US3262832A

US3262832A - Apparatus for applying marginallygummed labels to cylindrical articles

Info

Publication number: US3262832A
Application number: US245107A
Authority: US
Inventors: Derek H Fairest
Original assignee: Morgan Fairest Ltd
Current assignee: Morgan Fairest Ltd
Priority date: 1961-05-01
Filing date: 1962-12-17
Publication date: 1966-07-26
Anticipated expiration: 1983-07-26

Description

y 26, 1956 D. H. FAIREST 3,262,832

APPARATUS FOR APPLYING MARGINALLY-GUMMED LABELS TO CYLINDRICAL ARTICLES Original Filed May 1, 1961 5 Sheets-Sheet l 20A FM 234 0 2 5 4r 4 "1 w M? 5 5 2 2 "wag 1.. 5 3L ma 2 5 a 2% v rm Q Q Q 0% F D L J m w w 2 7 z j a/K r \\2\\ A a m \IDIIT n+1 IO].

S E L m ST Em mL Am H N I Du flu O T July 26, 1966 APPARATUS FOR APPLYING MARGINALLY GUMMED LABELS 5 Sheets-Sheet 2 Original Filed May 1. 1961 July 26, 1966 D H. FAIREST APPARATUS FOR. APPIIYING MARGINALLY-GUMMED LABELS TO CYLINDRIGAL ARTICLES Original Filed May 1. 1961 :5 Sheets-Sheet 5 IQ FQ r W KT HIllHIHIHIWH- I nvenlor Home 375 United States Patent 3,262,832 APPARATUS FOR APPLYING MARGINALLY- GUMMED LABELS T0 CYLINDRICAL ARTICLES Derek H. Fairest, Sheflield, England, assignor to Morgan Fairest Limited, Shefiield, England Original application May 1, 1961, Ser. No. 106,666, now Patent No. 3,138,508, dated June 23, 1964. Divided and this application Dec. 17, 1962, Ser. No. 245,107

8 Claims. (Cl. 156455) This invention relates to machines for applying labels to bottles and like articles, and this application is a division of application Serial No. 106,666, filed May 1, 1961 (now US. Patent No. 3,158,508, granted June 23, 1964), which application describes and claims a method of applying suction-held labels to a succession of bottles and like articles by applying gum marginally to one face of a label to leave an ungummed central area that extends longitudinally to at least one of two opposite margins, the label having a hole through such area, holding the other, ungummed, face of the label by suction, presenting to the ungummed central area a sheet of material less in width than that area and holding it to the label by suction applied through the hole in the label, and applying the gummed face of the label to a bottle or like article, with the sheet of material retained in the pocket formed by the marginally-adhering label.

According to the present invention, a machine for applying labels to bottles and like articles comprises means for feeding a succession of bottles or like articles to and past a delivery member with a suction face to hold the ungummed face of a label, the other face of which is marginally gummed, with an ungummed central area extending longitudinally to at least one of two opposite margins, with a hole through that area, means to present to that area of a label held to the delivery member a sheet of material less in width than that area and covering the hole in the label, and suction means in the delivery member to register with the hole in the label to hold the sheet of material to the label until the label is applied by the delivery member to a bottle or like article and itself holds the sheet of material to the article.

Suction transfer means are preferably used to transfer the sheet of material from a stack of such sheets to the delivery member bearing the marginally-gummed label. Such transfer means need be no larger in area than the ungummed central area to which the sheet is to be applied, and consequently the label on the delivery member is only contacted by the sheet being applied, so that there is no risk of mechanical damage to the label or of difliculty arising from gum being picked off its gummed portions.

The invention will now be described with reference to the accompanying drawings, in which FIGURES 1 to 3 are elevations of three diiterent margina-lly-gummed labels each holding an ungummed sheet to a cylindrical surface of an article to which they have been applied by the method described and claimed in application Serial No. 106,666;

FIGURES 4 and 5 are fragmentary vertical sections of delivery members provided with diflferent suction means for holding both a marginally-gummed label and an ungurnmed sheet;

FIGURES 6 and 7 are fragmentary horizontal sections of flat delivery plates provided with different suction means for holding both a marginally-gummed label and an ungummed sheet;

