US1809078A - Apparatus fob treating articles with x-rays - Google Patents

Apparatus fob treating articles with x-rays Download PDF

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US1809078A
US1809078A US1809078DA US1809078A US 1809078 A US1809078 A US 1809078A US 1809078D A US1809078D A US 1809078DA US 1809078 A US1809078 A US 1809078A
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carrier
series
carriers
articles
ray tube
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    • GPHYSICS
    • G21NUCLEAR PHYSICS; NUCLEAR ENGINEERING
    • G21KTECHNIQUES FOR HANDLING PARTICLES OR IONISING RADIATION NOT OTHERWISE PROVIDED FOR; IRRADIATION DEVICES; GAMMA RAY OR X-RAY MICROSCOPES
    • G21K5/00Irradiation devices
    • G21K5/02Irradiation devices having no beam-forming means

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  • This invention relates to X-ray apparatus and more particularly to an apparatus for sub'ecting articles to X-rays "for purposes 'o sterilization.
  • One of the objeets of this invention is to provide a simple and thoroughly practical apparatus for effecting, at high speed of operation, low cost, and with thoroughly e ective results, the sterilization by X-rays of articles such as packaged tobacco products, food products, and the like.
  • Another object is to provide anapparatus well adapted for quantity treatment of articles Cal . aged cigars, like.
  • Another object is to provide an apparatus of the, above-mentioned nature in which use is inade of the from an X-ray in intensities of the X-ray' beam may be e ectively utilized to effect sterilization.
  • Another object is to provide-an apparatus of the above-mentioned nature particularly adapted for the handling, andtreatment with X-rays, of packaged goods like acktobacco, cigarettes, an the Another object is to provide an app'aratus of the above-mentioned nature well available X-ray beam adapted to meet the varying conditions of hard practical use. Other objects will be in part obvious or in inafter. I r
  • lgigure 1 is a plan view of the apparatus, an
  • an X-ray tube preferably mounted with its axis extending substantito ally vertically and with its anode 11, from which the X-rays emanate, uppermost and having its active face extending substantially transversely to the vertical axis of the X-ray tube 10.
  • the X-ray tube may conveniently be of the hot-cathode tube and may therefore have as a cathode a filament 12, as is more clearly shown in Figure 2.
  • the X-ray tube 10 may be energized from any suitable source of energy and may be insulatingly supported -yany suitable means (not shown).
  • the X-rays in a general downward directionand will extend over a range substantially to each'side of the vertical axis of the X-ray tube, as is diagrammatically indicated in Figure 2.
  • the intensity of the X ray beam in a horizontal plane, as viewed in Figure 2 will thus vary progressively. with the dis-- tance from the-anode l1 and, in a broader sense, the intensity will vary with the distube 10.
  • a flexible endless member conveniently in the form of a link chain and passing about the sprockets 14 and 15 appropriately 90 mounted to rotate about substantially vertical axes.
  • These sprockets 14 and 15 may conveniently be of ,a generally annular shape, as is clearly indicated in. Figure l, and may be rotatably supported by the members 16 and 17 respectively;
  • the members 16 and 17 are also of annular shape in order thereby to make-available the space within the sprockets lat-and 15 and themembers 16 and 17 may be of any suitable construcof power.
  • sprocket 21 is intermittent and is of such a' able mechanism and tion to provide appropriate bearings or hearing surfaces to take care of not only the rotation of the sprockets but also to take care of the thrust in a downward direction of the sprockets 14 and 15 and the load carried thereby.
  • the flexible endless member 13, hereinabove noted as being preferably in the form of a chain, has secured to it and spaced lengthwise thereof a number of carriers 18; these carriers, forming in general a series of successive platforms, may be attached to the chain 13 by any suitable construction.
  • Thelateralend portions of the carriers 18 are preferably unrestricted and left open.
  • sprockets 20 and 21 Intermediate of the two spaced sprockets 14 and 15, and engaging the chain 13 from the outer face thereof, are two sprockets 20 and 21, positioned so that, as is clear from Figure 1, the chain 13 may be made more completely to wrap itself about the sprocket 14.
  • the sprocket 20 may be an idler while, in order to effect a movement of the chain 13 with its carriers 18, the sprocket 21 is preferably driven from any suitable source
  • the drive of the nature that the chain 13 is intermittently advanced along its path of travel by a distance substantially equivalent to the effective distance between any two adjacent carriers 18, the latter being preferably equidistantly spaced along the chain 13.
  • the X-ray tube 10 is mounted, as will be clearly seen from the drawings, so that its axis is preferably substantially coincident with the axis of the sprocket 14. Accordingly, as the carriers 18 are progressively broughtb the chain 13 into a relation overlapping tiie sprocket 14, the carriers 18 assume positions such that they extend in a direction substantially radially toward the X-ray tube 10 and hence toward the axis of tlie X-ray beam emanating from the anode 1
  • the endless carrier bearing lustrated the sprocket 21 as being provided with a coaxial gear 22 adapted to mesh with and be driven by a larger gear 23.
  • the larger gear 23 is in turn driven by the pawl 24 coacting with a ratchet 25, the latter being mounted in any suitable way to rotate the gear 23 therewith.
  • the pawl 24 may be given a reciprocating movement by any suit may conveniently be reciprocated by a crank 26, driven from any chain 13, I have ilsuitable source of power, and connected to the pawl 24 by the connecting rod 27.
