GB2245244A - Labels and their manufacture - Google Patents

Abstract

A label comprises a label portion (1) and a removable self-copying checking portion (8). Label portion (1) comprises a main portion (3) and a secondary portion (4) provided with a silicone layer (5) and an adhesive layer (18). The main portion (3) is divided into a plurality of identification fields (21-25) separated by perforations (20). The checking portion (8) is adhered (7) to the label portion (1) and has an adhesive layer (19) and a silicone layer (15) which co-operate with layers (5) and (18) of the label portion (1). The checking portion (8) is also divided into separate portions (26-28). Silicone layer (15) of the checking portion (8) has recesses (16) which expose corresponding regions of the adhesive layer (18) of the secondary portion (4) by which the secondary portion (4) is detachably adhered to the main portion (3) after folding about line 2. Initially portions (1) and (8) have guide perforations (6, 9, figs 1, 4, not shown) for aligning these portions with one another. <IMAGE>

Description

Method for the manufacture of laminated identification labels as well as identification labels manufactured according to this method The present invention relates to a method for the manufacture of laminated identification labels consisting of a label portion and a self-copying checking portion, and to identification labels manufactured according to this method.

DE-PS 26 31 332 discloses a luggage strip tag label which is provided with a tear-off portion. The tear-off portion consists of two sections, and is formed of pressure-sensitive copying paper. A perforation line is provided between the two sections. The tear-off portion has a narrow strip-like adhesive layer in the direct proximity of the perforation line. This adhesive layer is provided on the side facing away from the luggage strip tag and forms the reverse side of the tear-off portion.

The adhesive layer is covered by silicone paper. This silicone paper does not reach substantially beyond the adhesive layer in the region of the other portion. The silicone paper is also connected through the eyelet to the luggage strip tag at the end facing away from the adhesive layer.

The adhesive layer of the luggage strip tag is constructed in such a way that it does not impede the tear-off process or the possibility of writing on the tag.

After writing on the luggage strip tag the user holds the luggage strip tag with one hand at the end where its eyelet reinforcement is located. The other hand grips the free end of the tear-off portion and with a quick pull this is separated from the silicone paper, which remains on the luggage strip tag. Using the adhesive layer, the torn-off portion can be adhered for example to travelling documents, whilst the luggage strip tag can be secured to an item of luggage through a string passed through the eyelet.

DE-OS 34 05 427 discloses an elongate identification label which has a loop portion. After passing through a grip of the item of luggage or the like the identification label is formed into a loop by connecting together the two end pieces provided with the adhesive. A checking portion has a second adhesive layer. This checking portion covers at least the entire first adhesive layer. The checking portion carries a .piece of paper on the side coated with the second layer. The paper is retained by the second adhesive layer and thus by the checking portion. The piece of paper has a silicone coated separating agent on the side contacting the first layer.

DE-OS 24 27 521 discloses an identification tag which has four elements which in the unused state are connected together. Each of the four elements is connected with at least one of the other elements, wherein one of the elements is elongate and has a pressure-sensitive adhesive layer. When it is separated from the other elements it is possible to form it into a loop. The remaining elements each have at least one adhesive layer, through which the respective element is connected to at least one of the other elements. Each of these elements can therefore be connected to an article, in which case no waste is produced during the separation of the elements.

An object of the invention is to provide a method for manufacturing laminated identification labels of the type initially mentioned, as well as an identification label manufactured according to the method, through which in the final state it is possible to achieve a definite coordination of the label portion and the self-copying checking portion. The method may also provide a precise, simple and secure connection between the label portion and the checking portion.

