Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
  • B65H3/00—Separating articles from piles
  • B65H3/40—Separating articles from piles by two or more separators acting alternately on the same pile
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
  • B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
  • B29C49/00—Blow-moulding, i.e. blowing a preform or parison to a desired shape within a mould; Apparatus therefor
  • B29C49/24—Lining or labelling
  • B29C49/2408—In-mould lining or labelling
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65C—LABELLING OR TAGGING MACHINES, APPARATUS, OR PROCESSES
  • B65C9/00—Details of labelling machines or apparatus
  • B65C9/08—Label feeding
  • B65C9/12—Removing separate labels from stacks
  • B65C9/16—Removing separate labels from stacks by wetting devices
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
  • B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
  • B29C49/00—Blow-moulding, i.e. blowing a preform or parison to a desired shape within a mould; Apparatus therefor
  • B29C49/24—Lining or labelling
  • B29C2049/2443—Means for feeding the lining or label into the mould, preform or parison, e.g. grippers
  • B29C2049/2454—Means for feeding the lining or label into the mould, preform or parison, e.g. grippers for placing labels at the same time in two opposite mould cavities

Definitions

• the present invention relates to apparatus for providing a supply of labels and for transferring those labels to another location.
• the present invention relates to label transfer apparatus for picking up a label from a label supply means such as a magazine and transferring and depositing the label at a distal location, such as in the mold of a molding machine.
• the present invention also relates to apparatus for transferring an object, such as a label, from a pickup point to a delivery
• the present invention relates to a linear actuator for transporting a label transfer device from a label supply means such as a magazine to a distal location, such as the interior of a mold cavity of a molding machine.
• the prmsent invention is also an improvement of the invention disclosed in application Serial No. 544,986 by the same inventors, the application being incorporated herein by reference. That application also discusses the problems and disadvantages existing in the prior art label transferring apparatuses. However, those problems and disadvantages will be summerized herein for convenience. It is known to apply a label to a plasyic container that is made by blow molding by applying the label inside th ⁇ mold.
• a transfer mechanism tnat is capable of positively and accurately removing a label from a label supply means, retaining the label during a transfer operation, and accurately, reliably depositing the label at the same location inside the mold.
• the transfer, apparatus must have a reliable means for rapidly and accurately moving the transfer heads from a label supply means to the inside of a mold, and then retract to outside of the mold and return to the label supply means to continue the cycle.
• the problems become even more difficult when the requirement is added that the label delivery apparatus must be designed with flexibility so that it can be incorporated into a number of different types of previously installed molding apparatuses.
• the requirement for component flexibility also means that the individual components must work separately and in combination in a variety of orientations and in a variety of machinery environments.
• a simple motion of the transfer head is also dictated in order to permit the retrofitting of a label transfer mechanism to installed molding machines. Therefore, accuracy and speed of label transfer are increased with an increase in the simplicity of label pickup motion and distance of travel.
• the existing prior art devices become impossible to modify. Tne principal reason is that existing molding machines have limited access space both for inserting the label and for installing the label transferring device and the label storage means. Quite often, tnere is a small area into which an extensible label transfer head can be inserted from a distal location. The problem, however, is that the inserted device cannot be supported close to the mold and therefore must be mounted in a cantilever fashion. As is well known, it is very difficult to accurate position a heavy object over an extended distance when that object has been mounted by a cantilever mounting.
• a mold such tnat the label can be accurately, yet rapidly transferred and positioned.
• the present invention is especially adapted for use with molding machines and is particularly usable with blow molding machines.
• the present invention may also be applicable to other types of molding machines such as vacuum, deep draw plastic forming machines or injection molding machines.
• the present invention is specifically adapted to being incorporated into existing molding machines which, particularly, have mold halves that move away from each other to dispose of a formed item and to receive additional material, such as a new parison, after which the mold halves move together for the subsequent molding operations.
• the present invention utilizes the time and spacing when the mold halves are separated from each other for placement of labels into the mold halves.
• the particular embodiments of the invention depicted in this application relate more principally to the storage of labels and the pickup of those labels by a transfer head in preparation for subsequent delivery of the labels into the mold halves.