  • the pawl 24 when moving to the left as viewed in Figure 1, advances the ratchet 25 sufficiently to effect such a rotation of the sprocket 21, by the interposed speed change gearing, as to bringabout a movement of the carrier bearing chain 13 by a distance substantially equivalent -to-the effective spacing between adjacent carriers 18.
  • the carrier chain 13 remains at rest.
  • a conveyor belt 28 Suitably positioned adjacent the path of travel of the carriers 18 and at substantially the same height as the latter (see Figure 2) is a conveyor belt 28 driven in any suitable manner in the direction of the arrow shown on Figure'l and at an appropriate speed.
  • any suitable mechanism may be employed for operating the plunger 32 in timed relation with respect to the remaining apparatus;
  • the plunger 32 may be operated from the crank 26.
  • a connecting rod 33 connected at one one to the crank pin of the crank 26, may elfeet through,the lever 34 an oscillation about its axis of the shaft 35 which extends toward the plunger 32; adjustably secured to the oscillating shaft 35 is a lever 36 connected through the link 37 to the plunger 32.
  • an article such. as the article 29, carried by the belt will be' bearing chain 13 halts, one' to add the package or article 29 to the lefthand end of the series 19 of articles, also acts to effect a movement of the entire series 19 of the articles on the halted carrier 180 of the article at the other endof the carrier thus being loaded.
  • An article thus being discharged from the carrier is indicated at 37 tions,-indicated at 18c and which are not lhe discharged article 37 drops into a chute38 or other appro vice, and guides the pac age away.
  • each will be seen to be supporting a complete series of substantially alined articles, between the front and rear flange members. 180 and 18b.
  • the length of the carriers 18 in a direction transversely of the carrier bearing chain 13 is referably such that the series of articles carrled thereby into the ralge ofa the X-ray beam emanating from the tube 10 will be so positioned that the inner- -ray most article of the series will be in the closest possible proximity to the anode 11 or the vertical axis of the beam of X-rays theregiven a from while the outermost article or package of the series will be more distant therefrom but nevertheless within effective range of those portions of the X-ray beam which are of lesser intensity.
  • the carriers are halted so that the innermost package (for instance the article or package 37) of a single series ona carrier (already subjected to the most intense portions of the '-ray beam) is discharged from the carrier, the remaining packages of the series on the carrier are advanced inwardly by a distance substantially equivalent to the width or thickness of a packageuwhile a new or untreated package (like the package 29) is the carrier.
  • each article will be riate conveying deposition outermost of the series onseen to be repeatedly subjected to the X-rays, while at the same time the wide expanse of the X-ray beam is most eflectively ,made use of in that a large number of articles or packages to be treated are continuously within its scope or range.
  • the carriers 18 are preferably constructed so that the inner half portions, indicated at 18d in Figure 2, are made of a solid dielectric material, such as hard rub- I It will thus be seen that there has been provided by this invention'an apparatus in which the several objects of this'invention, as well as many thoroughly practical advantages, are successfully achieved. It will be seen that the apparatus is of a thoroughly practical nature, is well adapted for highly eflicient sterilization action by the X-rays and is, moreover, capable of high speed of operation.
  • an X-ray tube mounted with its axis substantially vertical and having an anode whose active face extendstransversely to said axis, a member having a plurality of carriers thereon and movable substantially about the vertical axis of said X-ray tube, said carriers extend ing in a direction toward the axis of said X-ray tube and each adapted to support a series of packages substantially alined so that successive packages of each series are at greater distances from the axis of said -X-ray vtube, means for intermittently ad-.
  • vancing said member by a distance sub ing between adjacent carriers, and means operative at substantially each stoppage of said member for adding a package to the series of packages on one of said carriers and for correspondingly advancing said series of packages thereon to cause an end package thereof to be discharged from said carrier.
  • an X-ray tube mounted with its axis substantially vertical and having an anode whose active face-extends transversely to said axis, a member having a plurality of carriers thereon and movable substantially about the vertical axis of said X-ray tube, said carriers extending in a direction toward the axis of said X-ray tube'and eachadapted to support a series of packages substantially alined so that succcssive packages of each series are at greater distances from the axis of said X-ray tube, means for intermittently advancing said member by a distance substantially equivalent to the-effective spacing between adjacent carriers, means forming a source of supply of packages, and means governed by the intermittent movement of said member for transferring a package from said last-mentioned means to one of said carriers and to thereby effect a movement of the series of packages on the latter suflieient to cause the end package
  • a pair of spaced rotary members each mounted to rotate about a substantially vertical axis, a flexible member about said rotary membersand provided with a plurality of spaced carriers, each ada ted to support a series of substantially alined -packages extending in a direction toward the axes of said members, an X-ray tube positioned substantially centrally with respect to one of said rotary members, whereby the packages on said carrier are brought within range of X-rays from said tube, and means for periodically the series on a carrier and adapted to advance said series by a distance sufiicient to discharge an opposite end package from said carrier.
  • an X-ray tube means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to-re eatedly bring said carrier into the range 0 X-rays emanating from said tube, said carrier belng adapted to support said series of articles alined in a direction transversely of path of movement of said carrier, and means adapted to progressively advance said series of articles crosswise of said carrier.
  • an X-ray tube means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to repeatedly bring said carrier into the range of X-rays emanating from said tube, said carrier being adapted to support said series of articles alined in a direction transversely of the path of movement of said carrier, and means operative at each complete cycle of movement of said carrier past said X-ray tube to effect a movement of said series of articles relative to said carrier and in adirection transversely of the path of movement thereof.