According to one aspect of the invention, there is provided a method for the manufacture of laminated identification labels, each consisting of a label portion and a self-copying checking portion, comprising the following steps: a) production of an adjusting edge along a label strip as well as a longitudinal folding groove which divides the label strip into a main portion with identification fields each provided transverse to the longitudinal direction and into a secondary portion as well as a strip-like silicone layer on the underside of the secondary portion of the label strip in the longitudinal direction of the same; b) production of a further adjusting edge along a checking strip portion and provision of a strip-like silicone layer on the checking strip portion; c) provision of a strip-like adhesive layer along the longitudinal folding groove on the underside of the label strip and adhering the same to the top side of the checking portion strip, aligned over the adjusting edges, whose first longitudinal perforation coincides with the longitudinal folding groove, whilst a further longitudinal perforation of the checking strip portion is arranged displaced by the width of the strip-like adhesive layer and aligned with the corresponding edge of the adhesive layer; d) provision of a strip-like adhesive layer on the reverse side of the secondary portion of the label strip in the longitudinal direction in such a way that together with the strip-like silicone layer of the checking strip portion it is situated symmetrically to the first or second longitudinal perforation, leaving an edge region without an adhesive layer; e) provision of a strip-like adhesive layer on the reverse side of the checking strip portion in the longitudinal direction of the same in such a way that together with the strip-like silicone layer of the secondary portion of the label strip it is situated symmetrically to the first or second longitudinal perforation of the checking strip portion; f) turning over of the checking strip portion about the longitudinal perforation facing the main portion on to the secondary portion of the label strip as well as adhering the strip-like adhesive layers to the associated strip-like silicone layers; g) turning over and folding the main portion of the label strip about the longitudinal folding groove on to the already folded checking strip portion as well as detachable connection of the main portion to the secondary portion of the label strip; and h) transverse cutting of the label and checking portion strip into individual identification labels.

According to a further aspect of the invention, there is provided a method for the manufacture of laminated identification labels each consisting of a label portion and a self-copying checking portion comprising the following steps: a) production of an adjusting edge along a label strip as well as a longitudinal folding groove which divides the label strip into a main portion with identification fields each provided transverse to the longitudinal direction and subdivided into a secondary portion as well as a strip-like silicone layer on the underside of the secondary portion of the label strip in the longitudinal direction of the same; b) production of a corresponding adjusting edge along a checking strip portion and provision of a strip-like silicone layer on the underside of the checking strip portion; c) provision of a strip-like adhesive layer on the underside of the edge region of the label strip and adhering the same to a top side aligned over the adjusting edges of the checking strip portion; d) provision of a strip-like adhesive layer on the reverse side of the secondary portion of the label strip in the longitudinal direction in such a way that both it and the strip-like silicone layer of the checking strip portion are situated symmetrically to the longitudinal folding groove; e) provision of a strip-like adhesive layer on the reverse side of the checking strip portion in such a way that it and the strip-like silicone layer of the secondary portion of the label strip are situated symmetrically to the longitudinal folding groove of the label strip; f) turning-over of the main portion of the label strip and the checking strip portion about the longitudinal folding groove on to the secondary portion of the label strip as well as adhering the strip-like adhesive layers of the label strip and the checking strip portion to the associated strip-like silicone layers of the checking strip portion and the label strip; and g) provision of a longitudinal perforation or of a longitudinal cut on the label strip at the border of the adhesive connection as well as subsequently transverse cutting of the label and checking strip portion into separate identification labels.

According to another aspect of the invention, there is provided an identification label comprising: a label strip consisting of a main portion and a secondary portion, provided with a silicone layer, situated beneath the main portion, in which the main portion is divided by perforations into identification fields; a checking strip portion consisting of self-copying paper which in the head region on the underside has an adhesive layer which detachably adheres to the silicone layer of the secondary portion of the label strip; an adhesive strip provided in the free end region of the secondary portion of the label strip, in which the secondary portion has an adhesive-free edge for handling; a silicone layer provided on the checking strip portion in the region of the adhesive layer of the secondary portion of the label strip; and in the region of the silicone layer in the control portion strip, a recess, provided with a silicone layer, which exposes a corresponding region of the adhesive layer of the secondary portion through which the secondary portion is detachably glued to the main portion of the label strip.