• the same motion of the apparatus for picking up a label is subsequently utilized by the apparatus for the deposition of the label into the mold halves.
• the embodiment utilizes the concept of accurately positioning a label on a transfer head and rapidly moving the transfer head between mold halves during the short time that the mold halves are separated to discharge a molded article, and then rapidly depositing the labels in the mold cavities and withdrawing the head from the moid so that the molding process can be resumed.
• This is accomplished by utilizing a label transfer mechanism that moves essentially directly toward the labels or label application surfaces with a simple movement having an insignificant or no lateral component of motion.
• a first embodiment of the present invention utilizes a pivotably mounted radial arm onto which a label transfer means having at least one label transfer head is mounted. Means are provided for pivoting the arm from a first radial position to a second radial position, which positions define a first plane of movement. Further means are provided for reciprocally moving the transfer head in a second plane that is substantially perpendicular to the first plane.
• the radial arm is pivotably mounted at one end thereof and the label transfer means is rigidly mounted collinearly with the arm at the other end thereof.
• a radial arm is pivotably mounted at a first end thereof and two, opposed label pickup heads oppositely mounted for opposite reciprocal movement are mounted at the other end of the radial arm.
• a label magazine is located at a first position that is spaced vertically below the pivot point and a mold machine naving two spaced apart mold sections is mounted at a second position that is spaced horizontally from the pivot point.
• the transfer pickup heads enter the space between the mold sections from therebelow.
• the present invention provides a linear extension motor for rapidly, repeatedly and accurately transporting a label transfer device from a label pickup location to a distal label deposition location. More particularly, the present invention provides an accurate means for positioning a label transfer device mounted at one end of a piston rod driven by a linear extension motor. In order to achieve the accuracy, the present invention provides a means for reducing the stroke of the linear actuator or by providing an additional piston rod extending out the opposite end of the actuator cylinder and supporting the piston rod at that point.
• the embodiments utilize the concept of accurately positioning a label transfer head to receive a label stored in a magazine and tnen rapidly moving the transfer head between mold halves of a molding machine during the short time that the mold halves are separated to discharge a molded article.
• the present invention permits the accurate positioning of the transfer head between the mold halves so that the transfer head can accurately position the labels in the mold cavities. Then, the present invention rapidly withdraws the transfer head from the mold so that the molding process can be resumed. This is accomplished by either shortening the stroke of the linear actuator and/or by providing additional support means for the actuator piston rod.
• a first embodiment of the present invention utilizes a linear actuator comprising a piston mounted for reciprocal motion in a cylinder and a piston rod connecting to the piston and extending out both ends of the cylinder.
• Mounting means mount a label transfer device to one end of the piston rod and an alignment means is connected to the other end of the piston rod where it extends outside the rear of the cylinder for maintaining alignment of the piston rod during the movement thereof.
• a linear actuator for a label transfer device comprises a piston reciprocally mounted inside a cylinder and a piston rod connected to the piston and extending out a forward end of the cylinder.
• the forward end of an elongated label transfer device is mounted with cantilever means to the forward piston end such that tne label transfer device extends rearwardly over the cylinder forward end when the piston is at a rearward portion of the cylinder.
• the accuracy of the positioning of an extended label transfer device is increased by shortening the stroke of the piston rod.
• Figure 1 is a perspective view with parts removed for clarity illustrating a label transfer apparatus that includes a label magazine, a pivotably mounted radial arm which, in turn, mounts a plurality of label transfer heads.
• Figure 2 is a diagrammatic, cross-sectional view of a rack and pinion radial arm pivoting means.
• Figure 3 is a diagrammatic, positional illustration of the label transfer device, the label storing magazines, and the mold halves.
• Figure 4 is a diagrammatic, cross-sectional view of a cam actuated transfer head positioning means.
• Figure 5 is a top plan view of the label magazine.
• Figure 6 is a diagrammatic positional illustration of a second embodiment of a rotary arm label transfer apparatus.
• Figure 7 is a diagrammatic positional illustration of still another embodiment of a rotary arm label transfer apparatus.
• Figure 1' is a perspective view with parts removed for clarity illustrating a linear actuator having a label transfer device mounted at the forward end thereof in front of a label magazine and having a means for supporting a portion of the piston rod that extends outside the rearward portion of the cylinder.
