The present invention relates to producing carriers for fixing tube shaped objects.

Heat shrink tubes are used to mark electrical cables. For this purpose, the shrink sleeves are labeled before they are placed on the cable and heat shrunk. In case of higher numbers of shrink sleeves, the labeling is done by printers. To print the shrink tubing in the printers precisely, it is common to arrange them on shrink tube holders.

Simple shrink tube carriers are known for example from US 3,985,852 US. This document discloses carriers with prongs to position the tubing thereon. The disadvantage of this approach is that the position of the shrink tubings on the prongs is not always precisely defined. This can affect the quality of the printed image. Similar carriers are suggested e.g. by Canadian Patents CA 1 ,293,476 and CA 1 ,262,045. Here, a holder comprises two prongs which improve the stability for the shrink sleeves. However, detaching the shrink tubing from the two halves of the shrink tube holder can be tedious. Furthermore, document EP 2 235 714 B1 discloses a shrink tube carrier which is able to be inserted into printers, with which the held heat shrink tubes are able to be printed. Moreover, US 2008/0000572 A1 provides a method and kit for labeling an object having a generally rounded outer surface.

Finally, US 5,862,751 discloses an apparatus for use in providing printed wire markers, comprising a spool of unprinted wire markers, a casing for the spool , the casing bearing sensible indicia defining information related to the encased wire markers, a sensor for sensing the indicia and providing output signals indicative of the information and a wire marker printer for receiving the spooled, unprinted wire markers from the casing and printing thereon accordingly with the information.

However, the shrink tube holders described above only comprise flat prongs for holding the shrink tubes. This is a disadvantage since a flat prong is prone to be deformed. The object of the present invention is to provide a carrier for fixing at least one tube shaped object, the carrier comprising prongs which are constructed robustly such that the carrier is not prone to be deformed.

This object is solved by the subject matter of the independent claims. Advantageous embodiments of the present invention are the subject matter of the dependent claims . Independent claim 1 relates to a carrier for mechanically fixing at least one tube shaped object. It comprises a body and at least one prong, which is formed as a unilaterally fixed arm, being connected to the body on one end. The design of the prong as a single, unilaterally fixed arm allows for easily removing the tube shaped object, as compared to a design with two arms where each arm is fixed on one side. Moreover, the prong is folded in a longitudinal direction and comprises at least one kink. As compared to a flat prong, a folded prong with a kink is much more robust against deforming.

The carrier is produced from a single piece of sheet and does not contain any materials which are not recyclable. This makes the carrier environmentally beneficial as compared to other carrier designs using tapes.

The carrier comprises a plurality of prongs which are spaced equally along the carrier. It is insertable into a printer with which the at least one tube shaped object can be imprinted, and it comprises regularly spaced engagement holes for moving the carrier through a printer. Therefore, the carrier allows for easily imprinting a high number of tube shaped object automatically with a respective printer. Moreover, the at least one prong may comprise a material that is thinner than the material which makes up the body of the carrier. Therefore, there is no step between the tube shaped objects to be imprinted and the rest of the carrier. This makes the imprinting of the tube shaped objects even easier.

The at least one prong may be tapered towards a free standing end, which simplifies inserting the prong into the tube shaped object.

Moreover, at least one edge of the at least one prong comprises a shark tooth cut design and a fish scale embossing on a surface of the prong. This prevents the tube shaped objects from moving when fixed on a prong.

Furthermore, the carrier may comprise separation joints extending across the carrier axis for separating one or more holding regions, each holding region comprising one prong. Additionally, the carrier may comprise perforations at the separation joints. These features allow for easily dividing the carrier into pieces with certain numbers of holding regions.

The accompanying drawings are incorporated into the specification and form a part of the specification to illustrate several embodiments of the present invention. These drawings, together with the description serve to explain the principles of the invention. The drawings are merely for the purpose of illustrating the preferred and alternative examples of how the invention can be made and used, and are not to be construed as limiting the invention to only the illustrated and described embodiments. Furthermore, several aspects of the embodiments may form— individually or in different combinations— solutions according to the present invention. The following described embodiments thus can be considered either alone or in an arbitrary combination thereof. Further features and advantages will become apparent from the following more particular description of the various embodiments of the invention, as illustrated in the accompanying drawings, in which like references refer to like elements, and wherein:

FIG. 1 is a schematic plan view of a carrier for mechanically fixing at least one tube shaped object;

FIG. 2 is a schematic side view of the carrier from Figure 1 ;

FIG. 3 shows a schematic perspective view of a printer with a carrier which holds heat shrink tubes;

FIG. 4 is a schematic plan view of a prong according to an advantageous embodiment of the present invention;

FIG. 5 shows a schematic depiction of a carrier comprising holding regions, separation joints and perforations.

The present invention will now be explained in more detail with reference to the Figures. In particular, preferred embodiments of the present invention are described. The embodiments are examples on how the present invention can be used. Flowever, the embodiments do not contain any limitations to the present invention. Figures 1 and 2 show a first embodiment of a carrier 8 for mechanically fixing at least one tube shaped object 5. In particular, the carrier 8 comprises a body 4 and several prongs 1 . One side of the prongs 1 is connected to the body 4, whereas the other side is not connected to the body 4, thereby allowing to easily remove the tube shaped object 5 from the prong 1 . The prongs 1 comprise tapering 2 on the non-connected side and a kink 3 along their longitudinal axis.

The carrier 8 design allows for positioning and fixing of tube shaped objects without the need for adhesive tape, thereby reducing the amount of non-recyclable material, decreasing the wear of thermal print heads, and increasing the printable area of the tube shaped objects.

In the first embodiment, the tube shaped objects 5 are heat shrink tubes. The prongs 1 of the carrier are inserted into the heat shrink tubes. Thereby the heat shrink tubes are fixed in place. Figure 3 shows in a perspective view the application of the carrier 8 in a printer 7. The carrier 8 fixes several tube shaped objects 5, for example heat shrink tubes, which are to be provided with an imprint. The carrier 8 is inserted into the printer 7 such that the heat shrink tubes are moved alongside the print head where they can be imprinted.

Figure 4 shows an exemplary detail of a prong. It shows a single prong 1 which comprises shark fin cuts 9 on its edges and a fish scale embossing 10 on its surface.

The shark fin cuts 9 and the fish scale embossing 10 prevent the tube shaped objects from moving when affixed on the prong. Of course, these features can also be used separately from each other.

Figure 5 shows a carrier 8 according to a further advantageous embodiment with prongs 1 for mechanically fixing at least one tube shaped object 5. The carrier 8 is divided into holding regions 11 , where each holding regions 11 comprises exactly one prong 1 and a part of the body 4, which is surrounding the respective prong. The holding regions 11 are separated by separation joints 12. The separation joints 12 are placed between two prongs 1 on the part of the body 4, which surrounds the prongs 1 . Moreover, the separation joints comprise perforations 13 allowing for tearing away the holding regions 11 from the carrier 8.

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