For a better understanding of the invention, and to show how the same may be carried into effect, reference will now be made, by way of example, to the accompanying drawings in which: Fig. 1 a label strip as well as a checking portion strip in the aligned state; Fig. 2 a label strip as well as a checking portion strip after the secondary portion has been removed; Fig. 3 a label strip with the main portion of the checking portion strip folded over; Figs. 4 and 5 a second exemplary embodiment; and Figs. 6 to 8 a third exemplary embodiment.

The corresponding parts shown in Figs. 1 to 3 are provided with the same reference numerals.

Fig. 1 shows a label strip 1 which is provided with a longitudinal folding groove 2. This longitudinal folding groove divides the label strip into a main portion 3 as well as secondary portion 4. On the underside of the secondary portion 4 is provided a strip-like silicone layer extending in the longitudinal direction. The bottom edge of the secondary portion 4 of the label strip 1 is provided with guide perforations 6 of a perforated edge.

Numeral 7 refers to a strip-like adhesive layer which is directly adjacent to the longitudinal folding groove 2.

A checking portion strip 8 is also provided with guide holes 9 which enables the checking portion strip to be adjusted and aligned with the label strip 1. The checking portion strip has two lines of longitudinal perforations 10 and 11. The distance between the two longitudinal perforations 10 and 11 is equal to the width of the strip-like adhesive layer 7. In the aligned state of the label strip and the checking portion strip 8, the first longitudinal perforation covers the longitudinal folding groove 2 of the label strip.

The checking portion strip 8 has a main portion 13 and a secondary portion 14.

At the free edge of the main portion 13 of the checking portion strip is provided a further edge perforation 12.

On the underside of the main portion 13 in the longitudinal direction of the checking portion strip 8 is provided a silicone layer 15. The main portion with the silicone layer 15 has holes 16. The distance between the holes is chosen in such a way that after the subsequent cutting of the label strip and the checking portion strip at least one hole or half a hole is available for each identification label.

A further perforation line 17 divides the main portion 13 of the checking portion strip into the actual checking portion and a remaining portion.

In Fig. 2 the secondary portion 14 of the checking portion strip has been removed. After the removal of the secondary portion 14 an adhesive layer 18 is applied to the secondary portion (underside) of the label strip in the longitudinal direction. Furthermore, on the reverse side of the main portion 13 there is applied a strip-like adhesive layer 19 which is situated in the region of the perforations 17 between the perforations and the silicone layer 15. In Fig. 2 the edge regions of the label strip and the checking portion strip are cut off. Thus, in the process condition according to Fig. 1 the aligned edge regions of the label strip and the checking portion strip are adhered together. This has the advantage that the adjustment is stable and alignment errors cannot occur.

In Fig. 3 the main portion of the checking portion strip is folded over about the perforation line 11 onto the secondary portion of the label strip 1. The adhesive layers 19 (main portion of the checking portion strip) and the adhesive layer 18 (secondary portion of the label strip) each adhere to the associated silicone layer 5 and 15 of the secondary portion and the main portion of the checking portion strip. Transverse lines 20 divide the label strip and the checking portion strip in order to form the identification labels. In the first two identification labels 21 and 22 the two folded-over main portions of the checking portion strip are still held together by the perforations.In the subsequent identification labels 23, 24, 25 the sub-region between the perforation line 17 and the fold-over edge 11 is removed, so that the checking portion strips 26, 27, 28 are still connected to the secondary portion of the label strip only via their strip-like secondary layers and silicone layers.

Prior to the transverse cutting of the label strip 1 and the checking portion strip for producing the individual identification labels, the main portion 3 of the label strip is first folded about the longitudinal folding groove 2, after which the underside of the main portion of the label strip is then detachably connected to the secondary portion by means of the exposed adhesive regions of the perforations 16 in a manner not shown.

The label strip consists of an adhesive paper which has an adhesive layer provided on its underside (not shown) which connects the adhesive paper to a polyester composite material, On the underside of the polyester composite material there is situated a copying paper for downward copying. In the region of the secondary portion of the label strip between the adhesive paper with the adhesive layer and the polyester composite material there is provided a silicone layer which makes it possible for sub-regions provided on the secondary portion to be detached.

