushing fluid may be routed through the filler plug and directed to the housing outlet after filling of the container has been completed.
- FIG. 1 is a pictorial view of an embodiment of an installed filler valve
- FIG. 2 is a cross-sectional view of FIG. 1 , taken substantially along lines 2 - 2 thereof and with certain components removed for clarity;
- FIG. 3 is a pictorial view of a filler valve, enlarged relative to FIG. 1 ;
- FIG. 4 is a pictorial view of the valve in FIG. 3 showing the underside of the filler valve
- FIG. 5 is a top view of the valve of FIG. 3 ;
- FIG. 6 is a cross-sectional view of the valve of FIG. 5 , taken substantially along lines 6 - 6 thereof;
- FIG. 7 is a top view of the valve body
- FIG. 8 is a cross-sectional view of FIG. 7 , taken substantially along lines 8 - 8 thereof;
- FIG. 9 is a rear elevational view of the valve body of FIG. 7 ;
- FIG. 10 is a pictorial view of a valve filler plug
- FIG. 11 is a cross-sectional view of FIG. 10 , taken substantially along lines 11 - 11 thereof;
- FIG. 12 is an elevational view of a distribution plate
- FIG. 13 is a cross-sectional view of FIG. 12 , taken substantially along lines 13 - 13 thereof;
- FIG. 14 is an elevational view of an end plate
- FIG. 15 is an elevational view of the end plate, taken from the opposite side of FIG. 14 ;
- FIG. 16 is a side edge view of the end plate shown in FIGS. 14 and 15 ;
- FIG. 17 is a pictorial view of a plug
- FIG. 18A is a proximal end view of a filler valve
- FIG. 18B is an elevational cross-sectional view of the filler valve of FIG. 18A , with FIGS. 18A and 18B showing the valve in one orientation of the filler plug;
- FIGS. 19A and 19B correspond to FIGS. 18A and 18B , but with the filler plug rotated 90°;
- FIGS. 20A and 20B correspond to FIGS. 19A and 19B , but with the filler plug rotated a further 90°;
- FIGS. 21A and 21B correspond to FIGS. 20A and 20B , but with the filler plug rotated a further 90°.
- a filler valve 30 is illustrated as mounted beneath filler bowl or enclosure 32 , typically holding a liquid, for example, syrup, brine, oil, sauce, etc. Particulates may be present in the liquid, for example, pieces of vegetables within a sauce.
- the present invention is designed to efficiently and very quickly fill a container 34 with a desired liquid while removing entrapped air from the container and avoiding clogging the valve with particulates in the liquid.
- the major subassemblies/components of the filler valve 30 include a housing 36 for receiving a rotatable filling plug 38 therein.
- An end plate 40 closes off the distal end of the housing 36 , and a distribution plate 42 , rotatable with the plug 38 , is sandwiched between the plug and the end plate 40 to direct filling liquid through the valve as well as directing a vacuum through the valve to evacuate the container 34 prior to the filling operation, as described below.
- the distribution plate functions to vent the container 34 during the filling operation.
- the bowl or enclosure 32 is illustrated as a thin walled vessel of a rectangular shape.
- the bowl can be of other shapes, such as circular, and can be of other sizes, as desired.
- the filler valve 30 is positioned along a perimeter of the bowl adjacent exterior wall 44 . Although only one filler valve 30 is shown, a number of filler valves may be utilized in conjunction with bowl 32 , perhaps positioned side by side to each other, or positioned along other sides of the bowl.
- the valve 30 is mounted to the bowl 32 by an L-shaped bracket 46 having a lower horizontal leg section connected to an upper wall 48 of the valve housing 36 , and a longer upright leg section connectable to a mounting rail 50 extending horizontally along a lower portion of wall 44 .
- a spacer 52 is disposed between the bracket upright leg and mounting rail 50 to correctly position the valve 30 relative to an outlet opening 54 formed in the bottom or floor 56 of the bowl.
- the bowl instead could be mounted directly to the bowl by hardware members extending between the bowl and the valve housing 36 .
- valve housing 36 is shown as being generally rectilinear in shape, having a substantially flat upper wall 48 , as described above, to which the housing mounting bracket 46 is attached.
- the housing also includes a generally cylindrically shaped throughbore 58 extending horizontally through the housing from front face 60 to rear face 62 to closely receive filler plug 38 therein.
- Product inlet (liquid mixture) 64 extends downwardly through the upper wall 48 in alignment with product outlet 66 formed in the housing lower wall 68 .
- the housing inlet and outlet 64 and 68 extend diagonally relative to the longitudinal centerline 70 of the throughbore 58 .
- a container filling station 80 is formed in the bottom of valve 30 for receiving containers to be filled.
- the filling station is defined by a circular seat 82 formed in the housing bottom wall 68 .
- a seal or gasket 84 overlies the seat 82 so as to achieve an airtight interconnection with the outer opening of the container 34 .
- the seal/gasket may be composed of various types of materials, for example, natural or synthetic rubber, such as neoprene, nitril-butil rubber or silicon rubber.
- a short nozzle portion 86 extends downwardly from a central portion of the seat 82 , through which the lower product outlet 66 extends.
- a bridging block 90 is interposed between the upper side of housing 36 and the underside of bowl 32 .
- the block 90 is sized lengthwise to snugly fit between the upper surface of housing top wall 48 and the lower surface of the bowl floor 56 .
- the bridging block 90 includes a vertical throughbore 92 sized and located to form a passageway between bowl opening 54 and housing inlet 64 .
- the block 90 can be secured and placed between the bowl 32 and housing 36 by any convenient method, including the use of threaded fasteners 94 extending through a washer plate 96 positioned against the top surface of the bowl 32 through the bowl floor 56 to engage within threaded openings formed in the bridge block 90 . As shown in FIG.
- O-rings or other types of seals may be employed at the interface of the bridging block and bowl floor 56 , as well as at the interface between the bridging block and the housing upper wall 48 , thereby to help prevent leakage of the filler liquid as it passes from the bowl to the valve 30 .
- a vacuum passageway 100 extends from container connection station 80 through the housing 36 to the back/rear face 62 of the housing.
- the passageway 100 has a short diagonal section 102 extending upwardly from the nozzle 86 to intersect with a horizontal longitudinal section 106 extending through the lower wall 68 of the housing to terminate at an opening 108 formed in the housing rear face 60 .
- the vacuum passageway 100 is shown as circular in cross-section, but may be of other cross-sectional shapes.
- a check valve 110 is positioned in the diagonal section of the vacuum passageway to close off the passageway when a vacuum is not being applied to the container filling station. The function of the vacuum passageway is discussed below.
- Housing 36 also includes a vent passageway 112 extending downwardly from the top of the valve 30 and then rearwardly to the rear face 62 of the housing.
- a vent stack 114 extends upwardly a short distance from the upper surface or wall 48 of the housing.
- a vent tube 116 extends upwardly from the stack 114 to an elevation toward the upper portion of the bowl 32 so as to be above the height of the liquid when the bowl is filled.
- the vent passageway 112 has a vertical section 118 extending downwardly through the vent stack 114 to intersect with an elongate horizontal section 120 extending horizontally through the housing upper wall 48 to terminate at an outlet opening 122 formed in the rear face 64 of the housing.