  • an X-ray tube means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to repeatedly bring said carrier into the range of from said tube, said carrier being adapted to support said series of articles alined in a direction transversely of the path of movement of said carrier, and means for adding an article to the series of articles on said carrier and. adapted to move said series of articles relative to said carrier and in a the inc
  • X-rays emanating carrier and means for receiving anarticle direction substantially transversely of the path of movement of the carrier.
  • an- X-ray tube means having a carrier adapted to-support a series of substantially alined articles thereon and movable in a path to repeatedly bring said carrier into the range of X-rays emanating from said tube, said carrier being adapted to support said series of articles alined in a direction transversely of the path of movement of said carrier, means governed by the complete cyclic movement. of said carrier past said X-raytube adapted to add a package to one end of the series of packages on said carrier-and'adapted simultaneously to advance said series in'the direction in which the articles are alined, thereby to cause an opposite end package to be discharged from said carrier.
  • an X-ray "tube means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to re eatedly bring said carrier into the range 0 X-rays emanating from said tube,
  • an X-ray tube move able means provided with aplurality of care riers and'extending transversely of the path of movement thereof, guiding means for said movable means latter past said X-ray tube and with said carriers extending in a direction toward said X-ray tube, means for intermittently .ad-
  • vancing said movable means by a distance substantially equivalent'to the effective spacing between said carriersthereon, and means effective at substantially each stoppage of said movable means for moving an.
  • an X-ray tube in combination, an X-ray tube, movable means provided with a plurality of carriers and extending transversely of the path of movement thereof, guiding means for said movable means adapted to guide the latter past said X-ray adapted to guide the path of movement thereof, guiding meanscarriers extending in a direction toward said -X-ray tube, said carriers being adapted each to support a series of articles alined thereon in a-direction substantially transversely of said path of movement, and meansfor pr'ogressively advancing the articles on a carrier relative thereto and in a direction sub-- stantially transversely of'thepath of move- I ment of said carrier.
  • an X-ray tube in combination, an X-ray tube, movable means provided witha plurality of carriers and extending transversely of the.
  • said movable means adapted toguide the latter past said X-ray tube'and with said carriers extending in a direction toward said X ray tube,v said carriers being adapted each to support a series of articles alined'thereon in a direction substantially transversely of said path of movement, and means successively adding an article to the series carried by said carriersandadapted to advance said series relative to said carrier by a distance suflicient to cause the discharge of an end article. from a carrier.
  • said carrier being .14.
  • guiding means or said movable means adapted to guide the carriers extending in a direction towardsaid X-ray tube, said carriers being adapted each ,7 to support aseries of articles ali'ned thereon ina direction substantially transversely of said path of movement, means for intermittentlymoving said movable means with said carriers, means forming a supply of artiand means operative at. a stoppage of said movable means for transferring an article from said supply means to a carrier.
  • an X-ray tube movable means provided with a plurality of carriers andpe'xtending transverselyof the path of movement. thereof,'guiding means said carriers, and means fordistance suflicient to effect a discharge of an end article of said series from said carrier.
  • able means provided with a plurality of car riers and extending transversely of the path of movement thereof, guiding means for said movable means adapted to guide the latter past said X-ray tube and with said carriers extending in a direction toward said X-ray tube, said carriers being adapted each to support a series of articles alined thereon in a direction substantially transversely of said path of movement, a conveyor belt adjacent the path of travel of said carriers, means for intermittently advancing said movable means with said carriers and adapted thereby to successively halt said carriers adjacent said conveyor belt, and means operative at each halting of said carriers for transferring an article from said belt to a carrier.
  • an X-ray tube an endless carrier means movable in a path to. carry an article supported thereon within the range of the X-ray emanations from said X-ray tube, said carrier means having a width greater than the width of the article and means for efl'ecting a movement of versely of the latter, thereby to subject said article to a range of intensities of X-ray emanations.
  • an X-ray tube an endless carrier means movable in a path to carry an article supported thereon within the range of the X-ray emanations from said X -ray tube, said carrier means having a widthgreaterthan the width of the article supported thereon, and means operative in timed relation with respect to the movement of said carrier means for effecting a movementof an article thereon in a direction substantially transversely of the path of movement of said carrier means.
  • endless carrier means having a path of travel past said X-ray tube and having a width in a direction transversely of its path of movement suflicient to support thereon a series of packages substantially alined transversely thereof, and means for effecting movement of-packages on said carrier means in a direction transversely thereof.
  • an endless carrier means having a path of travel past said X-ray tube and having a width in a direction transversely of its path of movement sufficient to support thereon a series of articles substantially alined transversely thereof, and means for moving an article onto said carrier mean to be added to a series of articles thereon and adapted to efiect a movement of said series of articles transan article on said carrier means 1n a direction substantially transversely of said carrier means, thereby to effect a discharge of the opposite end article of said series from said carrier.
  • an X-ray tube an endless carrier means having a path of travel past said X-ray tube and having a width in a direction transversely of its path of movement-s'uflicient to support thereon a, series of articles substantially alined transversely thereof, means forming a platform adapted to hold an article and positioned: adjacent the path of movement of said carrier means, and a plunger operating in timed relation with respect to the movement of said carrier means adapted to move an article from said platform onto said carrier and adapted thereby to effect a movement of a series of articles on said carrier in a direction transversely of the latter.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • High Energy & Nuclear Physics (AREA)
  • Apparatus For Disinfection Or Sterilisation (AREA)

Description

2- Sheets-Sheet 1 F. 8. SMITH Filed Aug. 2. 1928 June 9, 1931.