An identification label is produced according to the method has lettering placed upon it for use, whereby the corresponding data is copied in the correct position onto the checking portion. A definite association exists between each looped label and the checking portion, as during the manufacturing process, codes (bar code) 29, 30 as well as continuous numbering are continuously and reliably applied to the label strip and to the checking portion strip.

According to Fig. 1 the checking portion strip protrudes by a certain amount over the edge of the label strip.

In this way it is possible, after the joining of the two strips in the correct position, to apply the codes and numbers to each label strip and the checking portion strip in one operation.

After applying the lettering to the identification label, this is detached from the underside of the main portion of the checking portion via the adhesive-free edge of the secondary portion, whereby at the same time the adhesive connection between the secondary portion and the main portion of the looped label is detached. The checking portion is then free and can be used for its purpose. The checking portion does not have to be torn off as this is only attached through the adhesive layer-/silicone layer connection.

In the second embodiment example according to Figs. 5 and 6 of the parts corresponding to those of Fig. 1 to 3 are provided with the same reference numerals.

The alignment of the label strip as well as the checking portion strip differs from the first embodiment example by the adjustment edges 6 and 9 provided on the top side. As a result of this alignment the checking portion strip reaches only to the longitudinal folding groove 2. The checking portion strip 8 therefore does not have to be divided into a main portion 13 and into a secondary portion 14. After adhesively connecting the label strip 1 to the checking portion strip 8 the adjusting edges 6 and 9 and an edge portion 31 are removed, so that both adhesively connected strips, namely the label strip and the checking portion strip, have the edge shown in Fig. 5.

The codes 29 and 30 are applied to the positions shown in Fig. 5 only after the checking portion strip 8 and the label strip 1 have been adhesively connected and after the removal of the edge portion 31 from the label strip 1. A longitudinal perforation 31a of the label strip 1 enables the removal of the longitudinal portion 31 after the label strip 1 and the checking portion strip 8 have been adhesively connected. Advantageously, the codes 29 and 30 can thus be applied simultaneously to the respective top side of the label strip 1 and the checking portion strip 8. Otherwise the manufacturing steps are the same as in the first exemplary embodiment.

In the third exemplary embodiment, the parts corresponding to those of the first embodiment are provided with the same reference numerals. They are distinguished by indices only.

According to Fig. 6 in the area of adjustment (perforation) 6' and 9' on the underside of the label strip 1' is provided an adhesive layer 10' by which the underside of the label strip 1' is adhesively connected to the top side of the checking portion strip 8'. Numeral 17' refers to edge of the checking portion strip 8' facing the longitudinal folding groove 2'. After the removal of the edge region with the perforation 6' and 9' both from the label strip 1' as well as the checking portion strip 8', to the top side of the label strip 1', coded identifications 30' are applied above the adhesive strip 10' and coded identifications 29' are applied outside the adhesive region, as shown in Fig. 7.After application of the strip-like adhesive layer 18' and 19' as well as the strip-like silicone layers 5' and 15' on the label strip 1' and the checking portion strip 8', the main portion 3' of the label strip .1' as well as the checking portion strip 8' are together folded about the longitudinal folding groove 2' and placed on to the secondary portion 4', so that the checking portion strip 8' and the secondary portion of the label strip 1' adhere together via the detachable adhesive connecting strips. This condition is shown in Fig. 8.

A longitudinal perforation is then applied to the edge of the adhesive connection of the label strip 1' and the checking portion strip 8' or a longitudinal cut 32 is made on the label strip 1'. The provision of a longitudinal perforation 32 allows the checking portion of a label, such as 26' to be separated from the main portion in a simple manner. Through the provision of a longitudinal cut 32, the separation is already effected. The separated edge strip of the label strip 1' is a component part of the checking portion. The identification 30' is thus a component part of the checking portion, whilst the identification 29' is a component part of the main portion of the respective label.