- the function of the vent passageway 112 is described below. It is to be appreciated that both the vacuum passageway and ventilation passageway may be routed differently through the housing 36 than described and illustrated.
- the filler plug 38 is illustrated as including an elongate, circular plug body 130 sized to be closely receivable within a horizontal housing bore 58 .
- a cylindrical sleeve 132 fits closely over plug body portion 130 to enable the filler plug 38 to anti-frictionally rotate within the housing 36 .
- the sleeve may be composed of or coated with an inert anti-friction material, for example an anti-galling nickel alloy.
- the plug body includes a shoulder or rim portion 134 of a circumference larger than the sleeve 132 to overlap the housing front face 60 , see particularly FIGS. 2 and 6 .
- An O-ring or other type of seal 136 may be positioned between the housing front face 60 and the adjacent surface of the shoulder/rim 134 .
- Two transverse, diagonal filler holes or passageways 138 and 140 extend through the plug body.
- the filler holes 138 and 140 are positioned and sized to be in alignment with housing product inlet 64 and outlet 66 when the plug 38 is at a particular rotational position relative to the housing 36 .
- the filler holes 138 and 140 are disposed 90° relative to each other.
- the filler plug 38 further includes a drive wheel shown in the form of a star wheel 142 spaced from the proximal end of the plug body 30 corresponding to the rim 134 .
- a drive wheel shown in the form of a star wheel 142 spaced from the proximal end of the plug body 30 corresponding to the rim 134 .
- the “proximal” and “distal” ends of the plug 38 and the housing 36 are designated for reference only for convenience in describing the embodiment of the valve.)
- a reduced diameter neck portion 144 is used to space the star wheel 142 outwardly from the shoulder/rim 134 .
- the star wheel 142 includes four radially extending lug portions 146 shaped substantially identically to each other and positioned 90° apart from each other about the longitudinal center line 148 of the filler plug 38 .
- Each of the lug portions 146 has an engagement side or surface 150 defining a camming surface composed of a radially inwardly located rising surface portion 152 that “rises” in the radially outward direction to transition into a lobe portion 154 and then transitions into a declining, tapering portion 156 to a rounded tip or end portion 158 .
- the lug portions 146 are in registry with rollers 166 mounted in the radially outwardly end portions of drive arm 168 extending radially from a circular drive plate 170 , shown in FIG. 1 .
- the drive arms 168 extend radially from the rotational center 172 of the drive plate 170 .
- Each of the drive arms 168 may be connected to the drive plate 170 by numerous techniques, including that shown in FIG. 1 .
- the drive arms 168 are connected to the drive plate 170 through perimeter slots 180 , 182 , and 184 .
- the perimeter slots are arcuate and also are concentric with the rotational axis 172 of the drive plate 170 .
- the outer rim portion 186 of the drive plate 170 located between a corresponding slot 180 , 182 , 184 and the outer circumference of the drive plate, is sandwiched between a radially inwardly end portion of the drive arm 168 and a keeper block 188 .
- the keeper block 188 overlaps the drive plate 170 to bear against the surface of the drive plate on both sides of the slots 180 , 182 , and 184 .
- the keeper plate may have a relief or undercut portion to accommodate the thickness of the drive plate 170 .
- Threaded fasteners 189 extend between the drive arm 168 and the keeper plate 188 , with one of the fasteners passing through the slots 180 , 182 , and 184 . It will be appreciated that by the foregoing construction the drive arms 168 may be positioned at different locations along corresponding slots 180 , 182 , and 184 , thereby to control or alter the rotational position of the filler plug 38 relative to the angular orientation of the drive plate 170 . This enables the stages of the valve operation and duration of the stages to be altered or selected.
- drive rollers 66 engage against the engagement surface 150 of the star wheel lug portions 146 , initially radially inwardly of the lobe portions 154 of lugs, and then roll over the lobe portions themselves, and then along the declining portion 156 of the lug and past a tip portion 158 of the lug, thereby disengaging from the lug.
- the drive rollers 146 are spaced from the drive arm 168 by a shaft 190 extending laterally from the end portions of the drive arms 168 .
- Ball bearings or other provisions, not shown, may be employed between the shaft 180 and the drive roller 168 to define an anti-friction relationship therebetween.
- the drive plate 170 is rotated about center axis 172 by any convenient means, including by a variable speed motor (not shown).
- the motor can be directly coupled to the drive plate 170 through use of center hub 191 .
- a drive system composed of a drive shaft and other components can be used to connect the drive motor to the drive plate 170 .
- the filler plug can be rotated by numerous other systems.
- a stepper motor may be in rotational drive connection with the filler plug to rotate the filler plug through designated angular increments and at angular speeds as desired.
- the keeper assembly includes a generally rectangularly shaped keeper plate 193 vertically supported adjacent the front face 60 of the housing 36 by a pair of threaded pins 194 that extend through vertical slots 195 formed in the keeper plate to engage within threaded blind holes formed in the upper portion of the housing 36 .
- the slots 195 extend upwardly from the lower edge of the keeper plate. The slots vertically retain the keeper plate but allow the keeper plate to pivot or tilt about the pins 194 .
- Bearing buttons 196 are mounted adjacent the lower corners of the keeper plate to extend toward the adjacent end of the filler plug end portion.
- buttons 196 may have semi-spherical heads or other shapes to apply a load against the adjacent end of the filler plug, while still allowing the filler plug to rotate within the housing.
- An arcuate clearance slot is formed in the lower central portion of the keeper plate to provide clearance for the neck portion 144 extending between the star wheel 142 and the plug body 130 .
- An adjustment pin 197 is threadably engaged within a central upper portion of the keeper plate so that the standout of the pin may be adjusted by rotating the pin using an enlarged head portion 198 , shown as of hexagonal shape. Of course, other shapes may be utilized, including a circular knurled head portion, not shown.
- the leading end of the pin 197 is in the form of a rounded tip portion 199 that is positioned to bear against the adjacent portion of bowl 32 . It will be appreciated that when the pin 197 is adjusted to extend toward the bowl 32 , the lower end of the keeper plate is pressed against the adjacent end of the filler plug 38 to load the filler plug into the housing 36 . The amount of load desired can be readily adjusted by rotation of the adjusting pin 197 .
- a spring 200 is engaged over the shaft portion of the pin 197 and held captive between an enlarged head portion and the adjacent surface of the keeper plate.
- the spring provides a sufficient load between the tip and keeper plate to tend to restrain the pin from rotating once adjusted.
- other methods can be used to prevent or retard rotation of the pin 197 , including for example, using a lock nut or a self-locking insert in the threaded portion of the pin 197 .
- a central blind bore 260 is formed in the portion of filler plug 38 extending centrally along axis 148 beginning at the star wheel 142 and extending toward the longitudinal center portion of the plug body 130 .
- a plurality of lateral passageways 262 , 264 , and 266 extend from the central bore 260 radially toward the outer circumference of the plug body 130 in alignment with corresponding through holes formed in the sleeve 132 .
- three lateral passageways are illustrated, the number of passageways may be increased or decreased as desired depending on the specific design of the filler valve 30 .
- the distal end portions of the transverse passageways 262 , 264 , and 266 are in registry with the housing product outlet 66 of the housing.