APPARATUS FOR TREATING ARTICLES WITH X-RAYS ATTOT NEY My m N M a j m 1-H mm: II]: \N
w e 3 Q m Q E Q E a. o o H. 0 6 Q Q Q Q ,4, D WM.
June 9, 1931.
5M Mm INVENTOR ATTORNEY BY @MJW Patented June 9, 1931 rmnxnm s. smrn, or BROOKLYN, NEW YORK APPARATUS FOR TREATING ARTICLES WITH X-RAYS- Application filed August 2, 1928. Serial No. 296,981.
This invention relates to X-ray apparatus and more particularly to an apparatus for sub'ecting articles to X-rays "for purposes 'o sterilization.
One of the objeets of this invention is to provide a simple and thoroughly practical apparatus for effecting, at high speed of operation, low cost, and with thoroughly e ective results, the sterilization by X-rays of articles such as packaged tobacco products, food products, and the like. Another object is to provide anapparatus well adapted for quantity treatment of articles Cal . aged cigars, like.
to X-rays in order to eflect a destruction of the eggs, larvae and pupae of insects or bugs, or by destroying the insects or bugs themselves, and which is capable of embodiment in thoroughly practical and durable form and which .will be of thoroughly reliable and dependable action. Another object is to provide an apparatus of the, above-mentioned nature in which use is inade of the from an X-ray in intensities of the X-ray' beam may be e ectively utilized to effect sterilization. Another object is to provide-an apparatus of the above-mentioned nature particularly adapted for the handling, andtreatment with X-rays, of packaged goods like acktobacco, cigarettes, an the Another object is to provide an app'aratus of the above-mentioned nature well available X-ray beam adapted to meet the varying conditions of hard practical use. Other objects will be in part obvious or in inafter. I r
The invention accordingly consists in the features of construction, combinations of elements, and arrangements of parts as will be exemplified in the structure to be hereinafter described and the scope of the applipart pointed out herecation of which will be indicated in-thefollowing claims.
Inthe accompanying drawings, in which are diagrammatically illustrated a possible. embodiment of the mechanical features. of my invention,
lgigure 1 is a plan view of the apparatus, an
a highly efiicient I tube and in which the vary-- emanating from the anode 11 are directed tance from the vertical axis of the X-ray Figure 2 is a front elevation, certain parts being shown in section in order to show certain features of the construction more clearly.
Similar reference characters referto similar parts throughout the several views of the drawings.
Referring now to the drawings, there is shown at 10 an X-ray tube preferably mounted with its axis extending substantito ally vertically and with its anode 11, from which the X-rays emanate, uppermost and having its active face extending substantially transversely to the vertical axis of the X-ray tube 10. The X-ray tube may conveniently be of the hot-cathode tube and may therefore have as a cathode a filament 12, as is more clearly shown in Figure 2. The X-ray tube 10 may be energized from any suitable source of energy and may be insulatingly supported -yany suitable means (not shown).
With the X-ray tube thus constructed and mounted, as shown in Figure 2, the X-rays in a general downward directionand will extend over a range substantially to each'side of the vertical axis of the X-ray tube, as is diagrammatically indicated in Figure 2. The intensity of the X ray beam in a horizontal plane, as viewed in Figure 2, will thus vary progressively. with the dis-- tance from the-anode l1 and, in a broader sense, the intensity will vary with the distube 10.
Referring now to Figure 1, there is shown at 13 a flexible endless member, conveniently in the form of a link chain and passing about the sprockets 14 and 15 appropriately 90 mounted to rotate about substantially vertical axes. These sprockets 14 and 15 may conveniently be of ,a generally annular shape, as is clearly indicated in. Figure l, and may be rotatably supported by the members 16 and 17 respectively; The members 16 and 17 are also of annular shape in order thereby to make-available the space within the sprockets lat-and 15 and themembers 16 and 17 may be of any suitable construcof power.
sprocket 21 is intermittent and is of such a' able mechanism and tion to provide appropriate bearings or hearing surfaces to take care of not only the rotation of the sprockets but also to take care of the thrust in a downward direction of the sprockets 14 and 15 and the load carried thereby.
. The flexible endless member 13, hereinabove noted as being preferably in the form of a chain, has secured to it and spaced lengthwise thereof a number of carriers 18; these carriers, forming in general a series of successive platforms, may be attached to the chain 13 by any suitable construction.
The carriers 18, as Wlll be clear from Figure 1, extend transversely of the chain 13 and are shaped to provide front and rear flanges 18a and 18?), being thereby better adapted tohold a series of articles or packages arranged face to face across the carriers 18, as is indicated by the series of packages at 19. Thelateralend portions of the carriers 18 are preferably unrestricted and left open.
Intermediate of the two spaced sprockets 14 and 15, and engaging the chain 13 from the outer face thereof, are two sprockets 20 and 21, positioned so that, as is clear from Figure 1, the chain 13 may be made more completely to wrap itself about the sprocket 14. The sprocket 20 may be an idler while, in order to effect a movement of the chain 13 with its carriers 18, the sprocket 21 is preferably driven from any suitable source Preferably, the drive of the nature that the chain 13 is intermittently advanced along its path of travel by a distance substantially equivalent to the effective distance between any two adjacent carriers 18, the latter being preferably equidistantly spaced along the chain 13.