FIGURE 8 is a horizontal section of a curved delivery plate provided with suction means for holding both a marginally-gummed label and an ungummed sheet;

FIGURE 9 is a fragmentary elevation of the delivery plate of FIGURE 8 showing additional suction means for holding the ungummed sheet;

FIGURE 10 is a small scale diagrammatic plan of one form of labelling machine according to the invention;

FIGURE 11 is an enlarged front elevation of the unit of FIGURE 10 employed for presenting ungummed sheets to the delivery member;

FIGURE 12 is a section generally on the line XIIXII of FIGURE 11;

FIGURES 13 and 14 are respective elevations of the fixed and rotary valve plates appearing in FIGURE 1'2;

FIGURE 15 is a small-scale diagrammatic plan of another form of labelling machine according to the invention;

FIGURE 16 is an enlarged plan of one of the units of FIGURE 15 employed for presenting ungummed sheets to the delivery member, the unit being shown in the kprocess of extracting an ungummed sheet from a state FIGURE 17 is a part-sectional elevation taken from the line XVII-XVII of FIGURE 16, but with the unit in the process of presenting an ungummed sheet to the delivery member; and

FIGURES 18 and 19 are respective plans of the fixed and rotary valve plates appearing in FIGURE 17.

In FIGURE 1, a label 20A that has previously been gummed marginally at 21A along three sides, to leave an ungummed central area 22A extending longitudinally to the upper margin 23A, holds to the cylindrical surface 24 of an article an ungummed she t 25 (e.g. an advertising device). The length of the sheet 25 is such that it protrudes beyond the opening or ungummed margin 23A of the pocket formed between the ungummed area 22A of the label and the cylindrical surface 24 of the article, so that its presence on the article can be readily noted, and the protruding portion 25X can be used for extraction of the sheet from the pocket. The label 20A has a hole 26A through the ungummed area 22A, whereby the sheet 25 may be held by suction applied through the hole, as will be described presently with reference to FIGURES 4 to 9.

In FIGURE 2, a label 208, which is considerably shorter than the label 20A, and that has previously been gummed marginally at 21B along two opposite sides, to leave an ungummed central area 22B extending to both the upper margin 23B and the lower margin 27B, holds by its tension alone the ungummed sheet 25 with its upper end 25X and its lower end 25Y protruding from opposite ends of the two-sided pocket formed between the ungummer area 22B and the cylindrical surface 24 of the article; and in FIGURE 3, a label 200, which has a length substantially equal to the ungummed area 22A of the label 20A, and that has previously been gummed marginally at 21C along two opposite sides, to leave an ungummed central area 220 extending to both the upper margin 23C and the lower margin 27C, holds by its tension alone the ungummed sheet 25, which is disposed so that only its upper end 25X protrudes from the two-sided pocket formed between the ungummed area 22C and the cylindrical surface 24 of the article. Holes 26B, 26C through the holes, as will now be described with reference serve for the application of suction to the sheet 25 through the holes, as will now be described with reference to FIGURES 4 to 9.

In FIGURE 4, a delivery member 28 (which may be an arm, a finger, or a plate) has a resilient surface 29 with

large suction apertures

30A, 30B fed from a supply duct 31 and adapted to hold the label 20 above and below the hole 26, with the ungummed face of the label to the surface 29. A further suction aperture 32 adapted to register with the hole 26 and apply suction from the duct 31 to the sheet 25 has a substantially smaller crosssection than the

apertures

30A, 30B so that the suction applied to the label up to the time when the hole 26 15 covered by the sheet is not adversely affected by exposure of the aperture 32 to the atmosphere. A further small aperture 33 (FIGURE 5) may be provided above the aperture A, to hold the protruding portion 25X of the sheet 25 and resist any tendency for the sheet 25 to rotate about the suction hold through the hole 26 in the label 20, the sum of the cross-sections of the apertures 32, 33 being substantially less than the

apertures

30A, 30B so that the suction applied to the label 20 up to the time when both apertures 32, 33 are closed by the sheet 25 is not adversely affected by exposure of the apertures 32, 33 to the atmosphere.