- a source of pressurized air may be connected to the entrance end 268 of the bore 260 thereby to direct the pressurized air through the central bore and through the lateral passageways and into the housing product outlet 66 . Any product in the outlet nozzle 86 will be flushed or otherwise removed from the valve.
- the central bore 260 may be closed off with an elongate pin 270 that substantially fills the bore 260 . O-rings 272 may be seated on the pin 270 so as to form an airtight seal between the pin and the bore 260 .
- a cross hole 274 may be formed in the proximal end portion of pin 270 that extends outwardly from the bore 260 to receive a line, a tool, or other method for conveniently grasping the pin 270 to either engage or disengage the pin from the central bore 260 .
- a circular, generally disk-shaped distribution plate 42 is sized and shaped to be closely receivable within the distal end portion of filler plug sleeve 132 that extends beyond the adjacent end of the plug body 130 .
- a shallow counterbore is formed in the sleeve 132 to snugly and closely receive the distribution plate 42 .
- the distribution plate 42 is held in registry with the plug body 130 by a pin 201 extending through aligned blind holes 202 and 203 formed in the adjacent end of the plug body and the distribution plate at an outer perimeter portion of the distribution plate.
- the distribution plate 42 includes a shoulder or rim portion 204 to overlap the end of the sleeve 132 . It is to be appreciated that the distribution plate 42 may be coupled to the plug body 130 otherwise than described above. Also, the distribution plate could be incorporated into the structure of the plug body.
- a shallow radial groove 206 extends from the center of the distribution plate outwardly in a straight line toward the outer perimeter of the distribution plate in the side of the distribution plate corresponding to the rim 204 .
- a shallow arcuate groove 208 is formed to be concentric about the center of the distribution plate. As shown in FIG. 12 , the arcuate groove is positioned generally in the radially opposite portion of the distribution plate from the location of the radial groove 206 .
- the end plate 40 is in the form of a generally rectangular plate having a rounded lower edge portion 220 .
- the plate serves to close off the distal portion of the housing 36 .
- a plurality of threaded fasteners 221 extend through clearance holes formed in the end plate to engage within aligned, threaded blind holes formed in the housing 36 .
- a shallow circular rim portion 222 extends outwardly from the inward face of the plate to engage within a close fitting shoulder portion of the housing, thereby to form a seal therebetween.
- the end plate includes a central throughhole 224 through which a vacuum is introduced into the valve 30 , as described below.
- a nipple 226 is in fluid flow connection with the throughhole 224 to receive the adjacent end of a vacuum line.
- the nipple 226 may be integrally formed with the end plate 40 or formed separately and then attached to the end plate in a well known manner.
- a shallow radial groove 228 is formed in the inward face portion of the end plate.
- a vent passageway 230 is formed within the wall of the end plate 40 .
- the vent passageway 230 is generally radially oriented relative to the center of the end plate and has a radially inward opening 232 that is positioned to be in registry with arcuate groove 208 of the distribution plate at a certain orientation of the valve plug 38 and also has a radially outwardly opening 234 which is in registry with the adjacent end of the vent outlet opening 122 in the upper wall portion of the housing 36 .
- the end plate 40 also has a generally radially oriented vacuum passageway 240 formed within the wall of the end plate.
- the vacuum passageway 240 has a first radially inwardly positioned opening 242 that is in registry with the radial groove 206 formed in the distribution plate 42 when the filler plug 38 is in particular orientation relative to the housing 36 .
- the vacuum passageway has a second, radially outward opening 246 which is in registry with opening 108 at the longitudinal end of vacuum passageway 106 extending through the lower wall 68 of the housing when the filler plug 38 is in specific orientation relative to the housing 36 , as described below.
- valve 30 is shown at “0” phase.
- the filler plug 38 is angularly orientated so that filler holes 138 and 140 are out of registry with bowl outlet opening 54 .
- the vacuum source connected to the valve 30 via nipple 226 is closed off by the distribution plate 42 .
- the radial groove 206 extending from the center of the distribution plate radially outwardly toward the perimeter is not lined up with any opening in the housing rear face 62 .
- the venting passageway 112 is closed off by the distribution plate.
- the vent outlet opening 122 is not in registry with any opening or groove in the distribution plate.
- Phase “ 1 ” of the operation of valve 30 is initiated by a first roller 166 pushing against the lug engagement surface 150 of a lug portion 146 of the star wheel 142 thereby to rotate the star wheel and filler plug 90° from the orientation shown in FIGS. 18A and 18B to the orientation shown in FIGS. 19A and 19B .
- a container 34 enters the filling station 80 and the container is lifted upwardly to seat 82 so that the upper edge of the container bears against the seal 84 .
- a vacuum is applied at nozzle 86 .
- the radial groove 206 of the distribution plate 42 is aligned with the vacuum passageway opening 108 at the housing rear face 62 . This enables the vacuum from nipple 226 to enter the vacuum passageway 100 and the passageway 102 at the nozzle 86 thereby connecting the vacuum with the container 34 . In this manner, the air in the container is evacuated.
- the speed and level of evacuation can be selectively controlled, and may depend on the ability of the container to withstand a vacuum.
- the next phase is initiated by a second drive roller 166 pushing against an engagement surface 150 of a second lug 146 of the star wheel 42 , thereby to rotate the filler plug 38 and distribution plate 42 from the position shown in FIGS. 19A and 19B to the position shown in FIGS. 20A and 20B corresponding to phase 2 .
- a first filler hole 138 is in registry with the housing product inlet 64 and in registry with the housing product outlet 66 .
- filling of the container 34 is initiated with product from the filler bowl primarily by the vacuum within the container. Filling occurs until the pressure within the container equals the pressure in the product bowl 32 . It will be appreciated that due to the relatively large diameter of the filler hole 138 , particulates in the liquid flow from bowl 32 to container 34 without becoming lodged in the filler valve 30 .
- the vent passageway 112 is in registry with the arcuate groove 208 formed in the distribution plate 42 .
- the radial groove 206 of the distribution plate 106 is in registry with the arcuate groove 228 of the end plate which in turn is in registry with the arcuate groove 208 of the distribution plate.
- a vacuum is applied to the venting passageway 112 .
- the function of this arrangement is described more fully below.
- Phase “ 3 ” is achieved by a third drive roller 166 pushing against lug engagement surface 150 of a third lug 146 of the star wheel 142 thereby to rotate the filler plug 138 and distribution plate 42 90° further from the orientation shown in FIGS. 20A and 20B to the orientation shown in FIGS. 21A and 21B .
- the second filler hole 140 is in registry with the product bowl outlet opening 54 and also in registry with the filler nozzle 86 so that the container 134 is now filled by gravity and also the vacuum in the container.
- the arcuate groove 208 in the distribution plate 42 is orientated to be in registry with the vacuum passageway 112 and also in registry with the venting passageway 118 . As such, the upper portion of the container 34 is vented to atmosphere.
- the venting tube 116 is filled with product to the same level as product in the bowl 32 .
- a fourth drive roller 166 engages a fourth lug portion 146 to ride along the lug engagement surface 150 thereby to rotate the filler plug 38 and distribution plate 42 a further 90° to the starting position shown in FIGS. 18A and 18B .
- the filled container 34 is then lowered from the filling station 80 and routed to its next processing location.