The X-ray tube 10 is mounted, as will be clearly seen from the drawings, so that its axis is preferably substantially coincident with the axis of the sprocket 14. Accordingly, as the carriers 18 are progressively broughtb the chain 13 into a relation overlapping tiie sprocket 14, the carriers 18 assume positions such that they extend in a direction substantially radially toward the X-ray tube 10 and hence toward the axis of tlie X-ray beam emanating from the anode 1 As diagrammatic merely of a possible mechanism for intermittently moving the endless carrier bearing lustrated the sprocket 21 as being provided with a coaxial gear 22 adapted to mesh with and be driven by a larger gear 23. The larger gear 23 is in turn driven by the pawl 24 coacting with a ratchet 25, the latter being mounted in any suitable way to rotate the gear 23 therewith. The pawl 24 may be given a reciprocating movement by any suit may conveniently be reciprocated by a crank 26, driven from any chain 13, I have ilsuitable source of power, and connected to the pawl 24 by the connecting rod 27.
As the crank 26 is rotated, the pawl 24, when moving to the left as viewed in Figure 1, advances the ratchet 25 sufficiently to effect such a rotation of the sprocket 21, by the interposed speed change gearing, as to bringabout a movement of the carrier bearing chain 13 by a distance substantially equivalent -to-the effective spacing between adjacent carriers 18. As the pawl 24 moves to the right, as viewed in Figure 1, the carrier chain 13 remains at rest.
Suitably positioned adjacent the path of travel of the carriers 18 and at substantially the same height as the latter (see Figure 2) is a conveyor belt 28 driven in any suitable manner in the direction of the arrow shown on Figure'l and at an appropriate speed.
halted by the stop 31 at such a when the carrier of the carriers indicated at 180 will be positioned adjacent the conveyor belt 28 and so position that,
that the article 29 thus stopped will be substantially alined with respect to the front and rear flanges 18a and 18b of the carrier 180. During this interval of stoppage of the carrier bearing chain 13, a plunger 3 moves in a directiontoward the'axis of the sprocket 15 and moves the article 29 from the conveyor belt 28 onto the halted carrier 18c. a
Any suitable mechanism may be employed for operating the plunger 32 in timed relation with respect to the remaining apparatus; As diagrammatically illustrative of such a mechanism, the plunger 32 may be operated from the crank 26. Thus, for exam le, a connecting rod 33, connected at one one to the crank pin of the crank 26, may elfeet through,the lever 34 an oscillation about its axis of the shaft 35 which extends toward the plunger 32; adjustably secured to the oscillating shaft 35 is a lever 36 connected through the link 37 to the plunger 32. Thus, as the pawl 24 is making its stroke in a direction toward the left, the plunger 32 is withdrawn into the position shown in Figure 1, permitting the package 29 to be carried up against the-stop 31..
that an article, such. as the article 29, carried by the belt will be' bearing chain 13 halts, one' to add the package or article 29 to the lefthand end of the series 19 of articles, also acts to effect a movement of the entire series 19 of the articles on the halted carrier 180 of the article at the other endof the carrier thus being loaded. An article thus being discharged from the carrier is indicated at 37 tions,-indicated at 18c and which are not lhe discharged article 37 drops into a chute38 or other appro vice, and guides the pac age away.
As the carriers 18 are thus intermittently moved about the axis of the X-ray tube 10, each will be seen to be supporting a complete series of substantially alined articles, between the front and rear flange members. 180 and 18b. The length of the carriers 18 in a direction transversely of the carrier bearing chain 13 is referably such that the series of articles carrled thereby into the ralge ofa the X-ray beam emanating from the tube 10 will be so positioned that the inner- -ray most article of the series will be in the closest possible proximity to the anode 11 or the vertical axis of the beam of X-rays theregiven a from while the outermost article or package of the series will be more distant therefrom but nevertheless within effective range of those portions of the X-ray beam which are of lesser intensity. .However, e'ach time that the carriers are halted so that the innermost package (for instance the article or package 37) of a single series ona carrier (already subjected to the most intense portions of the '-ray beam) is discharged from the carrier, the remaining packages of the series on the carrier are advanced inwardly by a distance substantially equivalent to the width or thickness of a packageuwhile a new or untreated package (like the package 29) is the carrier. a
This readjusted series of articles with a new article added thereto is' thereu on passed into the X-ray beam and each artlcle that had previously been passed through the 'X-ray beam during a preceding cycle of operation is now positioned to be subjected .to more intense portions of the X-ray beam. Thus, the repeated movement of the carriers 18 through the X-ray beam is accompanied by a progressive movement of the articles carried thereby into progressively more intense portions of the X ray beam,
'and thus all portionsof'the X-ray beam,
even though of varying intensity, are effectively utilized in bringing about a sterilization of the products carried upon the carriers 18. Furthermore, each article will be riate conveying deposition outermost of the series onseen to be repeatedly subjected to the X-rays, while at the same time the wide expanse of the X-ray beam is most eflectively ,made use of in that a large number of articles or packages to be treated are continuously within its scope or range. k
' Because of the relatively high potentials that may be employed in operating the -ray tube 10, the carriers 18 are preferably constructed so that the inner half portions, indicated at 18d in Figure 2, are made of a solid dielectric material, such as hard rub- I It will thus be seen that there has been provided by this invention'an apparatus in which the several objects of this'invention, as well as many thoroughly practical advantages, are successfully achieved. It will be seen that the apparatus is of a thoroughly practical nature, is well adapted for highly eflicient sterilization action by the X-rays and is, moreover, capable of high speed of operation.
As many possible embodiments may be made of the above invention and .as many changes might be made in the embodiment above set forth, it is to be understood that all matter hereinbefore set forth or shown inthe accompanying drawings, is: to be interpreted as illustrative and not in a limiting sense.