By creating the adhesive connection between the checking portion strip and the label strip between the respective main and secondary portion and by folding over the main portion of the checking portion strip on to the secondary portion of the label strip it is possible to achieve a correctly positioned and thus precise position of the main portion of the checking portion strip in relation to the subsequent label strip which is also folded over. The identification fields of both strips are therefore positioned correctly one above the other. A further advantage consists in the fact that a simple and reliable detachable connection is provided between the checking portion strip and the label strip.

In a particularly advantageous manner the main portion of the checking portion strip as well as its strip-like silicone layer are provided with a plurality of perforations whose spacing is adapted to the width of the identification label. After the turning over and folding of the main portion of the label strip, its main and secondary portion are detachably connected together via the adhesive layer regions of the secondary portion which have been exposed by the perforations. Twice the use is therefore obtained from the adhesive layer on the secondary portion of the label strip without a special silicone coating being provided on the underside of the main portion of the label strip. The size of the recesses determines the strength of the detachable adhesive connection.

According to a further development, after turning over the main portion of the checking portion strip on to the secondary portion of the label strip, the part of the checking portion strip next to its adhesive layer situated between the longitudinal perforation on the fold-over edge and a further longitudinal perforation in the head region of the main portion of the checking portion strip is removed. The longitudinal perforation on the fold-over edge as well as the further longitudinal perforation in the head region of the main portion of the checking portion strip enable the simple removal of the part of the checking portion strip which is situated between these two longitudinal perforations. This results in the further advantage that the checking portions of the identification labels manufactured according to this method can be simply released without having to tear open the perforation line or the longitudinal perforation.

Claims (11)

Claims:

1. Method for the manufacture of laminated identification labels, each consisting of a label portion and a self-copying checking portion, comprising the following steps: a) production of an adjusting edge along a label strip as well as a longitudinal folding groove which divides the label strip into a main portion with identification fields each provided transverse to the longitudinal direction and into a secondary portion as well as a strip-like silicone layer on the underside of the secondary portion of the label strip in the longitudinal direction of the same; b) production of a further adjusting edge along a checking strip portion and provision of a strip-like silicone layer on the checking strip portion; c) provision of a strip-like adhesive layer along the longitudinal folding groove on the underside of the label strip and adhering the same to the top side of the checking portion strip, aligned over the adjusting edges, whose first longitudinal perforation coincides with the longitudinal folding groove, whilst a further longitudinal perforation of the checking strip portion is arranged displaced by the width of the strip-like adhesive layer and aligned with the corresponding edge of the adhesive layer; d) provision of a strip-like adhesive layer on the reverse side of the secondary portion of the label strip in the longitudinal direction in such a way that together with the strip-like silicone layer of the checking strip portion it is situated symmetrically to the first or second longitudinal perforation, leaving an edge region without an adhesive layer; e) provision of a strip-like adhesive layer on the reverse side of the checking strip portion in the longitudinal direction of the same in such a way that together with the strip-like silicone layer of the secondary portion of the label strip it is situated symmetrically to the first or second longitudinal perforation of the checking strip portion; f) turning over of the checking strip portion about the longitudinal perforation facing the main portion on to the secondary portion of the label strip as well as adhering the strip-like adhesive layers to the associated strip-like silicone layers; g) turning over and folding the main portion of the label strip about the longitudinal folding groove on to the already folded checking strip portion as well as detachable connection of the main portion to the secondary portion of the label strip; and h) transverse cutting of the label and checking portion strip into individual identification labels.

2. Method according to claim 1, wherein the checking portion strip is divided by a first longitudinal perforation into a main portion with identification fields correspondingly provided in each case transversely to the longitudinal direction and subdivided into a secondary portion, the strip-like silicone layer is provided on the underside of the main portion of the checking portion strip, and subsequent to step c) the secondary portion of the checking portion strip is separated along the longitudinal perforation facing the secondary portion.

3. Method according to claim 1 or claim 2, wherein the main portion of the checking portion strip and its strip-like silicone layer are provided with a plurality of holes whose spacing is adapted to the width of the identification labels, and after the turning over and folding of the main portion of the label strip, its main and secondary portion are detachably connected to each other via the adhesive layer regions of the secondary portion exposed by the holes.