- the product in the vent tube from the prior phase 3 is evacuated using vacuum.
- the radial groove 206 of the distribution plate 42 is in registry with the arcuate groove 224 of the end plate 40 , and simultaneously this groove 228 is in registry with the arcuate groove 208 of the distribution plate.
- the arcuate groove 208 is also in registry with the vent outlet opening 22 of the vent passageway 120 .
- venting tube 116 is connected for a short while with the vacuum, thereby drawing the product that might be in the vent tube 116 , vent stack 114 , and vent passageway 118 out through nipple 226 .
- the length of time needed to empty the venting tube 116 can be altered by increasing or decreasing the length of the arcuate groove 228 in the distribution plate 42 .
- the passageways 262 , 264 , and 266 , leading between the central bore 260 in the filler plug 38 to the outer perimeter of the filler plug are in registry with the housing product outlet 66 thereby to direct pressurized air through the center bore 266 and to the outlet 66 , thereby flushing or blowing out the nozzle 86 with each cycle of the valve 30 .
- a plug pin 270 is engaged within the central bore 260 , as shown in FIGS. 18A-21B .
- a plug pin 270 may be removed and a source of clean pressurized air attached to the center bore 260 at the star wheel 142 in a well known manner.
- relatively large cross or filler passageways 138 and 140 can be formed through the plug body 130 .
- Such passageways can be, for example, at least 25 mm in diameter.
- These large size filler passageways are possible, at least in part, because of the horizontal orientation of the plug body 130 thereby enabling the filler passageways to extend transversely through the plug body.
- the filler plug body is designed so as not to require the portions of the vacuum or ventilation passageways to be formed therein. Rather, the vacuum and ventilation passageways are primarily formed in the housing, with the opening and closing of these passageways achieved by a distribution plate 42 coupled to the distal end of the plug body.
- the filler valve 30 is designed to be easily serviced and maintained. Access to the filler valve is easily achieved since the valve is positioned along the lower perimeter of the storage bowl 32 . Moreover, the filler plug 38 is readily accessible by simply disassembling the keeper assembly 192 and withdrawing the filler plug from the housing 36 .
- vacuum and ventilation passageways 100 and 112 may be routed otherwise than described above; for example, via lines exterior or separate from the housing 36 .
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- Filling Of Jars Or Cans And Processes For Cleaning And Sealing Jars (AREA)
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Abstract
Description
- This application claims the benefit of U.S. Provisional Patent Application No. 60/694,923, filed Jun. 28, 2005.
- The present invention relates to an apparatus and process for pre-vacuumizing receptacles to be filled with product, and more particularly, to a filling valve capable of pre-vacuumizing a receptacle and then quickly and accurately filling the receptacle.
- Pre-vacuumized filling machines have been in use in the industry. Vacuum fillers remove entrapped air from pre-filled products such as fruits, vegetables, or fish, and accurately fill syrup, brine, oils, or sauces to a predetermined headspace. Typically a container enters the filling station and is positioned onto a lifter plate which raises the container against a filling valve to seal it from the atmosphere. The lifter is lifted by its lifter roller which moves onto a camtrack, called the liftercam.
- During the first phase the air in the container is removed by means of vacuum. During the second phase product is drawn into the container due to the underpressure in the container. A third phase further fills the container with product to the desired filling level. This third phase can be done with or without the help of vacuum. During the fourth phase the container is connected to the atmosphere and the lifter plate is lowered before the container is being discharged out of the filler.
- The different phases are achieved by a filling valve which contains typically a movable part with holes and/or grooves to connect the container with the vacuum, the filling bowl or the open atmosphere. In the last several years there has been a need to be able to fill products with particulates, such as sauces with pieces of vegetables. These particulates are a problem for the vacuum fillers because such pieces can get into the vacuum lines and clog the system, making it difficult to remove the entrapped air from the pre-filled products in the container.
- This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This summary is not intended to identify key features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
- A filler valve is interposed between a storage bowl and a container to be filled with the liquid or a liquid and particulate mixture. The filler valve includes a housing disposed beneath the bowl. The housing has an inlet in content flow communication with the bowl and an outlet in content flow communication with a container to be filled. The housing defines portions of a vacuum passageway having an inlet at the housing content outlet and a distal connection location connectable to a source of vacuum. The valve also includes a rotatable filler plug closely receivable within the housing, with at least one fill passageway transversely extending through the filler plug to be in registry with the housing content inlet and content outlet at a particular angular orientation of the filler plug within the housing. The filler plug is rotatable between an initial position within the housing, wherein the plug fill passageway is out of registry with the housing inlet and outlet and the vacuum passageway is operable to apply vacuum to the container at the housing outlet, and a second position wherein the filler plug fill passageway is in registry with the housing inlet and outlet to allow content to flow from the storage bowl to the container.
- In another aspect, the housing includes portions that define a ventilation passageway from a ventilation inlet to the housing content outlet, thereby to provide ventilation at the housing content outlet during filling of the container with content from the storage bowl.
- In accordance with a further aspect, the filler plug includes two fill passageways extending transversely therethrough. One of the fill passageways is designed to permit content to flow from the storage bowl to the container with the ventilation passageway in closed condition, and the second fill passageway designed to allow content to flow from the storage bowl to the container with the ventilation passageway open.
- In accordance with a further aspect, a distribution plate is coupled to the distal end portion of the filler plug to rotate therewith, the distribution plate operable to open and close the vacuum passageway and the ventilation passageway during operation of the filler valve.
- In accordance with a further aspect of the disclosed embodiments, flushing fluid is directed to the housing content outlet after a container has been filled, thereby to flush away content that may remain at the housing outlet. The flushing fluid may be routed through the filler plug and directed to the housing outlet after filling of the container has been completed.