' I claim as my invention:
1. In apparatus of the character described, in combination, an X-ray tube mounted with its axis substantially vertical and having an anode whose active face extendstransversely to said axis, a member having a plurality of carriers thereon and movable substantially about the vertical axis of said X-ray tube, said carriers extend ing in a direction toward the axis of said X-ray tube and each adapted to support a series of packages substantially alined so that successive packages of each series are at greater distances from the axis of said -X-ray vtube, means for intermittently ad-.
vancing said member by a distance sub ing between adjacent carriers, and means operative at substantially each stoppage of said member for adding a package to the series of packages on one of said carriers and for correspondingly advancing said series of packages thereon to cause an end package thereof to be discharged from said carrier.
stantially equivalent to the effective sp a'cadding a package to 2. In apparatus of the character described, in combination, an X-ray tube mounted with its axis substantially vertical and having an anode whose active face-extends transversely to said axis, a member having a plurality of carriers thereon and movable substantially about the vertical axis of said X-ray tube, said carriers extending in a direction toward the axis of said X-ray tube'and eachadapted to support a series of packages substantially alined so that succcssive packages of each series are at greater distances from the axis of said X-ray tube, means for intermittently advancing said member by a distance substantially equivalent to the-effective spacing between adjacent carriers, means forming a source of supply of packages, and means governed by the intermittent movement of said member for transferring a package from said last-mentioned means to one of said carriers and to thereby effect a movement of the series of packages on the latter suflieient to cause the end package of said series to be discharged from said carrier.
3. In apparatus of the character described, in combination, a pair of spaced rotary members each mounted to rotate about a substantially vertical axis, a flexible member about said rotary membersand provided with a plurality of spaced carriers, each ada ted to support a series of substantially alined -packages extending in a direction toward the axes of said members, an X-ray tube positioned substantially centrally with respect to one of said rotary members, whereby the packages on said carrier are brought within range of X-rays from said tube, and means for periodically the series on a carrier and adapted to advance said series by a distance sufiicient to discharge an opposite end package from said carrier.
4. In apparatus of the character described, in combination, apair of spaced rotary members each mounted -.to rotate about a substantially vertical axis, a flexible member about said rotary members and provided with a plurality of spaced carriers, each adapted to support a series of substantially alined packages extending in a direction toward the axes of said members, an X- ray tube positioned substantially centrally with respect to one of said rotary members, whereby the packages on said carrier are brought within range of X-rays'from said tube, means for vintermittently advancing said flexible member thereby to effect a repeated passage of said carriers X-ray tube, and intermittently operative means adapted to advance the series of packages on a carrier by a distance suflicient to effect the discharge of an end package therefrom.
5. In apparatus of the character described,
positioning a package about said tube positioned substantially centrally with I respect to one of said rotary members, whereby the packages on said carrier are brought within range of X-rays from said tube, means positioned within the periphery of the other rotary member adapted to receive packages as they are discharged from said carriers, and means operative upon a carrier while the latter is passin about said other-mentioned rotary mem er for at the outer end of the series of packages upon a carrier and for advancing said series in a direction toward the center of said rotary member by a distance suflicient to cause the inner. end package to be discharged into said receiving means.
6. In apparatus of the character -de-.
scribed, in combination, an X-ray tube, means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to-re eatedly bring said carrier into the range 0 X-rays emanating from said tube, said carrier belng adapted to support said series of articles alined in a direction transversely of path of movement of said carrier, and means adapted to progressively advance said series of articles crosswise of said carrier.
7 In apparatus of the character described, in combination, an X-ray tube, means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to repeatedly bring said carrier into the range of X-rays emanating from said tube, said carrier being adapted to support said series of articles alined in a direction transversely of the path of movement of said carrier, and means operative at each complete cycle of movement of said carrier past said X-ray tube to effect a movement of said series of articles relative to said carrier and in adirection transversely of the path of movement thereof.
8. In apparatus of the character described, in combination, an X-ray tube, means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to repeatedly bring said carrier into the range of from said tube, said carrier being adapted to support said series of articles alined in a direction transversely of the path of movement of said carrier, and means for adding an article to the series of articles on said carrier and. adapted to move said series of articles relative to said carrier and in a the inc
X-rays emanating carrier, and means for receiving anarticle direction substantially transversely of the path of movement of the carrier.
9. In apparatus of-the character described,
in combination, an- X-ray tube, means having a carrier adapted to-support a series of substantially alined articles thereon and movable in a path to repeatedly bring said carrier into the range of X-rays emanating from said tube, said carrier being adapted to support said series of articles alined in a direction transversely of the path of movement of said carrier, means governed by the complete cyclic movement. of said carrier past said X-raytube adapted to add a package to one end of the series of packages on said carrier-and'adapted simultaneously to advance said series in'the direction in which the articles are alined, thereby to cause an opposite end package to be discharged from said carrier.