• Figure 2' is a diagrammataic, end view of the linear actuator of Figure 1.
• Figure 2A' is a transverse view similar to Figure 2', but showing a modified track structure.
• Figure J' is a perspective view of a second embodiment of the present invention, showing a linear actuator and a label transfer device mounted to the forward end of the actuator with a cantilever mounting member.
• Figure 6' is a side elevational view of Figure 3', illustrating more clearly the guide mechanism for the transfer device.
• Figure 7' is a cross-sectional view taken along line 7'-7' of Figure 6'.
• Figure 1 illustrates one embodiment of a rotary arm label transfer apparatus 10 mounted on a vertical support wall 12 which is preferably separate from, but attached to the machine platten 12a. Also mounted on support wall 12 is a two-bottle molding apparatus 14.
• Label transfer apparatus 10 includes a label transfer device 16 rigidly mounted on one end of a pivotably mounted radial arm 18.
• Label transfer apparatus 10 furtner includes four label magazines, only two label magazines
• Rotary actuator 22 comprises a housing 24 mounted onto a base 26 which in turn is mounted onto support wall 12. The width of base 26 is selected so as to properly position radial arm 18 and its plan of swing at the proper transverse distance.
• Rotary actuator 22 is comprised of a toothed rack 28 in meshing, driving engagement with a pinion 29.
• Rack 28 is mounted to housing 24 with two spaced apart mounting blocks 30 which have corresponding slide bearings 31 that support rack 28.
• Pinion 29 is rigidly mounted to and rotatably drives radial arm 18 by a shaft 32. Thus, when rack 28 is longitudinally moved, pinion 29 is rotated thereby and, in turn, pivots radial arm 18.
• Rack 28 is longitudinally positioned by two fluid actuated pistons 33a and 33b mounted inside corresponding cylinders 34a and 34b and connected to corresponding ends of rack 28 with piston rods 35a and 35b. Pressurized fluid or electricity is supplied to the appropriate cylinder while the other cylinder is vented with fluid conduits 36a and 36b.
• piston 33a and 33b are driven by pressurized air, however, they can also be hydraulic pistons operated by hydraulic oil.
• An arrow 37 in Figures 1 and 2 depict the motion and direction at pinion 29 and hence label transfer device 16 and radial arm 18 are driven when rack 28 is moved in the longitudinal direction. Arrows 37 also define a first plane of movement which, in Fig. 1, is shown parallel to support wall 12.
• Label transfer device 16 is comprised of a housing or frame 38 onto which two pairs of oppositely opposed transfer heads 40 and 42 are mounted with rods 44 and 45, respectively (see also Fig. 4). Heads 40 and 42 are movable in mutually parallel directions that are perpendicular to the direction of movement of radial arm 18, which as shown by arrow 46 is in the transverse direction in Fig. 1.
• Transfer heads 40 and 42 may comprise a rigid plastic pad 50 having a plurality of orifices 52 aligned in a row and extending therethrough to a plenum (not shown) located between the back surface of pad 50 and a backing plate 54.
• a vacuum tube 56 is connected to the rear of backing plate 54 and communicates through an orifice therein (not shown) with the aforementioned plenum.
• transfer heads 40 and 42 are effective for transferring a label L (shown at attached to transfer heads 42) that has a length greater than the width of pad 50 so that the edges of label L can curl around pad 50.
• a label L to be transferred by neads 40 and 42 is relatively thin and flexible, and thus has a very light weight.
• Magazines 19 and 20 are depicted in Fig. 1 as being oriented in a vertical plane. However, magazines 19 and 20 can be oriented in any appropriate plane depending upon the space availability around molding apparatus 14. Furthermore, magazines 19 and 20 can be oriented in a rotated, non-orthogonal orientation where the label pickup station is desired to be moved or where transfer device 16 is not colliriear with radial arm 18 (as depicted in Fig. 6). Magazines 19 and 20 can be either independently mounted to support wall 12, or as depicted in Fig. 1, can be attached to one another along their interior edges and separately mounted to support wall 12 with mounting plates 56 and 58. Stacks of laoels L are stored in magazines 19 and 20 and are fed thereby with means described in greater detail hereinbelow.