- The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same become better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
-
FIG. 1 is a pictorial view of an embodiment of an installed filler valve; -
FIG. 2 is a cross-sectional view ofFIG. 1 , taken substantially along lines 2-2 thereof and with certain components removed for clarity; -
FIG. 3 is a pictorial view of a filler valve, enlarged relative toFIG. 1 ; -
FIG. 4 is a pictorial view of the valve inFIG. 3 showing the underside of the filler valve; -
FIG. 5 is a top view of the valve ofFIG. 3 ; -
FIG. 6 is a cross-sectional view of the valve ofFIG. 5 , taken substantially along lines 6-6 thereof; -
FIG. 7 is a top view of the valve body; -
FIG. 8 is a cross-sectional view ofFIG. 7 , taken substantially along lines 8-8 thereof; -
FIG. 9 is a rear elevational view of the valve body ofFIG. 7 ; -
FIG. 10 is a pictorial view of a valve filler plug; -
FIG. 11 is a cross-sectional view ofFIG. 10 , taken substantially along lines 11-11 thereof; -
FIG. 12 is an elevational view of a distribution plate; -
FIG. 13 is a cross-sectional view ofFIG. 12 , taken substantially along lines 13-13 thereof; -
FIG. 14 is an elevational view of an end plate; -
FIG. 15 is an elevational view of the end plate, taken from the opposite side ofFIG. 14 ; -
FIG. 16 is a side edge view of the end plate shown inFIGS. 14 and 15 ; -
FIG. 17 is a pictorial view of a plug; -
FIG. 18A is a proximal end view of a filler valve; -
FIG. 18B is an elevational cross-sectional view of the filler valve ofFIG. 18A , withFIGS. 18A and 18B showing the valve in one orientation of the filler plug; -
FIGS. 19A and 19B correspond toFIGS. 18A and 18B , but with the filler plug rotated 90°; -
FIGS. 20A and 20B correspond toFIGS. 19A and 19B , but with the filler plug rotated a further 90°; and -
FIGS. 21A and 21B correspond toFIGS. 20A and 20B , but with the filler plug rotated a further 90°. - Referring initially to
FIGS. 1-6 , afiller valve 30 is illustrated as mounted beneath filler bowl orenclosure 32, typically holding a liquid, for example, syrup, brine, oil, sauce, etc. Particulates may be present in the liquid, for example, pieces of vegetables within a sauce. The present invention is designed to efficiently and very quickly fill acontainer 34 with a desired liquid while removing entrapped air from the container and avoiding clogging the valve with particulates in the liquid. - The major subassemblies/components of the
filler valve 30 include ahousing 36 for receiving a rotatable fillingplug 38 therein. Anend plate 40 closes off the distal end of thehousing 36, and adistribution plate 42, rotatable with theplug 38, is sandwiched between the plug and theend plate 40 to direct filling liquid through the valve as well as directing a vacuum through the valve to evacuate thecontainer 34 prior to the filling operation, as described below. As also described below, the distribution plate functions to vent thecontainer 34 during the filling operation. - Referring specifically to
FIGS. 1 and 2 , the bowl orenclosure 32 is illustrated as a thin walled vessel of a rectangular shape. The bowl can be of other shapes, such as circular, and can be of other sizes, as desired. Thefiller valve 30 is positioned along a perimeter of the bowl adjacentexterior wall 44. Although only onefiller valve 30 is shown, a number of filler valves may be utilized in conjunction withbowl 32, perhaps positioned side by side to each other, or positioned along other sides of the bowl. - The
valve 30 is mounted to thebowl 32 by an L-shapedbracket 46 having a lower horizontal leg section connected to anupper wall 48 of thevalve housing 36, and a longer upright leg section connectable to a mountingrail 50 extending horizontally along a lower portion ofwall 44. Aspacer 52 is disposed between the bracket upright leg and mountingrail 50 to correctly position thevalve 30 relative to anoutlet opening 54 formed in the bottom orfloor 56 of the bowl. - Rather than utilizing a bracket, such as
bracket 46, to mount thevalve 30 to bowl 32, the bowl instead could be mounted directly to the bowl by hardware members extending between the bowl and thevalve housing 36. - Next referring additionally to
FIGS. 7-9 , thevalve housing 36 is shown as being generally rectilinear in shape, having a substantially flatupper wall 48, as described above, to which thehousing mounting bracket 46 is attached. The housing also includes a generally cylindrically shapedthroughbore 58 extending horizontally through the housing fromfront face 60 torear face 62 to closely receivefiller plug 38 therein. Product inlet (liquid mixture) 64 extends downwardly through theupper wall 48 in alignment withproduct outlet 66 formed in the housinglower wall 68. As shown inFIGS. 2, 6 , and 8, the housing inlet andoutlet longitudinal centerline 70 of thethroughbore 58. - A
container filling station 80 is formed in the bottom ofvalve 30 for receiving containers to be filled. The filling station is defined by acircular seat 82 formed in thehousing bottom wall 68. A seal orgasket 84 overlies theseat 82 so as to achieve an airtight interconnection with the outer opening of thecontainer 34. As will be appreciated, the seal/gasket may be composed of various types of materials, for example, natural or synthetic rubber, such as neoprene, nitril-butil rubber or silicon rubber. Ashort nozzle portion 86 extends downwardly from a central portion of theseat 82, through which thelower product outlet 66 extends. - Referring specifically to
FIG. 2 , a bridgingblock 90 is interposed between the upper side ofhousing 36 and the underside ofbowl 32. Theblock 90 is sized lengthwise to snugly fit between the upper surface of housingtop wall 48 and the lower surface of thebowl floor 56. The bridgingblock 90 includes avertical throughbore 92 sized and located to form a passageway between bowl opening 54 andhousing inlet 64. Theblock 90 can be secured and placed between thebowl 32 andhousing 36 by any convenient method, including the use of threadedfasteners 94 extending through awasher plate 96 positioned against the top surface of thebowl 32 through thebowl floor 56 to engage within threaded openings formed in thebridge block 90. As shown inFIG. 2 , O-rings or other types of seals may be employed at the interface of the bridging block andbowl floor 56, as well as at the interface between the bridging block and the housingupper wall 48, thereby to help prevent leakage of the filler liquid as it passes from the bowl to thevalve 30. - Referring specifically to
FIGS. 6-9 , avacuum passageway 100 extends fromcontainer connection station 80 through thehousing 36 to the back/rear face 62 of the housing. Thepassageway 100 has a shortdiagonal section 102 extending upwardly from thenozzle 86 to intersect with a horizontallongitudinal section 106 extending through thelower wall 68 of the housing to terminate at anopening 108 formed in the housingrear face 60. Thevacuum passageway 100 is shown as circular in cross-section, but may be of other cross-sectional shapes. Acheck valve 110 is positioned in the diagonal section of the vacuum passageway to close off the passageway when a vacuum is not being applied to the container filling station. The function of the vacuum passageway is discussed below. -
Housing 36 also includes avent passageway 112 extending downwardly from the top of thevalve 30 and then rearwardly to therear face 62 of the housing. Referring toFIGS. 3, 7 , and 8, avent stack 114 extends upwardly a short distance from the upper surface orwall 48 of the housing. Avent tube 116 extends upwardly from thestack 114 to an elevation toward the upper portion of thebowl 32 so as to be above the height of the liquid when the bowl is filled. Thevent passageway 112 has avertical section 118 extending downwardly through thevent stack 114 to intersect with an elongatehorizontal section 120 extending horizontally through the housingupper wall 48 to terminate at anoutlet opening 122 formed in therear face 64 of the housing. The function of thevent passageway 112 is described below. It is to be appreciated that both the vacuum passageway and ventilation passageway may be routed differently through thehousing 36 than described and illustrated. - Next, referring specifically to
FIGS. 2, 6 , 10, and 11, thefiller plug 38 is illustrated as including an elongate,circular plug body 130 sized to be closely receivable within a horizontal housing bore 58. Acylindrical sleeve 132 fits closely overplug body portion 130 to enable thefiller plug 38 to anti-frictionally rotate within thehousing 36. The sleeve may be composed of or coated with an inert anti-friction material, for example an anti-galling nickel alloy. The plug body includes a shoulder orrim portion 134 of a circumference larger than thesleeve 132 to overlap thehousing front face 60, see particularlyFIGS. 2 and 6 . An O-ring or other type ofseal 136 may be positioned between thehousing front face 60 and the adjacent surface of the shoulder/rim 134. - Two transverse, diagonal filler holes or
passageways housing product inlet 64 andoutlet 66 when theplug 38 is at a particular rotational position relative to thehousing 36. The filler holes 138 and 140 are disposed 90° relative to each other. - The