10. In an'apparatus of the character described, in combination, an X-ray "tube, means having a carrier adapted to support a series of substantially alined articles thereon and movable in a path to re eatedly bring said carrier into the range 0 X-rays emanating from said tube,
adapted to support said series of articles alined in a direction transversely of :thepath of movement of said carrier, a platoftravel, of said carrier, means operative each time form positioned adjacent the path that said carrier: passes said platform for transferring an article from the platform 'to the end of the series of articles on said to effect a movement of said series of articles relative .to said car- .rier by a distance suflici nt to cause the'op-- carrier and thereby posite end article to be discharged from said discharged from said-carrier. 11. In apparatus of the character described, in combination, an X-ray tube, move able means provided with aplurality of care riers and'extending transversely of the path of movement thereof, guiding means for said movable means latter past said X-ray tube and with said carriers extending in a direction toward said X-ray tube, means for intermittently .ad-
vancing said movable means by a distance substantially equivalent'to the effective spacing between said carriersthereon, and means effective at substantially each stoppage of said movable means for moving an.
article onto a carrier and thereby advancing an article already on saidcarrier transverselyof the latter. v
12. In apparatus ofthe character described, in combination, an X-ray tube, movable means provided with a plurality of carriers and extending transversely of the path of movement thereof, guiding means for said movable means adapted to guide the latter past said X-ray adapted to guide the path of movement thereof, guiding meanscarriers extending in a direction toward said -X-ray tube, said carriers being adapted each to support a series of articles alined thereon in a-direction substantially transversely of said path of movement, and meansfor pr'ogressively advancing the articles on a carrier relative thereto and in a direction sub-- stantially transversely of'thepath of move- I ment of said carrier. p 13. In apparatus of the character described, in combination, an X-ray tube, movable means provided witha plurality of carriers and extending transversely of the.
for said movable means adapted toguide the latter past said X-ray tube'and with said carriers extending in a direction toward said X ray tube,v said carriers being adapted each to support a series of articles alined'thereon in a direction substantially transversely of said path of movement, and means successively adding an article to the series carried by said carriersandadapted to advance said series relative to said carrier by a distance suflicient to cause the discharge of an end article. from a carrier.
said carrier being .14. In apparatus of the character described, in combination,-an X-raytube, movtube and with saidable means provided with a plurality of carrier's and extendingtransversely o the ath of movement thereof, guiding means or said movable means adapted to guide the carriers extending in a direction towardsaid X-ray tube, said carriers being adapted each ,7 to support aseries of articles ali'ned thereon ina direction substantially transversely of said path of movement, means for intermittentlymoving said movable means with said carriers, means forming a supply of artiand means operative at. a stoppage of said movable means for transferring an article from said supply means to a carrier.
latter past said X-ray tube and with said' 1 15. In apparatus of the character described, combination, an X-ray tube, movable means provided with a plurality of carriers andpe'xtending transverselyof the path of movement. thereof,'guiding means said carriers, and means fordistance suflicient to effect a discharge of an end article of said series from said carrier.
16. In apparatus of the character described, in combination, an X-raytube, movsupported thereon,
able means provided with a plurality of car riers and extending transversely of the path of movement thereof, guiding means for said movable means adapted to guide the latter past said X-ray tube and with said carriers extending in a direction toward said X-ray tube, said carriers being adapted each to support a series of articles alined thereon in a direction substantially transversely of said path of movement, a conveyor belt adjacent the path of travel of said carriers, means for intermittently advancing said movable means with said carriers and adapted thereby to successively halt said carriers adjacent said conveyor belt, and means operative at each halting of said carriers for transferring an article from said belt to a carrier.
17. In apparatus of the character described, in combination, an X-ray tube, an endless carrier means movable in a path to. carry an article supported thereon within the range of the X-ray emanations from said X-ray tube, said carrier means having a width greater than the width of the article and means for efl'ecting a movement of versely of the latter, thereby to subject said article to a range of intensities of X-ray emanations.
18. In apparatus of the character described, in combination, an X-ray tube, an endless carrier means movable in a path to carry an article supported thereon within the range of the X-ray emanations from said X -ray tube, said carrier means having a widthgreaterthan the width of the article supported thereon, and means operative in timed relation with respect to the movement of said carrier means for effecting a movementof an article thereon in a direction substantially transversely of the path of movement of said carrier means.
19. In apparatus of the character described, in combination, an X-ray tube,an
endless carrier means having a path of travel past said X-ray tube and having a width in a direction transversely of its path of movement suflicient to support thereon a series of packages substantially alined transversely thereof, and means for effecting movement of-packages on said carrier means in a direction transversely thereof.
20. In apparatus of the character described, in combination,- an X-ray tube, an endless carrier means having a path of travel past said X-ray tube and having a width in a direction transversely of its path of movement sufficient to support thereon a series of articles substantially alined transversely thereof, and means for moving an article onto said carrier mean to be added to a series of articles thereon and adapted to efiect a movement of said series of articles transan article on said carrier means 1n a direction substantially transversely of said carrier means, thereby to effect a discharge of the opposite end article of said series from said carrier.
21. In apparatus of the character described, in combination, an X-ray tube, an endless carrier means having a path of travel past said X-ray tube and having a width in a direction transversely of its path of movement-s'uflicient to support thereon a, series of articles substantially alined transversely thereof, means forming a platform adapted to hold an article and positioned: adjacent the path of movement of said carrier means, and a plunger operating in timed relation with respect to the movement of said carrier means adapted to move an article from said platform onto said carrier and adapted thereby to effect a movement of a series of articles on said carrier in a direction transversely of the latter.