In FIGURE 6, the label 20 is adapted to be held by its ungummed face to a resilient surface 34 of a flat delivery plate 35, by suction applied from a duct 36 through apertures 37, one to each side of the hole 26, and the sheet 25 is adapted to be held by suction applied through the hole 26 by a smaller aperture 38 from the duct 36, while in FIGURE 7 similar suction apertures 37A are supplied from a duct 36A to hold the label 20 but the hole 26 in the label registers with suction aperture 39 supplied from a separate duct 40, so that the suction hold on the label 20 is completely unaffected by exposure of the aperture 39 when not closed by the sheet 25.

In FIGURES 8 and 9, a curved delivery plate 41 (e.g. forming part of a continuously rotary delivery drum) has suction apertures 42 from separate ducts 43 adapted to register with an arcuate port 44 in a valve plate 45 during the arc of travel of the delivery plate that it is required to hold the label 20, and a further suction aperture 46 (to register with the hole 26 in the label 20) from a duct 47 adapted to register with another arcuate port 48 in the valve plate during the arc of travel of the delivery plate that it is required to hold the sheet 25. The duct 47 may extend to a further suction aperture 46A (FIGURE 9) for holding the protruding portion 25X of the sheet 25.

The disposition of suction apertures is not limited to those shown in FIGURES 4 to 9, but may be governed by the size, shape, and relative disposition of labels and sheets to be held by any particular delivery member, as well as by their manner of presentation to the articles by the delivery member.

In FIGURE 10, articles 48 are carried on a slat conveyor 49 at the spacing determined by a feed worm 50, as required for application to each article of a label on one side by the right-hand mechanism 51, and a further label on the opposite side by the left-hand mechanism 52, and endless belt 53 on the opposite side of the conveyor 49 serving to roll the articles across labels presented by both mechanisms. The essential elements of the mechanism 51 and their drives are well-known while the essential elements and drives of the mechanism 52 are similar to those of the mechanism 51, but with the addition of a novel unit 54 for presenting sheets 25 for simultaneous application with labels 20 to the articles 48. Thus, the following description of the mechanism 52 is applicable to the mechanism 51, except where it apertains to the unit 54 alone.

In the mechanism 52, the labels 20 are extracted in turn from a reciprocating stack 55 by gum applied by rollers 56 to the apertured sides of an intermittently rotatable square pick-up box 57 and then transferred by a reciprocating pusher 58 to an intermittently rotatable square delivery box 59, each side of which comprises a delivery plate having suction means (as shown in FIG- URE 11) corresponding to FIGURE 5. The delivery box 59 carries each label 20 in turn to a position alongside and facing the conveyor 49, for an article 48 (that has already had a label applied to one side by the mechanism 51) to be rolled by the belt 53 across the side of the box 59 and the label 20 held thereon, for the label 20 to be applied to the article. Both at transfer of the label 20 from the box 57 and at delivery of the label 20 to the article, the box 59 is in position of rest and, at the intermediate position of rest between transfer and delivery, the unit 54 presents a sheet 25 to be held to the delivery box 59 by suction applied through the hole 26 in the label 20 and (as shown in FIGURE 11 and with reference to FIGURE 5) by suction applied to the protrudmg portion 25X.

The mechanism 51 could serve equally well for the simultaneous application of labels 20 and sheets 25, by disposing the unit 54 or a further similar unit in the broken line position 54A.

The unit 54 has an input drive shaft 60 (FIGURES 11 and 12) from the underneath drive (not shown) of the machine, and the drive from the shaft 60 is transmitted by bevel gears 61 to a shaft 62 carrying the driving member 63 of a Geneva-stop mechanism and an eccentric cam 64. The driven member 65 of the Geneva-stop mechanism is secured to a pinion 66 and mounted with that pinion on a shaft 67, which is journalled in a housing 68 and carries a swinging arm 69, and a pinion 70 meshing with the pinion 66 is carried by a shaft 71 'journalled in the arm 69, while a further pinion 72 meshing with the pinion 70 is carried by a shaft 73 which is also journalled in the arm 69. A hearing bush 74 for the shaft 73 carries a fixed valve plate 75 (see also FIGURE 13), which is urged by a spring 76 into close contact with a rotary valve plate 77 (see also FIGURE 14) secured to one side of a square transfer box 78 on the shaft 73, and beyond the box 78 the shaft 73 is journalled in an arm 79 at one end of a bracket 80 the other end of which has an arm 81 journalled on the shaft 71. Secured to the arm 81 is a depending rocker arm 82 carrying a follower roller 83, which is kept in contact with the periphery of the eccentric cam 64 by a tension spring 84 secured at one end to the bracket 80 and at the other end to an extension 85 of the base of the housing 68.