filler plug 38 further includes a drive wheel shown in the form of astar wheel 142 spaced from the proximal end of theplug body 30 corresponding to therim 134. (The “proximal” and “distal” ends of theplug 38 and thehousing 36 are designated for reference only for convenience in describing the embodiment of the valve.) A reduceddiameter neck portion 144 is used to space thestar wheel 142 outwardly from the shoulder/rim 134. Thestar wheel 142 includes four radially extendinglug portions 146 shaped substantially identically to each other and positioned 90° apart from each other about thelongitudinal center line 148 of thefiller plug 38. Each of thelug portions 146 has an engagement side orsurface 150 defining a camming surface composed of a radially inwardly located risingsurface portion 152 that “rises” in the radially outward direction to transition into alobe portion 154 and then transitions into a declining, taperingportion 156 to a rounded tip orend portion 158. - The
lug portions 146 are in registry withrollers 166 mounted in the radially outwardly end portions ofdrive arm 168 extending radially from acircular drive plate 170, shown inFIG. 1 . Thedrive arms 168 extend radially from therotational center 172 of thedrive plate 170. Each of thedrive arms 168 may be connected to thedrive plate 170 by numerous techniques, including that shown inFIG. 1 . In this regard, thedrive arms 168 are connected to thedrive plate 170 throughperimeter slots rotational axis 172 of thedrive plate 170. Theouter rim portion 186 of thedrive plate 170, located between acorresponding slot drive arm 168 and akeeper block 188. Thekeeper block 188 overlaps thedrive plate 170 to bear against the surface of the drive plate on both sides of theslots drive plate 170. Threadedfasteners 189, or other types of fasteners, extend between thedrive arm 168 and thekeeper plate 188, with one of the fasteners passing through theslots drive arms 168 may be positioned at different locations along correspondingslots filler plug 38 relative to the angular orientation of thedrive plate 170. This enables the stages of the valve operation and duration of the stages to be altered or selected. - As can be appreciated, as the
drive plate 70 rotates in the clockwise direction shown inFIG. 1 , driverollers 66 engage against theengagement surface 150 of the starwheel lug portions 146, initially radially inwardly of thelobe portions 154 of lugs, and then roll over the lobe portions themselves, and then along the decliningportion 156 of the lug and past atip portion 158 of the lug, thereby disengaging from the lug. As shown inFIG. 1 thedrive rollers 146 are spaced from thedrive arm 168 by ashaft 190 extending laterally from the end portions of thedrive arms 168. Ball bearings or other provisions, not shown, may be employed between theshaft 180 and thedrive roller 168 to define an anti-friction relationship therebetween. - The
drive plate 170 is rotated aboutcenter axis 172 by any convenient means, including by a variable speed motor (not shown). The motor can be directly coupled to thedrive plate 170 through use ofcenter hub 191. Also, a drive system composed of a drive shaft and other components can be used to connect the drive motor to thedrive plate 170. - It is to be understood that the filler plug can be rotated by numerous other systems. As one example, a stepper motor may be in rotational drive connection with the filler plug to rotate the filler plug through designated angular increments and at angular speeds as desired.
- Referring specifically to
FIGS. 1-6 , thefiller plug 138 is retained withinhousing 36 and loaded therein by anadjustable keeper assembly 192. The keeper assembly includes a generally rectangularly shapedkeeper plate 193 vertically supported adjacent thefront face 60 of thehousing 36 by a pair of threadedpins 194 that extend throughvertical slots 195 formed in the keeper plate to engage within threaded blind holes formed in the upper portion of thehousing 36. Theslots 195 extend upwardly from the lower edge of the keeper plate. The slots vertically retain the keeper plate but allow the keeper plate to pivot or tilt about thepins 194.Bearing buttons 196 are mounted adjacent the lower corners of the keeper plate to extend toward the adjacent end of the filler plug end portion. Thebuttons 196 may have semi-spherical heads or other shapes to apply a load against the adjacent end of the filler plug, while still allowing the filler plug to rotate within the housing. An arcuate clearance slot is formed in the lower central portion of the keeper plate to provide clearance for theneck portion 144 extending between thestar wheel 142 and theplug body 130. - An
adjustment pin 197 is threadably engaged within a central upper portion of the keeper plate so that the standout of the pin may be adjusted by rotating the pin using anenlarged head portion 198, shown as of hexagonal shape. Of course, other shapes may be utilized, including a circular knurled head portion, not shown. The leading end of thepin 197 is in the form of arounded tip portion 199 that is positioned to bear against the adjacent portion ofbowl 32. It will be appreciated that when thepin 197 is adjusted to extend toward thebowl 32, the lower end of the keeper plate is pressed against the adjacent end of thefiller plug 38 to load the filler plug into thehousing 36. The amount of load desired can be readily adjusted by rotation of the adjustingpin 197. Aspring 200 is engaged over the shaft portion of thepin 197 and held captive between an enlarged head portion and the adjacent surface of the keeper plate. The spring provides a sufficient load between the tip and keeper plate to tend to restrain the pin from rotating once adjusted. Of course, other methods can be used to prevent or retard rotation of thepin 197, including for example, using a lock nut or a self-locking insert in the threaded portion of thepin 197. - Referring to
FIG. 6 , a central blind bore 260 is formed in the portion offiller plug 38 extending centrally alongaxis 148 beginning at thestar wheel 142 and extending toward the longitudinal center portion of theplug body 130. At the distal end of thecentral bore 260, a plurality oflateral passageways central bore 260 radially toward the outer circumference of theplug body 130 in alignment with corresponding through holes formed in thesleeve 132. Although three lateral passageways are illustrated, the number of passageways may be increased or decreased as desired depending on the specific design of thefiller valve 30. When thefiller plug 38 is in a specific orientation within thehousing 36, seeFIGS. 6 and 18 B, the distal end portions of thetransverse passageways housing product outlet 66 of the housing. As described below, a source of pressurized air may be connected to theentrance end 268 of thebore 260 thereby to direct the pressurized air through the central bore and through the lateral passageways and into thehousing product outlet 66. Any product in theoutlet nozzle 86 will be flushed or otherwise removed from the valve. When this particular function is not required, thecentral bore 260 may be closed off with anelongate pin 270 that substantially fills thebore 260. O-rings 272 may be seated on thepin 270 so as to form an airtight seal between the pin and thebore 260. It will be appreciated that the O-rings 272 may be replaced with other types of sealing systems. Across hole 274 may be formed in the proximal end portion ofpin 270 that extends outwardly from thebore 260 to receive a line, a tool, or other method for conveniently grasping thepin 270 to either engage or disengage the pin from thecentral bore 260. - Next, referring specifically to
FIGS. 6, 12 , and 13, a circular, generally disk-shapeddistribution plate 42 is sized and shaped to be closely receivable within the distal end portion offiller plug sleeve 132 that extends beyond the adjacent end of theplug body 130. A shallow counterbore is formed in thesleeve 132 to snugly and closely receive thedistribution plate 42. Thedistribution plate 42 is held in registry with theplug body 130 by apin 201 extending through alignedblind holes distribution plate 42 includes a shoulder orrim portion 204 to overlap the end of thesleeve 132. It is to be appreciated that thedistribution plate 42 may be coupled to theplug body 130 otherwise than described above. Also, the distribution plate could be incorporated into the structure of the plug body. - Referring specifically to
FIGS. 12 and 13 , a shallowradial groove 206 extends from the center of the distribution plate outwardly in a straight line toward the outer perimeter of the distribution plate in the side of the distribution plate corresponding to therim 204. In the same portion of the distribution plate, a shallowarcuate groove 208 is formed to be concentric about the center of the distribution plate. As shown inFIG. 12 , the arcuate groove is positioned generally in the radially opposite portion of the distribution plate from the location of theradial groove 206. - Next, referring specifically to