In testimony whereof, I have signed my v
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Cited By (17)

* Cited by examiner, † Cited by third party
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US2563876A (en) * 1947-01-20 1951-08-14 Colgate Palmolive Peet Co Material handling apparatus and process
US2687477A (en) * 1949-08-03 1954-08-24 Daimler Benz Ag Device for X-ray testing
US4300052A (en) * 1979-02-09 1981-11-10 Uniroyal Limited Apparatus for exposing a series of plates to radiation
US5396074A (en) * 1993-03-19 1995-03-07 The Titan Corporation Irradiation system utilizing conveyor-transported article carriers
US6429608B1 (en) 2000-02-18 2002-08-06 Mitec Incorporated Direct injection accelerator method and system
US20020162971A1 (en) * 2001-04-02 2002-11-07 Mitec Incorporated Irradiation system and method
US20030094578A1 (en) * 2001-11-16 2003-05-22 Glenn Nelson Article irradiation system shielding
US6583423B2 (en) 2001-11-16 2003-06-24 Ion Beam Applications, S.A. Article irradiation system with multiple beam paths
US6653641B2 (en) 2000-02-24 2003-11-25 Mitec Incorporated Bulk material irradiation system and method
US6683319B1 (en) 2001-07-17 2004-01-27 Mitec Incorporated System and method for irradiation with improved dosage uniformity
US6707049B1 (en) 2000-03-21 2004-03-16 Mitec Incorporated Irradiation system with compact shield
US6713773B1 (en) 1999-10-07 2004-03-30 Mitec, Inc. Irradiation system and method
US20040126466A1 (en) * 2001-04-02 2004-07-01 Mitec Incorporated Method of providing extended shelf life fresh meat products
WO2004102587A2 (en) * 2003-05-06 2004-11-25 Surebeam Corporation Compact self-shielded irradiation system and method
US6931095B1 (en) 2002-03-19 2005-08-16 Mitec Incorporated System and method for irradiating large articles
US20070237866A1 (en) * 2006-03-10 2007-10-11 Mitec Incorporated Process for the extension of microbial life and color life of fresh meat products
US20080173319A1 (en) * 2007-01-17 2008-07-24 James Kedzie Jacobs Smokeable product with reduced content of pathogens

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2563876A (en) * 1947-01-20 1951-08-14 Colgate Palmolive Peet Co Material handling apparatus and process
US2687477A (en) * 1949-08-03 1954-08-24 Daimler Benz Ag Device for X-ray testing
US4300052A (en) * 1979-02-09 1981-11-10 Uniroyal Limited Apparatus for exposing a series of plates to radiation
US5396074A (en) * 1993-03-19 1995-03-07 The Titan Corporation Irradiation system utilizing conveyor-transported article carriers
US5590602A (en) * 1993-03-19 1997-01-07 The Titan Corporation Article carrier for conveyor system
US6713773B1 (en) 1999-10-07 2004-03-30 Mitec, Inc. Irradiation system and method
US6429608B1 (en) 2000-02-18 2002-08-06 Mitec Incorporated Direct injection accelerator method and system
US6781330B1 (en) 2000-02-18 2004-08-24 Mitec Incorporated Direct injection accelerator method and system
US20040113094A1 (en) * 2000-02-24 2004-06-17 Mitec Incorporated Bulk material irradiation system and method
US7067822B2 (en) 2000-02-24 2006-06-27 Mitec Incorporated Bulk material irradiation system and method
US6653641B2 (en) 2000-02-24 2003-11-25 Mitec Incorporated Bulk material irradiation system and method
US6707049B1 (en) 2000-03-21 2004-03-16 Mitec Incorporated Irradiation system with compact shield
US7154103B2 (en) 2001-04-02 2006-12-26 Mitec Incorporated Method of providing extended shelf life fresh meat products
US20050178977A1 (en) * 2001-04-02 2005-08-18 Mitec Incorporated Irradiation system and method
US20020162971A1 (en) * 2001-04-02 2002-11-07 Mitec Incorporated Irradiation system and method
US6885011B2 (en) 2001-04-02 2005-04-26 Mitec Incorporated Irradiation system and method
US20040126466A1 (en) * 2001-04-02 2004-07-01 Mitec Incorporated Method of providing extended shelf life fresh meat products
US6683319B1 (en) 2001-07-17 2004-01-27 Mitec Incorporated System and method for irradiation with improved dosage uniformity
US20030094578A1 (en) * 2001-11-16 2003-05-22 Glenn Nelson Article irradiation system shielding
US6777689B2 (en) 2001-11-16 2004-08-17 Ion Beam Application, S.A. Article irradiation system shielding
US6770891B2 (en) 2001-11-16 2004-08-03 Ion Beam Applications, S.A. Article irradiation system with multiple beam paths
US6753535B2 (en) 2001-11-16 2004-06-22 Ion Beam Applications, S.A. Article irradiation system with multiple beam paths
US20030201400A1 (en) * 2001-11-16 2003-10-30 Rose Graham Thomas Article irradiation system with multiple beam paths
US20030201401A1 (en) * 2001-11-16 2003-10-30 Rose Graham Thomas Article irradiation system with multiple beam paths
US6583423B2 (en) 2001-11-16 2003-06-24 Ion Beam Applications, S.A. Article irradiation system with multiple beam paths
US6931095B1 (en) 2002-03-19 2005-08-16 Mitec Incorporated System and method for irradiating large articles
WO2004102587A2 (en) * 2003-05-06 2004-11-25 Surebeam Corporation Compact self-shielded irradiation system and method
WO2004102587A3 (en) * 2003-05-06 2005-09-29 Surebeam Corp Compact self-shielded irradiation system and method
US20070237866A1 (en) * 2006-03-10 2007-10-11 Mitec Incorporated Process for the extension of microbial life and color life of fresh meat products
US20080173319A1 (en) * 2007-01-17 2008-07-24 James Kedzie Jacobs Smokeable product with reduced content of pathogens

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