Each side of the box 78 has a pad 86 conforming closely to the siZe and shape of the sheets 25, with suction apertures 87 from a chamber 88 communicating with a port 89 in the rotary valve late 77, and each port 89 is brought in turn into communication with a high vacuum supply port 90 closely followed by an arcuate low vacuum supply port 91, which in turn is followed closely by an exhaust port 92, all in the fixed valve plate 75, as the valve plate 77 is rotated intermittently with the box 78 by the motion transmitted through the rain of

gears

66, 70, 72 from the driven member 65 of the Geneva-stop mechanism.

The swinging arm 69 is oscillated on the shaft 67 by the eccentric cam 64 acting on the roller 83 and through the rocker arm 82, to reciprocate the box 78 between the delivery box 59 and a stack 93 for the sheets 25, with the intermittent rotation of the box 78 timed to take place around the midpoint of travel of the box 78. The suction apertures 87 of any pad 86 brought to the stack 93 are subjected to high vacuum from the port 90 for extraction of the foremost sheet 25 from the stack, and then during the two stages of intermittent rotation to the facing position are subjected to low (or holding) vacuum from the arcuate port 91, until the pad is about to present its sheet 25 to the delivery box 59 to be held by suction applied through the hole 26 in a label 20 already carried by the box 59, when the apertures 87 are exhausted by communication of the chamber 88 with the port 92 for the sheet 25 to be freed from the pad 86. The train of

pinions

66, 70, 72 ensures that each pad as it is brought to the stack 93 lies parallel to the foremost sheet 25 in the stack and, as it is brought to the delivery box 59, lies parallel to the side of the delivery box 59, despite the swinging of the arm 69 about the shaft 67.

Since the labels and the sheets are separately presented at two different positions of rest of the sides of the delivery box 59, the additional application of the sheets to the articles 43 does not interfere with the basic labelling rate of the machine By not supplying sheets, i.e. by removal of the stack 93 or immobilisation of the unit 54, the machine is directly available for applying labels alone.

The stack 93 may be mounted in any well known manner for reciprocation between the position shown in FIG- URE 11 and a position in which it cannot be contacted by the transfer box 78, so that the usual detector 94 (FIGURE 10) that is effective to prevent presentation of a label 20 by withholding the stack from. the pick-up box 57 in the event of an interruption in the supply of articles 48 may also be effective to withhold the stack 93 and prevent presentation of a sheet 25. The usual detector 95 associated with the mechanism 51 is also provided, to prevent presentation of a label that would normally be applied to the other side of an article 48.

In the machine of FIGURE 15, articles 96 are carried on a slat conveyor 97 at the spacing determined by a feed worm 98, as required for simultaneous application of a label 20 and a sheet 25 to each article by a continuously rotatable delivery drum 99 in association with a presser member 100 having a surface 101 concentric with the drum 99. The labels 20 are presented to the delivery drum by mechanisms 102 which with the drum and presser member are well-known, while the sheets 25 are presented by a novel unit 103 provided in duplicate, one in association with each of the mechanisms 102.

In each mechanism 102, the labels 20 are supplied from a reciprocating stack 104 to an intermittently rotatable pickup box 105, the faces of which are gummed by gumming rollers 106, and the labels are transferred by a continuously rotatable transfer member 107 to the delivery drum 99, where they are held by suction means (as shown in FIGURE 17) corresponding to FIGURES 8 and 9, at spaced intervals around the drum. The mechanisms 102 present the labels in alternation to alternate suction means, so that the reciprocating and intermittent rotary motions take place at only half the speed that would be required of a mechanism 102 serving alone to present labels 20 to all the suction means around the drum.