• FIG. 4 One type of mounting and moving means usuable with the present invention for transfer heads 40 and 42 is depicted in Figure 4.
• Rotatably mounted inside frame 38 is an oblong-shaped or racetrack snaped cam 60 rigidly attached to a shaft 62.
• Cam 60 is rotated by any type of means, such as apower servo motor, a rotary electrical motor, a stepping motor or a rotary actuator, any one of which can be driven by pneumatics, hydraulics, electricity, solid state electronic devices or turbines.
• transfer heads 40 and 42 mounted on their respective rods 44 and 45 are rigidly, colinearly mounted inside frame 38.
• Proximal ends 64 and 65 of rods 44 and 45 engage cam 60 and ride along the outer surface thereof.
• proximal ends 64 and 65 serve as cam followers.
• the distal ends 66 and 67 are rigidly, removably mounted onto heads 40 and 42, respectively, with means such as bolts (not shown).
• Rigidly mounted to respective mid portions of rods 44 and 45 are disks 68 and 69 and mounted around the disks 68 and 69 and the mid portions of rods 44 and 45 are respective cylinders 70 and 71.
• Coil springs 72 and 73 mounted inside cylinders 70 and 71 around rods 44 and 45, respectively, extend between removable slide bearing end plugs 74 and 75 and disks 68 and 69, respectively.
• rods 44 and 45 are slidably, resiliently mounted inside cylinders 70 and 71, respectively, in cam following engagement with respective ends of cam 60.
• Cam 60 has a shape that provides two maximum points or lobes 76 and 77 and two minimum cam lobes 78 and 79 such that as cam 60 is rotated, rods 44 and 45 are alternately at their outermost, label pickup position (indicated by solid lines in Fig. 4 ) and their retracted, innermost position (indicated by dashed lines in Figure 4 ) .
• cam 60 pickup heads 40 and 42 have a rapid rate of retraction.
• Magazine 19 is comprised of a sturdy, rigid metal bar frame 100 that has an annular generally rectangular shape.
• the shape of frame 100 provides for greater flexibility in orientation and location.
• the frame of magazine 19 can be rigidly attached to the frame of magazine 20.
• the label feeding means is comprised of two pairs of two spaced apart bars 106 and 108, each bar 106 and 108 having a plurality of ratchet teeth 110 mounted on the inwardly facing surfaces thereof. Bars 106 and 108 are mounted to individual mounting blocks 112 which in turn, are removably, rigidly mounted onto frame 100 with screws 114. Mounting block 112 can be mounted with any one of a plurality of holes 116 provided in frame 100 along the periphery thereof.
• the label feeding means further includes a flexible label backing plate or pad 118 which is preferably made of a rigid plastic material so that labels L will not be cut or ratchet teeth 110 worn too quickly.
• Plate 118 is preferably curved and has is relatively thin at the transverse edges so tnat they can be engaged by ratchet teeth 110. Bars 106 and 108 with their ratchet teeth 110 and plate 118 together comprise a ratchet mechanism for feeding labels to a label supply location.
• a retaining finger 120 Rigidly mounted to the end of each bar 106 or 108 of magazine 19 is a retaining finger 120 that has an inwardly projecting tip 122. Finger 120 is rigidly mounted to the end of the respective bar 106 or 108 by means such as being welded or attached with screws. Tip 122 preferably has an inclined surface with an angle that will retain the outermost label, on the one hand, yet will release it to a transfer head, on the other hand.
• Mounted to the bottom of frame 100 are a pair of support members 124. Support members 124 preferably have a smooth upper surface for supporting the bottom of labels L while still permitting the labels L to slide therealong.
• Label backing plate 118 is resiliently urged in a forward, outward direction by a spring means which comprises of a pivotally mounted arm 126 having a bend therein and a coil spring (not shown) mounted between the bottom surface of the top of frame 100 and a point near the bend.
• Arm 126 is mounted at its upper end with a pivot pin 132 to a mounting block 134, which in turn, is rigidly mounted with means, such as a screw 136 to the top of frame 100.
