The present invention relates to a method of producing labels and to a method and an apparatus for applying labels to a container such as a box, packet, bottle, tin or the like. In particular aspects, the present invention relates to a method of producing multi-layer labels which may define a through aperture which may be used to “hook” such a label over the neck of a wine bottle or the like and thereby hang the label from the bottle's neck.
It is known to produce multi-layer labels for attachment to products. The labels may, for example, carry a guarantee, instructions, details of a competition or the like. Known methods of making such labels utilise a self adhesive label material carried on a backing layer of release material as a base stock and a series of folded leaflet assemblies are attached to the self adhesive label material which is cut and processed to form label/leaflet assemblies for attachment to containers and the like. One such process is described in AU 585313. However, the known methods such as are described in AU 585313 are generally quite complicated, and thus expensive, multi-stage processes and also suffer from high raw material costs due the high costs of self adhesive label material. There are also high levels of wastage during the manufacturing processes. The release material is always wasted. The labels made by such processes are thus expensive to produce.
It is known to manufacture such multi-layer labels carried on a web of release material in an assembly mounted to a sheet of material which defines an aperture which can be used to hook the sheet over the neck of a wine bottle or the like, thereby hanging the label from the bottle. Machines exist which can directly apply such multi-layer labels carried on a web of release material to necks of wine bottles and the like.
An alternative to the manufacture of labels based on self-adhesive stock is to manufacture less expensive labels based on non self-adhesive stock. However, the problem with such labels is that without the web release material to carry the labels, the labels cannot be applied successfully by machine. It is then necessary to apply the labels over the necks of the bottles by hand which is expensive in terms of labour costs and tends to negate the cost savings achieved by the use of cheaper non self-adhesive stock.
One aim of the present invention is to produce an inexpensive multi-layer label. A further aim of the present invention is to provide an improved machine for applying labels to containers and the like, particularly, but not exclusively, hanging labels.
Any discussion of documents, acts, materials, devices, articles or the like which has been included in the present specification is solely for the purpose of providing a context for the present invention. It is not to be taken as an admission that any or all of these matters form part of the prior art base or were common general knowledge in the field relevant to the present invention as it existed in Australia or elsewhere before the priority date of each claim of this application.
In one broad aspect, the present invention envisages a machine for applying a web of joined labels carried on a roll or the like onto containers.
Thus in a first aspect, the present invention provides an apparatus for applying labels in the form of a continuous web of material with no separate support web to containers or the like.
A related aspect provides an apparatus for applying labels in the form of a continuous web of material to containers or the like including first and second reels of the continuous web material characterised by an automatic splicing arrangement for feeding web material from a second reel after the first reel is exhausted.
The apparatus may include a pair of interchange rollers and a pair of associated guide means which merge to define a single guide means and an indexing means disposed adjacent the point where the guide means merge. The interchange rollers are synchronously driven by a single drive means via a servo means or the like.
In a preferred embodiment, the apparatus includes two pairs of spaced apart upper and lower belt means adapted to transport a label, with opposite longitudinal edges of the label carried between the pairs of belt means, forming part of an applicator means for applying the labels over the neck of a bottle or the like.
The expression “labels” as used herein, includes single layer labels, as well as multi-layer labels and “hanging labels”.
The apparatus may be used to apply hanging labels to bottle necks wherein the labels include an upper portion defining an aperture through which a neck of a bottle may pass and an associated biasing means for biasing the main body portion against the bottle.
According to a related aspect of the present invention, there is provided a method of manufacturing multi-layer folded printed leaflets or labels comprising the steps of:
providing a web of sheet material having two sides and defining a longitudinal axis;
printing on one or both sides of the web of material; and
plough-folding the web of material parallel to the longitudinal axis of the material to generate a succession of joined multi-layer labels or leaflets.
The method may also include the step of applying glue along one side of the web to seal the leaflets.
The method may also include the step of cutting and shaping the labels and forming perforations on the labels adjacent the glue to define a tear off strip or the like enabling the sealed leaflet to be opened.
The labels remain joined to one another as a single web which can be formed into a roll or the like for storage. Thus the first aspect of the present invention generates multi-layer labels in the form of folded leaflets which may be printed on both sides which can be rolled up and which do not require a carrier as the web defines both the labels and the carrier.
The labels can be made from any suitable non-self adhesive stock which creates substantial cost savings.
The labels may be made in any desired shape including in a hanging label form in which an aperture is defined which can be hooked over the neck of a wine bottle or the like.
The labels may have an inside text and outside text. The web material may be folded once, twice or more times in order to create a folded leaflet.