Each unit 103 has an input shaft 108 (FIGURES l6 and 17) driven through bevel gears 109 from the main underneath drives (not shown) of the machine, and the shaft 108 carries a sprocket 110 for a chain drive 111 to a sprocket 112 on an auxiliary shaft 113. The shaft 108 also carries a non-rotatable or fixed valve plate 114 (see also FIGURE 18), a rotary valve plate 115 (see also FIGURE 19), and a continuously rotatable transfer drum 116 with which the valve plate 115 rotates. The drum 116 carries a pad 117 conforming closely to the size and shape of the sheets 25 and having suction apertures 118 from a duct 119 which is permanently in communication with a port 120 in the rotary valve plate 115, and the port 120 is connected successively with a short arcuate, high vacuum supply port 121 in the fixed valve plate 114, followed by a long arcuate, low vacuum supply port 122 and an exhaust port 123, as the drum 116 rotates. The auxiliary shaft 113 carries a crank disc 124 having a connecting link 125 to a plate 126 carrying a stack 127 for the sheets 25, the plate 126 being pivotable on a shaft 128 so as to oscillate the stack 127 for substantially pure rolling contact to take place between the pad 117 and the foremost sheet 25 in the stack.

As the pad 117 rolls on the foremost sheet 25 in the stack 127, the sheet is extracted from the stack by high vacuum from the port 121, and is held to the pad by low vacuum from the port 122 during rotation of the drum 116 to bring the pad into rolling contact with the delivery drum 99, when the apertures 118 are exhausted by communication with the exhaust port 123, the timing of the drives to the drum 99 and the drum 116 being such that the sheet 25 is aligned with the ungummed central area 22 of a label 20 carried by one of the suction means of the drum 99. As suction in the apertures 118 is exhausted, suction is applied to the sheet 25 through the hole 26 in the label 20, for the sheet to be held to the delivery drum 99 with the label and applied to an article rolled between the drum 99 and the presser member 100.

Since the labels 20 and the sheets 25 are separately presented to the continuously rotatable delivery drum 99 by continuously rotatable means, the additional application of the sheets to the articles 96 does not interfere with the basic labelling rate of the machine. By not supplying sheets, i.e., by removal of the stacks 127, or immobilisation of the units 103, or shut-off of the high vacuum supply to the ports 121, the machine is directly available for applying labels alone.

The usual detectors 129 (FIGURE 15 associated with the mechanisms 102 to prevent presentation of a label 20 by with-holding the appropriate stack 104 from the corresponding pick-up box 105 in the event of an interruption in the supply of articles 96, may also be effective to cut off the high vacuum supply to the port 121 of the corresponding unit 103, to prevent presentation of a sheet 25 in the absence of a label 20 to receive it.

What we claim is:

1. A labelling machine comprising a delivery member with a suction face for holding a label, means for feeding a succession of articles to and past the delivery member, means for presenting to the suction face the ungummed face of a label, the other face of which is marginally gummed, with an ungummed central area extending longi tudinally to at least one of two opposite margins, and with a hole through that area, means for presenting to that area of a label held to the delivery member a sheet of material less in width than that area and covering the hole in the label, and suction means in the delivery member for applying through the hole in the label suction to hold the sheet of material to the label, to enable the delivery member to apply the sheet and the label simultaneously to an article, so that the label holds the sheet of material to the article.

2. A labelling machine comprising a delivery member with a suction face for holding a label, means for feeding a succession of articles to and past the delivery member, means for presenting to the suction face the ungummed face of a label, the other face of which is marginally gum med, with an ungummed central area extending longitudinally to at least one of two opposite margins, and with a hole through that area, means for presenting to that area of a label held to the delivery member a sheet of material less in width than that area and covering the hole in the label and with one end of the label protruding beyond the ungummed margin, suction means in the delivery member for applying through the hole in the label suction to hold the sheet of material to the label, to enable the delivery member to apply the sheet and the label simultaneously to an article, so that the label holds the sheet of material to the article, and further suction means in the delivery member for holding the portion of the sheet of material protruding beyond the ungummed margin of the label.

3. A labelling machine comprising a delivery member with a suction face for holding a label, means for feeding a succession of articles to and past the delivery member, means for presenting to the suction face the ungummed face of a label, the other face of which is marginally gum med, with an ungummed central area extending longitudinally to at least one of two opposite margins, and with a hole through that area, a stack of sheets of material less in width than that area, suction transfer means for transferring to that area a label held by the delivery member a sheet from the stack, with the sheet covering the hole in the label, and suction means in the delivery member for applying through the hole in the label suction 7 to hold the sheet of material to the label, to enable the delivery member to apply the sheet and the label simultaneously to an article, so that the label holds the sheet of material to the article.