• the other end of spring arm 126 is mounted to the back of plate 118 by means which permit low friction linear movement of plate 118 relative to the arcurate movement of arm 126.
• molding apparatus 14 will be briefly described so as to provide a better understanding of the operation of the present invention, although molding apparatus 14 does not form a part of the present invention and the one depicted is exemplary only.
• Molding apparatus 14 comprises two mold halves 150 and 152. Each mold half 150 or 152 has two mold cavities 154 and 156. An orifice 158 and 160 connects the corresponding mold cavity 154 and 156 with a supply of pressurized air which is used during the blow molding operation. Mold halves 150 and 152 are slidably mounted on support bars 162 and 164, one end of which can be connected to support wall 12 for supporting molding apparatus 14. Power means (not shown) are provided for opening and closing mold halves 150 and 152. In addition, molding apparatus 14 includes numerous other pipes, conveying apparatus to convey parisons to the molds and molded objects from the mold, and instrumentation (all of which has been omitted for clarity). With reference now to Fig.
• Label transfer apparatus 200 transfers labels to a molding apparatus 214 and supplies the labels to an interior mold cavity (not shown).
• Label transfer apparatus 200 comprises a label transfer device 216 rigidly mounted at one end of a radial arm 218. The other end of radial arm 218 is pivotably mounted and is pivotably driven by a shaft 232.
• label transfer device 16 is collinearly aligned and mounted one end of radial arm 18, as clearly shown in Fig. 3
• label transfer device 216 is rigidly mounted at an angle to one end of radial arm 218.
• radial arm 218 can pivot only through an angle of 60° instead of the 90° through which radial arm 18 pivots. Therefore, in order to properly position a label in the mold cavity of a vertically aligned molding apparatus 214, it is necessary to attach label transfer device 216 at an angle with respect to radial arm 218.
• the inside angle of attachment indicated by arrow 221 is the complement of the angle of rotation through which radial arm 218 travels. Therefore, for a travel of 60° for radial arm 218, label transfer device 216 must be rigidly attached so as to form an angle shown by arrow 221 that is 120°.
• label magazines 219 and 220 will also have to be reoriented in order to properly present a label to transfer device 216.
• the pivot point or location of shaft 232 is at least as high as the mold cavity of molding apparatus 214 .
• the pivot point of radial arm 18 is horizontally opposite the deposit point in mold cavity 154 and 156.
• the pivot point and shaft 232 of radial arm 218 must be located above the mold cavity of molding apparatus 214.
• label transfer device 216 still enters the space between the spaced apart mold halves from the bottom.
• a label transfer apparatus 300 for depositing a label to a molding apparatus 314 comprises of a radial arm 318 piv ⁇ table between moLding apparatus 314 and magazines 319 and 320.
• the angle of movement of the arm and the location of the pivot can be varied to accomodate the different motions and locations of tne arm and magazine to adapt to the various types of molding machines.
• radial arm 318 is mounted at a mid portion thereof by a shaft 332. Radial arm 318 is also provided with 30° bend 380 just below the pivot point and a counterweignt 382 at one end. At the other end of radial arm 318 a label transfer device 316 is mounted.
• Radial arm 318 is rotated oy a linear extension actuator 384 oriented 20° above the horizontal as shown by arrow 386.
• Label transfer device 16 is initially positioned by radial arm 18 in a first vertical orientation so that transfer heads 40 and 42 are in transverse alignment with magazines 19 and 20.
• Cam 60 (Fig. 4) is activated causing rods 44 and 45 to be resiliently extended outwardly in the transverse direction, which is perpendicular to the direction of movement of transfer device 18.
• a vacuum is applied to pickup heads 40 and 42 as the heads move transversely outwardly and into engagement with the uppermost label L.
• further outward movement of heads 40 and 42 is resisted as a result of the ratchet mechanism of magazines 12 and 14. This provides a firm contact between the outer surface of heads 40 and 42 and the outermost label L.
• transfer device With proper timing and transverse distances properly selected, transfer device will enter the space between mold halves 150 and 152 at exactly the correct time as transfer heads 40 and 42 are being moved in the outward direction so as to minimize the amount of time that device 16 is between the two mold halves.