FIGS. 14-16 , theend plate 40 is in the form of a generally rectangular plate having a roundedlower edge portion 220. The plate, as noted above, serves to close off the distal portion of thehousing 36. In this regard, a plurality of threadedfasteners 221 extend through clearance holes formed in the end plate to engage within aligned, threaded blind holes formed in thehousing 36. A shallowcircular rim portion 222 extends outwardly from the inward face of the plate to engage within a close fitting shoulder portion of the housing, thereby to form a seal therebetween. The end plate includes acentral throughhole 224 through which a vacuum is introduced into thevalve 30, as described below. Anipple 226 is in fluid flow connection with thethroughhole 224 to receive the adjacent end of a vacuum line. Thenipple 226 may be integrally formed with theend plate 40 or formed separately and then attached to the end plate in a well known manner. - Referring to
FIG. 14 , a shallowradial groove 228 is formed in the inward face portion of the end plate. Also, avent passageway 230 is formed within the wall of theend plate 40. Thevent passageway 230 is generally radially oriented relative to the center of the end plate and has a radiallyinward opening 232 that is positioned to be in registry witharcuate groove 208 of the distribution plate at a certain orientation of thevalve plug 38 and also has a radially outwardly opening 234 which is in registry with the adjacent end of thevent outlet opening 122 in the upper wall portion of thehousing 36. Theend plate 40 also has a generally radially orientedvacuum passageway 240 formed within the wall of the end plate. Thevacuum passageway 240 has a first radially inwardly positionedopening 242 that is in registry with theradial groove 206 formed in thedistribution plate 42 when thefiller plug 38 is in particular orientation relative to thehousing 36. The vacuum passageway has a second, radially outward opening 246 which is in registry with opening 108 at the longitudinal end ofvacuum passageway 106 extending through thelower wall 68 of the housing when thefiller plug 38 is in specific orientation relative to thehousing 36, as described below. - The operation of
valve 30 will be explained in conjunction with the figures of the present application, specificallyFIGS. 18A-21B . Referring initially toFIGS. 18A and 18B , avalve 30 is shown at “0” phase. In this phase, thefiller plug 38 is angularly orientated so that filler holes 138 and 140 are out of registry withbowl outlet opening 54. Also, the vacuum source connected to thevalve 30 vianipple 226 is closed off by thedistribution plate 42. As shown inFIG. 18A , theradial groove 206 extending from the center of the distribution plate radially outwardly toward the perimeter is not lined up with any opening in the housingrear face 62. Also, the ventingpassageway 112 is closed off by the distribution plate. As shown inFIG. 18A , thevent outlet opening 122 is not in registry with any opening or groove in the distribution plate. - Phase “1” of the operation of
valve 30 is initiated by afirst roller 166 pushing against thelug engagement surface 150 of alug portion 146 of thestar wheel 142 thereby to rotate the star wheel and filler plug 90° from the orientation shown inFIGS. 18A and 18B to the orientation shown inFIGS. 19A and 19B . Just prior to this phase, acontainer 34 enters the fillingstation 80 and the container is lifted upwardly toseat 82 so that the upper edge of the container bears against theseal 84. With thefiller plug 38 anddistribution plate 42 in the orientation shown inFIGS. 19A and 19B , a vacuum is applied atnozzle 86. In this regard, theradial groove 206 of thedistribution plate 42 is aligned with the vacuum passageway opening 108 at the housingrear face 62. This enables the vacuum fromnipple 226 to enter thevacuum passageway 100 and thepassageway 102 at thenozzle 86 thereby connecting the vacuum with thecontainer 34. In this manner, the air in the container is evacuated. The speed and level of evacuation can be selectively controlled, and may depend on the ability of the container to withstand a vacuum. - The next phase is initiated by a
second drive roller 166 pushing against anengagement surface 150 of asecond lug 146 of thestar wheel 42, thereby to rotate thefiller plug 38 anddistribution plate 42 from the position shown inFIGS. 19A and 19B to the position shown inFIGS. 20A and 20B corresponding to phase 2. In this phase, afirst filler hole 138 is in registry with thehousing product inlet 64 and in registry with thehousing product outlet 66. In this phase, filling of thecontainer 34 is initiated with product from the filler bowl primarily by the vacuum within the container. Filling occurs until the pressure within the container equals the pressure in theproduct bowl 32. It will be appreciated that due to the relatively large diameter of thefiller hole 138, particulates in the liquid flow frombowl 32 tocontainer 34 without becoming lodged in thefiller valve 30. - As shown in
FIG. 20A , in phase 2, thevent passageway 112 is in registry with thearcuate groove 208 formed in thedistribution plate 42. Also, theradial groove 206 of thedistribution plate 106 is in registry with thearcuate groove 228 of the end plate which in turn is in registry with thearcuate groove 208 of the distribution plate. As a result, a vacuum is applied to the ventingpassageway 112. The function of this arrangement is described more fully below. - Phase “3” is achieved by a
third drive roller 166 pushing againstlug engagement surface 150 of athird lug 146 of thestar wheel 142 thereby to rotate thefiller plug 138 anddistribution plate 42 90° further from the orientation shown inFIGS. 20A and 20B to the orientation shown inFIGS. 21A and 21B . In phase “3,” thesecond filler hole 140 is in registry with the productbowl outlet opening 54 and also in registry with thefiller nozzle 86 so that thecontainer 134 is now filled by gravity and also the vacuum in the container. Also, at least toward the end of this phase, thearcuate groove 208 in thedistribution plate 42 is orientated to be in registry with thevacuum passageway 112 and also in registry with the ventingpassageway 118. As such, the upper portion of thecontainer 34 is vented to atmosphere. In this phase, the ventingtube 116 is filled with product to the same level as product in thebowl 32. - A
fourth drive roller 166 engages afourth lug portion 146 to ride along thelug engagement surface 150 thereby to rotate thefiller plug 38 and distribution plate 42 a further 90° to the starting position shown inFIGS. 18A and 18B . The filledcontainer 34 is then lowered from the fillingstation 80 and routed to its next processing location. - As mentioned above, during the rotation of the
filler plug 38 from the position inphase 1 to phase 2, the product in the vent tube from the prior phase 3 is evacuated using vacuum. As shown inFIGS. 20A and 20B during this rotation of the filler plug, theradial groove 206 of thedistribution plate 42 is in registry with thearcuate groove 224 of theend plate 40, and simultaneously thisgroove 228 is in registry with thearcuate groove 208 of the distribution plate. Thearcuate groove 208 is also in registry with the vent outlet opening 22 of thevent passageway 120. In this way, the ventingtube 116 is connected for a short while with the vacuum, thereby drawing the product that might be in thevent tube 116,vent stack 114, and ventpassageway 118 out throughnipple 226. The length of time needed to empty the ventingtube 116 can be altered by increasing or decreasing the length of thearcuate groove 228 in thedistribution plate 42. - When the
filler plug 38 returns to the 0 phase position, thepassageways central bore 260 in thefiller plug 38 to the outer perimeter of the filler plug are in registry with thehousing product outlet 66 thereby to direct pressurized air through the center bore 266 and to theoutlet 66, thereby flushing or blowing out thenozzle 86 with each cycle of thevalve 30. When this function is not required, aplug pin 270 is engaged within thecentral bore 260, as shown inFIGS. 18A-21B . Aplug pin 270 may be removed and a source of clean pressurized air attached to the center bore 260 at thestar wheel 142 in a well known manner. - It will be appreciated that, by the foregoing construction, relatively large cross or
filler passageways plug body 130. Such passageways can be, for example, at least 25 mm in diameter. These large size filler passageways are possible, at least in part, because of the horizontal orientation of theplug body 130 thereby enabling the filler passageways to extend transversely through the plug body. - Moreover, the filler plug body is designed so as not to require the portions of the vacuum or ventilation passageways to be formed therein. Rather, the vacuum and ventilation passageways are primarily formed in the housing, with the opening and closing of these passageways achieved by a
distribution plate 42 coupled to the distal end of the plug body. - Further, the
filler valve 30 is designed to be easily serviced and maintained. Access to the filler valve is easily achieved since the valve is positioned along the lower perimeter of thestorage bowl 32. Moreover, thefiller plug 38 is readily accessible by simply disassembling thekeeper assembly 192 and withdrawing the filler plug from thehousing 36. - While illustrative embodiments have been illustrated and described, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention. For example, the vacuum and
ventilation passageways housing 36.