4. A labelling machine comprising a delivery member with a suction face for holding a label, means for feeding a succession of articles to and past a delivery member, means for presenting to the suction face the ungummed face of a label, the other face of which is marginally gummed, with an ungummed central area extending longitudinally to at least one of two opposite margins, and with a hole through that area, a stack of sheets of material less in width than that area, suction transfer means to transfer to that area of a label held by the delivery member a sheet from the stack, with the sheet covering the hole in the label, the suction transfer means being no larger in area than the ungummed central area of the label to which the sheet is applied, and suction means in the delivery member for applying through the hole in the label suction to hold the sheet of material to the label, to enable the delivery member to apply the sheet and the label simultaneously to an article, so that the label holds the sheet of material to an article.

5. A labelling machine comprising a fiat-sided delivery box each side of which has suction apertures for holding a label, means for intermittently rotating the delivery box, means for feeding a succession of cylindrical articles to and past one position of rest of the sides of the box, means for presenting to each side of the box at a preceding position of rest the ungummed face of a label, the other face of which is marginally gummed, with an ungummed central area extending longitudinally to at least one of two opposite margins, and with a hole through that area, a stack for sheets of material less in Width than that area, spaced from an intermediate position of rest of a side of the delivery box and presenting its foremost sheet towards and parallel to a side of the box occu ying that position, a fiat-faced transfer member with suction apertures in its face, means for oscillating the transfer member between the stack and each side of the delivery box in the intermediate position of rest, means for intermittently rotating the transfer member during oscillation for its face to be brought into contact alternately with the foremost sheet in the stack and with that side of the delivery box, means for controlling the suction at the suction face of the transfer member for the face to extract a sheet from the stack and present it to the ungu-mmed area of a label held to a side of the delivery box, with the sheet covering the hole in the label, suction apertures in the sides of the delivery box for applying through the hole in a label suction to hold a sheet to the label, and means for rolling an article over a side of the delivery box for a sheet and a label held to that side to be applied simultaneously to the article, so that the label holds the sheet of material to the article.

6. A labelling machine comprising a fiat-sided delivery box each side of which has suction apertures for holding a label, means for intermittently rotating the delivery box, means for feeding a succession of cylindrical articles to and past one position of rest of the sides of the box, means for presenting to each side of the box at a preceding position of rest the ungummed face of a label, the other face of which is marginally gummed, with an ungummed central area extending longitudinally to at least one of two opposite margins, and with a hole through that area, a stack for sheets of material less in width than that area, spaced from an intermediate position of rest of a side of the delivery box and presenting its foremost sheet towards and parallel to a side of the box occupying that position, a flat-faced transfer member with suction apertures in its face, a shaft carrying the transfer member, a

lever bracket carrying the shaft, a pivot for the lever bracket, cam means for oscillating the lever bracket whereby the transfer member is oscillated between the stack and each side of the delivery box in the intermediate position of rest, a gear coaxial with the pivot for the lever bracket, means for intermittently rotating the gear, a similarly sized gear on the shaft in driving connection with the transfer member, an idler gear meshing with both gears for the transfer member to be intermittently rotated during oscillation for its face to be brought into contact alternately with the foremost sheet in the stack and with that side of the delivery box, means for controlling the suction at the suction face of the transfer member for the face to extract a sheet from the stack and present it to the ungummed area of a label held to a side of the delivery box, with the sheet covering the hole in the label, suction apertures in the sides of the delivery box for applying through the hole in a label suction to hold a sheet to the label, and means for rolling an article over a side of the delivery box for a sheet and a label held to that side to be applied simultaneously to the article, so that the label holds the sheet of material to the article.

7. A labelling machine as in claim 6, wherein the transfer member constitutes one side of a multi-sided box, the other sides of which are constituted by similar transfer members with suction faces, intermittently movable to bring each suction face in turn into contact alternately with the foremost sheet in the stack and a side of the delivery member that is in the intermediate position of rest.