The present invention also envisages a machine for applying a web of joined labels carried on a roll or the like onto containers, thus in a second broad aspect, the present invention provides an apparatus for applying labels in the form of a continuous web of material with no separate support web to containers or the like.
A related broad aspect provides an apparatus for applying labels in the form of a continuous web of material to containers or the like including first and second reels of the continuous web material characterised by an automatic splicing arrangement for feeding web material from a second reel after the first reel is exhausted.
The apparatus may include a pair of interchange rollers and a pair of associated guide means which merge to define a single guide means and an indexing means disposed adjacent the point where the guide means merge The interchange rollers are synchronously driven by a single drive means via a servo means or the like.
In a preferred embodiment, the apparatus includes two pairs of spaced apart upper and lower belt means adapted to transport a label, with opposite longitudinal edges of the label carried between the pairs of belt means, forming part of an applicator means for applying the labels over the neck of a bottle or the like.
The expression “labels” as used herein, includes single layer labels, as well as multi-layer labels and “hanging labels”.
The apparatus may be used to apply hanging labels to bottle necks wherein the labels include an upper portion defining an aperture through which a neck of a bottle may pass and an associated biasing means for biasing the main body portion against the bottle.
The invention will now be described, by way of example only, with reference to the accompanying drawings in which:
a is a front view of a section of a web of sheet material for use in manufacturing multi-layer labels;
b is a rear view of the section of web of
c is a view of the section of web shown in
a to 2c are corresponding views of a section of a web of sheet material for use in forming a modified label design to that shown in
a is a front view of a section of a web of sheet material on which a third label design is printed;
b shows the section of web of
c shows the plough folded section of web of
a is a front view of a section of a web on which a hanging labels having a fourth design has been printed;
b shows the section of web of
Referring to the drawings,
The reverse face of the web shown in
The “text” whether inside or outside may include or comprise images as well as text and is not limited to any particular subject matter. It will typically relate to a competition or special offer but is not limited to that subject matter. The manner in which the design is printed on the web is not critical provided that the designs printed on the front and reverse faces of the web are in correct registration with respect to one another.
c is a schematic view of the label after it has been folded and die-cut to remove the circular cut-out 18 to define the circular aperture 19 and to define a perforation strip 28 which can be tom off to open the label and reveal the inside text 20, 22. There is an amount of waste web material 24, 26 which can be removed at the die-cutting stage or may be removed during the process of applying the labels to containers or the like. It is also necessary to glue the label closed along the tear off/perforation strip 28. Again, the stage at which this process occurs is noncritical.
It is important however that the labels remain joined to one another front end 30 to rear end 32 so that they define a continuous web of material.
As part of the process of label manufacture, prior to, or after plough folding the web, one side of the material may be coated with an adhesive and cured prior to the labels being wound up into reel form. The type of adhesive used may be of the type which may be re-activated at a later stage, days or months later. Heat, ultra violet light, infra-red, or other means, may be used to activate the cured adhesive. This will allow the adhesion of labels onto products, by simply activating the adhesive at point of label application onto the product. The adhesive only covers the part of the label where the label needs to adhere onto the product.
The remaining Figures show different label designs which operate on the same principle as the labels shown in
a shows one side of a web from which a yet further design of hanging label 40 is produced.
b shows the web folded over, and
a shows one side of a web on which a yet further label design is shown in which the resultant label 50 has two folds 52, 54 and three layers. Text may also be printed on the reverse side of the web in registration with the front side.
All the different embodiments of folded labels described above can be stored on rolls for use prior to the labels being separated form one another and dispensed onto containers. Alternatively, the labels may be folded in a zig zag or “fanfold” pattern, one above the other in boxes or the like.
It will be appreciated by the person skilled in the art that the label designs shown in the drawings are exemplary only and that the shapes of the labels may be changed without departing from the invention.
The guide means 112, 114 merge to form a single guide channel 116. A schematic section through guide means 116 is shown in FIG. 7—the section is the same as that through guide means 112 and 114. The guide means comprises two opposed C-shaped sections 116A, B which support the edges of the web 110 and a curved support 117 which inhibits the web from dropping out from between the supports 116A, B.
An interchange feed roller 118, 120 is associated with each respective guide channel 112, 114. Each interchange feed roller is generally cylindrical apart from one part where it defines a flat section 122. The interchange feed rollers are linked by a servo mechanism, are driven by the same motor and rotate synchronously.