• heads 40 and 42 When heads 40 and 42 have been extended to their full outward position, they will be in contact with the inner surfaces of the mold halves.
• the vacuum being supplied to heads 40 and 42 is terminated and vacuum is applied to the mold halves so as to retain the labels therein.
• Cam 60 continues to turn and with proper timing, after the label transfer, heads 40 and 42 are again rapidly withdrawn. Simultaneously, pressurized air is admitted to fluid line 36a while fluid line 36b is vented. This causes rack 31 to be driven in the lefthand direction and transfer device 16 to be again positioned in front of magazines 19 and 20. The mold halves can then be closed and the molding process begun.
• FIG. 1' one embodiment of a linear actuator 10' is shown.
• Actuator 10' extends in the longitudinal direction and is horizontally mounted by means such as a support table 12'.
• a cantilever mounting means comprising a mounting plate 14' mounts the rearward end of an elongate label transfer device 16' to the forward end of a piston rod 18'.
• Label transfer device 16' is shown in Fig. 1 positioned in a label pickup location in front of two horizontally mounted label magazines, a forward magazine 19 and a rearward magazine 20.
• Linear actuator 10 is comprised of a linear extension motor
• extension motor 22 is pneumatically operated with pressurized air.
• any pressurized fluid such as a hydraulic oil, or an electrically powered ball screw can be utilized.
• a fluid delivery means selectively admits a pressurized fluid to one side of piston 23' while venting the other side thereof for driving piston 23'and the attached piston rod 18' in the desired direction.
• pressurized air is admitted through hose 25' through a directional valve (not shown), hose 26' will be connected to atmosphere.
• Piston rod 18' extends completely through cylinder 24'and is sealingly mounted for longitudinal movement at the forward cylinder end and the rearward cylinder end by corresponding slide bearings 27'.
• the rearward part of piston rod 18' is also denoted the tail rod 28'.
• Tail rod 28' is rigidly mounted at its forward end to piston 23' and is rigidly mounted at its rearward end to a trolley 29'.
• piston rod 18' is preferably a single, unitary rod extending from trolley 29' through cylinder 24' to label transfer device 16.'
• trolley 29' is comprised of a mounting plate 30' rigidly mounted to the end of tail rod 28' with means such as a nut 31' connected to a threaded portion of tail rod 28'.
• a trolley housing 32' Connected to the lower part of mounting plate 30' is a trolley housing 32'.
• Trolley housing 32' engages a rail 33' which is rigidly mounted to support table 12' with means such as bolts, and which extends parallel to and under tail rod 28'.
• Three sets of rotatably mounted wheels, a top wheel 34' and side wheels 35' and 36' engage corresponding portions a rail 33'.
• trolley 29' is both supported and kept in alignment by rail 33'.
• Figure 2A' illustrates a modification of the track structure wherein plate 30' is replaced by a plate 50' which rides in a groove 52' formed in table 12'. Rollers 53' mounted on shafts 54' formed by plate 50' engage the sides of groove 52'. The bottom of plate 50' is either of a low friction material or would inelude a third roller, such as roller 34'of Figure 2', bearing against the bottom of groove 52'.
• label transfer device 16' comprises a housing or frame 38 onto which two pairs of oppositely opposed transfer or heads 40 and 42 are mounted with rods 44 and 45, respectively (see also Fig. 4). Transfer heads 40 and 42 are movable in mutually parallel directions that are perpendicular to tne direction of movement of radial arm 18', which, as shown by arrow 46, is in the transverse direction in Fig. 1'.
• Transfer heads 40 and 42 are comprised of a rigid plastic pad 50 having a plurality of orifices 52 aligned in a row and extending therethrough to a plenum (not shown) located between the back surface of pad 50 and a backing plate 54.
• a vacuum tube 56 is connected to the rear of trolley mounting plate 30' and a vacuum is applied to transfer head orifices 52 through a base (not shown) through tubing (also not shown) connected to the forward end of piston rod 18' and through the aforementioned plenum.
• transfer heads 40 and 42 are effective for transferring a label L (shown only as attached to transfer heads 42) that has a length greater than the width of pad 50 so that the edges of label L can curl around pad 50.