8. A labelling machine comprising a continuously rotatable delivery drum with suction apertures in its periphery for holding a label, means for feeding a succession of cylindrical articles to and past the delivery drum, means to guide the articles into contact with a portion of the periphery of the drum, means for presenting over the suction apertures in the drum the ungum-med face of a label, the other face of which is marginally gummed, with an ungummed central area extending longitudinally to at least one of two opposite margins, and with a hole through that area, a stack for sheets of material less in width than that area, spaced from the drum at a position intermediate the presentation of the label to the delivery drum and the contact of the articles with the drum, a continuously rotat-able transfer suction pad between the stack and the delivery drum, movable at the same peripheral speed as the delivery drum, means for oscillating the stack for the suction pad to make rolling contact with the foremost label in the stack, means for controlling the suction at the suction pad for the pad to extract the foremost sheet from the stack and present it to the ungummed area of a label held over suction apertures in the delivery drum, with the sheet covering the hole in the label, and suction means in the delivery drum for applying through the hole in a label suction to hold a sheet to the label, to enable the delivery drum to apply the sheet and the label simultaneously to an article by rolling contact with the article, so that the label holds the sheet of material to the article.

References Cited by the Examiner UNITED STATES PATENTS 1,686,354 10/1928 Wallace 40-310 2,167,305 7/1939 Kropp 40 310 2,687,821 8/1954 Fairest 156-455 2,773,617 12/1956 Weiss l56568 XR EARL M. BERGERT, Primary Examiner.

P. DIER, Assistant Examiner,

Claims

5. A LABELLING MACHINE COMPRISING A FLAT-SIDED DELIVERY BOX EACH SIDE OF WHICH HAS SUCTION APERTURES FOR HOLDING A LABEL, MEANS FOR INTERMITTENTLY ROTATING THE DELIVERY BOX, MEANS FOR FEEDING A SUCCESSION OF CYLINDRICAL ARTICLES TO AND PAST ONE POSITION OF REST OF THE SIDES OF THE BOX, MEANS FOR PRESENTING TO EACH SIDE OF THE BOX AT A PRECEDING POSITION OF REST THE UNGUMMED FACE OF A LABEL, THE OTHER FACE OF WHICH IS MARGINALLY GUMMED, WITH AN UNGUMMED CENTRAL AREA EXTENDING LONGITUDINALLY TO AT LEAST ONE OF TWO OPPOSITE MARGINS, AND WITH A HOLE THROUGH THAT AREA, A STACK FOR SHEETS OF MATERIAL LESS IN WIDTH THAN THAT AREA, SPACED FROM AN INTERMEDIATE POSITION OF REST OF A SIDE OF THE DELIVERY BOX AND PRESENTING ITS FOREMOST SHEET TOWARDS AND PARALLEL TO A SIDE OF THE BOX OCCUPYING THAT POSITION, A FLAT-FACED TRANSFER MEMBER WITH SUCTION APERTURES IN ITS FACE, MEANS FOR OSCILLATING THE TRANSFER MEMBER BETWEEN THE STOCK AND EACH SIDE OF THE DELIVERY BOX IN THE INTERMEDIATE POSITION OF REST, MEANS FOR INTERMITTENTLY ROTATING THE TRANSFER MEMBER DURING OSCILLATION FOR ITS FACE TO BE BROUGHT INTO CONTACT ALTERNATELY WITH THE FOREMOST SHEET IN THE STACK AND WITH THAT SIDE OF THE DELIVERY BOX, MEANS FOR CONTROLLING THE SUCTION AT THE SUCTION FACE OF THE TRANSFER MEMBER FOR THE FACE TO EXTRACT A SHEET FROM THE STACK AND PRESENT IT TO THE UNGUMMED AREA OF A LABEL HELD TO A SIDE OF THE DELIVERY BOX, WITH THE SHEET COVERING THE HOLE IN THE LABEL, SUCTION APERTURES IN THE SIDES OF THE DELIVERY BOX FOR APPLYING THROUGH THE HOLE IN A LABEL SUCTION TO HOLD A SHEET TO THE LABEL, AND MEANS FOR ROLLING AN ARTICLE OVER A SIDE OF THE DELIVERY BOX FOR A SHEET AND A LABEL HELD TO THAT SIDE TO BE APPLIED SIMULTANEOUSLY TO THE ARTICLE, SO THAT THE LABEL HOLDS THE SHEET OF MATERIAL TO THE ARTICLE.