Claims (30)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US11/478,369 US20060289079A1 (en) | 2005-06-28 | 2006-06-28 | Valve for pre-vacuum filler for products with particulates |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US69492305P | 2005-06-28 | 2005-06-28 | |
US11/478,369 US20060289079A1 (en) | 2005-06-28 | 2006-06-28 | Valve for pre-vacuum filler for products with particulates |
Publications (1)
Publication Number | Publication Date |
---|---|
US20060289079A1 true US20060289079A1 (en) | 2006-12-28 |
Family
ID=36972926
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/478,369 Abandoned US20060289079A1 (en) | 2005-06-28 | 2006-06-28 | Valve for pre-vacuum filler for products with particulates |
Country Status (4)
Country | Link |
---|---|
US (1) | US20060289079A1 (en) |
EP (1) | EP1739019B1 (en) |
AT (1) | ATE424349T1 (en) |
DE (1) | DE602006005421D1 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100031032A1 (en) * | 2007-04-09 | 2010-02-04 | Leviton Manufacturing Co., Inc. | Method, apparatus, and system for network security via network wall plate |
Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2903023A (en) * | 1956-11-13 | 1959-09-08 | Battinich Mitchell | Method and apparatus for filling cans and the like |
US2914097A (en) * | 1956-07-17 | 1959-11-24 | Battinich Mitchell | Filling mechanism |
US3552453A (en) * | 1968-06-24 | 1971-01-05 | Fmc Corp | Method and apparatus for filling containers |
US3990487A (en) * | 1975-04-09 | 1976-11-09 | Atlas Pacific Engineering Company | Vacuum filler |
US4388955A (en) * | 1981-03-09 | 1983-06-21 | Meissner Konrad E | Vacuum filler |
US4419376A (en) * | 1980-11-14 | 1983-12-06 | Societe D'assistance Technique Pour Produits Nestle S.A. | Process for treating solid foodstuff pieces in a container |
US4448227A (en) * | 1980-10-24 | 1984-05-15 | Giuseppe Zanichelli | Dressing or preserving liquid filling unit for vacuum filling machines |
US4532971A (en) * | 1983-05-06 | 1985-08-06 | Atlas Pacific Engineering Company | High speed vacuum syruper |
US5095955A (en) * | 1987-06-05 | 1992-03-17 | Alcan Deutschland Gmbh | Process and a device for the filling of doughy filling material into receptacles |
US5961000A (en) * | 1996-11-14 | 1999-10-05 | Sanfilippo; James J. | System and method for filling and sealing containers in controlled environments |
-
2006
- 2006-06-28 DE DE602006005421T patent/DE602006005421D1/en not_active Expired - Fee Related
- 2006-06-28 EP EP06116195A patent/EP1739019B1/en not_active Not-in-force
- 2006-06-28 US US11/478,369 patent/US20060289079A1/en not_active Abandoned
- 2006-06-28 AT AT06116195T patent/ATE424349T1/en not_active IP Right Cessation
Patent Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2914097A (en) * | 1956-07-17 | 1959-11-24 | Battinich Mitchell | Filling mechanism |
US2903023A (en) * | 1956-11-13 | 1959-09-08 | Battinich Mitchell | Method and apparatus for filling cans and the like |
US3552453A (en) * | 1968-06-24 | 1971-01-05 | Fmc Corp | Method and apparatus for filling containers |
US3990487A (en) * | 1975-04-09 | 1976-11-09 | Atlas Pacific Engineering Company | Vacuum filler |
US4448227A (en) * | 1980-10-24 | 1984-05-15 | Giuseppe Zanichelli | Dressing or preserving liquid filling unit for vacuum filling machines |
US4419376A (en) * | 1980-11-14 | 1983-12-06 | Societe D'assistance Technique Pour Produits Nestle S.A. | Process for treating solid foodstuff pieces in a container |
US4388955A (en) * | 1981-03-09 | 1983-06-21 | Meissner Konrad E | Vacuum filler |
US4532971A (en) * | 1983-05-06 | 1985-08-06 | Atlas Pacific Engineering Company | High speed vacuum syruper |
US5095955A (en) * | 1987-06-05 | 1992-03-17 | Alcan Deutschland Gmbh | Process and a device for the filling of doughy filling material into receptacles |
US5961000A (en) * | 1996-11-14 | 1999-10-05 | Sanfilippo; James J. | System and method for filling and sealing containers in controlled environments |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100031032A1 (en) * | 2007-04-09 | 2010-02-04 | Leviton Manufacturing Co., Inc. | Method, apparatus, and system for network security via network wall plate |
Also Published As
Publication number | Publication date |
---|---|
EP1739019A1 (en) | 2007-01-03 |
ATE424349T1 (en) | 2009-03-15 |
DE602006005421D1 (en) | 2009-04-16 |
EP1739019B1 (en) | 2009-03-04 |
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Owner name: FMC TECHNOLOGIES, INC., TEXAS Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:HANSSENS, HUGO;LEYRE, DOMINIQUE;REEL/FRAME:018057/0162 Effective date: 20060704 |
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Owner name: JOHN BEAN TECHNOLOGIES CORPORATION, ILLINOIS Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:FMC TECHNOLOGIES, INC.;REEL/FRAME:021205/0277 Effective date: 20080630 Owner name: JOHN BEAN TECHNOLOGIES CORPORATION,ILLINOIS Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:FMC TECHNOLOGIES, INC.;REEL/FRAME:021205/0277 Effective date: 20080630 |
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO PAY ISSUE FEE |