• a label L to be transferred by heads 40 and 42 is relatively thin and flexible, and thus has a very light weight.
• Magazines 19 and 20 can be either independently mounted on support table 12', or as shown in Fig. 1', can be attached to one another along their interior edges. Stacks of labels L are stored in magazines 19 and 20 and are fed thereby with means described in greater detail hereinabove.
• Linear actuator 210' includes a cantilever mounting plate 214' for mounting a label transfer device 216' onto the forward end of a piston rod 218'.
• Linear actuator 210' also includes a piston 223' connected to a rearward portion of piston rod 218', and a cylinder 224' which houses piston 223' and part of piston rod 218'. Pressurized fluid is applied into cylinder 224' on either the rearward side of piston 223' with a rear hose 225'or on the forward side of piston 223' with a forward hose.
• Label transfer device 216' is substantially identical to label transfer device 16' depicted in Fig. 1'. The only substantial difference is that the rearward end of transfer device 16' is mounted onto mounting plate 14' of linear actuator 10' whereas the forward end of label transfer device 216' is mounted onto an upper portion of mounting plate 214'. In this manner, label transfer device 216' has a cantilever mounting and requires less longitudinal space for its positioning. With less longitudinal space required, piston rod 218'can be shorter and thus the moment exerted by the weight of transfer device 216' is less when piston rod 218' is fully extended. Consequently, by using the cantilever mounting of label transfer device 216', it can be more accurately positioned.
• a guide means is provided. This guide means is shown in dashed lines in Figure 3 and in greater detail in Figure 6' and 7'.
• a pair of brackets 252' and 253' are rigidly mounted to support table 212'.
• a pair of guide rods 250' which are fixed to the plate 214'by bolts 251' are then slideably mounted in the brackets 252' and 253', passing through suitable bearings 254'.
• the rod 250' is long enough that when the linear accuator 210' moves to its forwardmost position (leftmost as shown in the drawings) the right hand end of rod 250' will not have passed through the opening of bracket 253'.
• linear actuator 10' the operation of linear actuator 10' will be described in general terms. However, it is to be appreciated that with obvious differences, the operation of linear actuator 210' will be similar.
• Label transfer device 16 is initially positioned by linear actuator 10' so that pickup heads 40 and 42 are in transverse alignment with magazines 19 and 20.
• Cam 60 (Fig. 4) is activated, causing rods 44 and 45 to be resiliently extended outwardly in the transverse direction, which is perpendicular to direction of movement of piston rod 18' and thus the direction of movement of transfer device 16'.
• a vacuum is applied through hose 56' to transfer heads 40 and 42 as the heads move transversely outwardly and into engagement with the outermost label L.
• further outward movement heads 40 and 42 is resisted as a result as the ratchet mechanism of magazines 12 and 20.
• the transfer device may enter the space between the mold halves of the molding apparatus at exactly the correct time as transfer heads 40 and 42 are being moved in the outward direction so as to minimize the amount of time that device 16 is between the two mold halves.
• transfer heads 40 and 42 When transfer heads 40 and 42 have been extended to their full outward position, they will be in contact with the inner surfaces of the mold cavities. At that time, the vacuum being supplied to heads 40 and 42 is terminated and a vacuum is applied to the mold halves so as to retain the labels therein.
• Cam 60 continues to turn and with proper timing, after the label transfer, transfer heads 40 and 42 are again rapidly withdrawn. Simultaneously, pressurized air is admitted to fluid line 26' while fluid line 26' is vented. This causes piston 23' to be driven in the lefthand direction and transfer device 16' to be again positioned in front of magazines 19 and 20. The mold halves can then be closed and the molding process begun while new labels are picked up.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Manufacturing & Machinery (AREA)
• Labeling Devices (AREA)
• Blow-Moulding Or Thermoforming Of Plastics Or The Like (AREA)

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• 1985
  • 1985-03-25 CA CA000477418A patent/CA1255706A/en not_active Expired
  • 1985-03-25 EP EP19850901820 patent/EP0175767A4/de active Pending
  • 1985-03-25 WO PCT/US1985/000495 patent/WO1985004310A1/en not_active Application Discontinuation

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