4. Method according to claim 2 or 3, wherein after the folding over of the main portion of the checking strip portion on to the secondary portion of the label strip, the part of the checking strip portion next to the adhesive layer of the checking portion strip situated between the longitudinal perforation on the fold-over edge and a further longitudinal perforation in the head region of the main portion of the checking strip portion is removed.

5. Method according to any one of the preceding claims, wherein the strip-like adhesive layer on the longitudinal folding groove is provided in the main portion or the secondary portion of the label strip and where adhesive strips are provided on the main portion, the identification fields of the checking strip portion are spaced twice the width of the strip-like adhesive layer further from the longitudinal folding groove than the identification fields of the label strip.

6. Method according to any one of the preceding claims, wherein the holes in the main portion of the checking strip portion are arranged with the silicone layer in such a way that after the transverse cutting of the label strip and the checking strip portion in each case one half of a hole is provided on each edge of the checking portions.

7. Method for the manufacture of laminated identification labels each consisting of a label portion and a self-copying checking portion comprising the following steps: a) production of an adjusting edge along a label strip as well as a longitudinal folding groove which divides the label strip into a main portion with identification fields each provided transverse to the longitudinal direction and subdivided into a secondary portion as well as a strip-like silicone layer on the underside of the secondary portion of the label strip in the longitudinal direction of the same; b) production of a corresponding adjusting edge along a checking strip portion and provision of a strip-like silicone layer on the underside of the checking strip portion; c) provision of a strip-like adhesive layer on the underside of the edge region of the label strip and adhering the same to a top side aligned over the adjusting edges of the checking strip portion; d) provision of a strip-like adhesive layer on the reverse side of the secondary portion of the label strip in the longitudinal direction in such a way that both it and the strip-like silicone layer of the checking strip portion are situated symmetrically to the longitudinal folding groove; e) provision of a strip-like adhesive layer on the reverse side of the checking strip portion in such a way that it and the strip-like silicone layer of the secondary portion of the label strip are situated symmetrically to the longitudinal folding groove of the label strip; f) turning-over of the main portion of the label strip and the checking strip portion about the longitudinal folding groove on to the secondary portion of the label strip as well as adhering the strip-like adhesive layers of the label strip and the checking strip portion to the associated strip-like silicone layers of the checking strip portion and the label strip; and g) provision of a longitudinal perforation or of a longitudinal cut on the label strip at the border of the adhesive connection' as well as subsequently transverse cutting of the label and checking strip portion into separate identification labels.

8. Method according to any one of claims 1, 2 and 7, wherein subsequent to step c) continuously coded identifications (bar code) and/or numbers are printed in the edge regions of the top side of the label strip and the checking strip portion, in which the edge region of the checking strip portion, from the start or after the removal of an edge strip, protrudes from the main portion of the label strip over the edge of the label strip by a corresponding amount.

9. Method according to any one of the preceding claims, wherein the adjusting edges of the label strip and the checking strip portion are perforated edges and the perforated edge of the label strip is provided on the edge of its secondary portion, and the perforated edges of the label strip and the checking strip portion are detachably glued together.

10. Identification label comprising: a label strip consisting of a main portion and a secondary portion, provided with a silicone layer, situated beneath the main portion, in which the main portion is divided by perforations into identification fields; a checking strip portion consisting of self-copying paper which in the head region on the underside has an adhesive layer which detachably adheres to the silicone layer of the secondary portion of the label strip; an adhesive strip provided in the free end region of the secondary portion of the label strip, in which the secondary portion has an adhesive-free edge for handling; a silicone layer provided on the checking strip portion in the region of the adhesive layer of the secondary portion of the label strip; and in the region of the silicone layer in the control portion strip, a recess, provided with a silicone layer, which exposes a corresponding region of the adhesive layer of the secondary portion through which the secondary portion is detachably glued to the main portion of the label strip.

11. Identification label according to claim 10, wherein self-adhesive securing portions are detachably provided on the top side of the secondary portion of the looped portion by an adhesive layer- /silicone layer connection.