After the point where the two web guide channels 112 and 114 merge, an index scanner 124 is provided which informs the control means 101 when a registration mark on a label forming part of the web of labels passes it. Following the index scanner, there is a pair of feed rollers 126, 128. At the end of the guide channel there is a cutting knife 130, scissor or the like or alternatively a rotary cutting means, not shown. Further feed rollers 132, 134 are defined after the cutting knife 130. Each feed roller 132, 134 is associated with a further roller 136, 138 respectively and belt drives extend between rollers 132 and 136 and 134 and 138.
A web fault index scanner 135 is provided after the rollers 132, 134.
As illustrated in
In use, each loading station will ideally be loaded with a reel of labels for dispensing, although only one loading station need be loaded. The operator then feeds the end of the web of one only of the loading stations into the guide channel 112 or 114 and passes the interchange feed roller associated with that guide channel. At this stage both interchange feed rollers are oriented with the flat portion 122 aligned with the guide means to make feeding of the web easier. The motor associated with the interchange feed rollers is then started, and as only one of the guide channels is loaded with a web, only the web in that feed channel will be fed through the guide means past the index scanner to the feed rollers 126, 128. As soon as the index scanner 124 reads a registration mark on the label and informs the control means 101 that the web has been engaged by the feed rollers 126, 128, the feed rollers 118 and 120 are stopped with the flat portions again parallel to the guide means so that both interchange feed rollers are disengaged from the web.
The web is then fed by the feed rollers 126, 128 through the cutting means 130, through the feed rollers 132, 134 until the registration point of the label reaches the web fault index scanner 135. The scanner 135 is located such that when the registration point or end of the label is detected by the index scanner 135, the bottom end of the label 12 is located at the knife 130 and the knife is then operated by the control means to separate the label from the web. The label is then fed along the belt means onto a bottle 146 which may be carried on a conveyor, or carousel or any suitable such means. It is possible, in use, to move the belt drive more quickly than the web feed, if desired. It may typically move at twice the speed of the web through the apparatus. The vacuum section 144 assists in the retaining and accurate release of the label above the neck of the bottle.
The web 112 continues to feed through in the manner described above until the last label is reached on the loading station 102 at which time the proximity detector alerts the operator to the fact that the second reel 104 will have to be prepared. Ideally, the last label will be attached to the loading station by removable adhesive so that the last label may be utilised rather than discarded. The operator then ensures that the end of the web on reel 104 is located in the guide channel 114 and extends past the feed roller 120. The index scanner 124 detects when the last label on reel 102 passes the scanner and after the end of that label has passed, activates the feed roller 120 so that the machine then begins automatically dispensing labels from reel 104. The operator then reloads reel 102 and the process continues.
When the label 200 is applied over the neck of the bottle, the flap 204 acts as a cantilever or biasing means and biases the main body of the label 208 to lie against the side of the bottle, rather than project as tends to occur with looser fitting hanging labels.
Both of the apparatus of
The above apparatus described in
It will be appreciated by persons skilled in the art that numerous variations and/or modifications may be made to the invention as shown in the specific embodiments without departing from the spirit or scope of the invention as broadly described. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive.
Number | Date | Country | Kind |
---|---|---|---|
PR4711 | May 2001 | AU | national |
PR9348 | Dec 2001 | AU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/AU02/00536 | 5/1/2002 | WO | 00 | 4/1/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/089099 | 11/7/2002 | WO | A |
Number | Name | Date | Kind |
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3238869 | West et al. | Mar 1966 | A |
3253544 | Von Hofe | May 1966 | A |
4497156 | Scheidegger | Feb 1985 | A |
4660351 | Saitoh | Apr 1987 | A |
4847130 | Cooper | Jul 1989 | A |
5637182 | Kimura et al. | Jun 1997 | A |
6115993 | O'Donnell | Sep 2000 | A |
20020066991 | King et al. | Jun 2002 | A1 |
Number | Date | Country |
---|---|---|
585313 | Aug 1986 | AU |
199961809 | Jun 2000 | AU |
2 217 032 | Oct 1973 | DE |
2117289 | Dec 1976 | DE |
19544010 | May 1997 | DE |
0 306 125 | Mar 1989 | EP |
430567 | Jun 1991 | EP |
301814 | Jun 1992 | EP |
0 693 427 | Jan 1996 | EP |
2179021 | Feb 1987 | GB |
WO 9405578 | Mar 1994 | WO |
WO 9826985 | Jun 1998 | WO |
WO 99.03737 | Jan 1999 | WO |
WO 0007883 | Feb 2000 | WO |
WO 0027710 | May 2000 | WO |
WO 0034130 | Jun 2000 | WO |
WO 0068128 | Nov 2000 | WO |
Number | Date | Country | |
---|---|---|---|
20040177931 A1 | Sep 2004 | US |