The invention relates to a unit for the continuous production of printed label strips.
Units of the type cited at the beginning are known, for example from U.S. Pat. No. 5,079,980. In the case of this unit, there is a coil of strip as a supply mechanism, which prints an individual strip at printing stations and leads them to a stacking apparatus, in which the printed label strips are cut off and stacked. The disadvantage is that only a single textile strip can be printed and stacked in the complicated apparatus, which limits the efficiency of the unit.
It is an object of the invention to improve a unit of the type cited at the beginning so that a higher performance is possible.
Since the supply station provides a textile web whose width corresponds to a multiple of the width of the printed textile strip, the individual assemblies of the stations of the unit can be utilized more economically, so that the unit permits a performance which corresponds to a multiple of the performance of conventional units. The performance is virtually multiplied by the number of textile strips produced simultaneously.
For the configuration of the printing station, there result various possibilities, depending on which printing process is used and whether printing is to be carried out in one or many colors. In this case, consideration is given only to printing appliances which permit electronic data processing and operate at an appropriately high speed. Particularly preferred is an ink-jet printer, which can be configured with one or more colors and in which the individual characters are assembled in the manner of a mosaic from extremely fine ink-jet droplets. This also allows, in particular, a relatively small print head which can be configured to move to and fro transversely over the textile web. Such an ink-jet printer can be designed to process printing inks based on water. More advantageous is a configuration for processing printing inks that can be polymerized by electromagnetic steels.
Also advantageous is a configuration of the printing station as a laser printer, in which a laser beam whose direction is controlled by a program writes the characters onto an electrostatically precharged photo semiconductor film. The charge image produced is transferred to the textile web with the aid of toner particles by the printing drum covered with the film. In the simplest case, the printing station can print in one color, but a configuration is also advantageous, according to which the printing station is designed as a multicolor printer and preferably has a plurality of print heads arranged one after another for different colors.
It may be expedient to connect a conditioning station before the printing station, in order to set the temperature and/or the humidity of the textile web to a predetermined value that is suitable for the printing station. This is advantageous in particular for printers which operate on the electrostatic process.
For other printing processes, in particular for a printing station with an ink-jet printer, a treatment station for the application of an agent that improves the print, and also a following fixing station, are connected before the printing station. By means of the treatment agent, a uniform surface of the textile web can be achieved and/or the flow properties of the textile web can be at least reduced or even eliminated.
In order to fix or to dry the print on the textile web, a fixing station is connected after the printing station. The design of the fixing station depends on the printing principle used. Here, care should be taken, in particular, that the fixing is carried out as quickly as possible and the print is as resistant as possible. For polymerizable printing inks, a fixing station for emitting polmerizing electromagnetic steels is particularly suitable, preferably an UV emitter. For laser printers operating with toner, an IR fixing station is preferred, which supplies the necessary heat to melt the toner particles onto the textile web. In the latter case, an additional press station is advantageous, which presses the print into the textile web and therefore improves the connection.
In addition, it is an advantage that the unit has a strip fixing station for the printed textile web, in order to free the textile web of tension and to smooth it.
Particularly advantageous is a configuration of the unit, according to which the printing station has a coating station connected after it, in order to provide the printed textile web with a protective layer. Such a protective layer protects the print on the textile web against mechanical and chemical stress.
In order to improve the quality of the printed textile strips produced, the unit can be provided with a folding station in order to fold the edge regions of the printed textile strips toward each other and therefore to turn an ugly or rough cut edge inward away from the marginal region. The fold can be fixed permanently by a fixing station connected after the folding station.
The printed textile strips can either be rolled up or deposited in an unstructured position in a container. More advantageous, however, is a configuration of the unit according to which there is a crosscutting station in order to subdivide the printed textile strip into sections. This crosscutting station can advantageously have a stacking apparatus arranged after it, in order to collect the textile strip sections in an ordered form.
A particularly economic unit results if, for the pre-treatment and/or for the printing and/or for the post-treatment polymerizable agents are used which permit application and quick fixing, which is of great significance for mass production, such as is the case in the production of labels. For the purpose of fixing by polymerization, a very wide range of types of electromagnetic rays can be used. For example, infrared rays can be used. Electromagnetic rays in the ionizing range, in particular in the X-ray or gamma-ray range are suitable. Quite particular preference is given to UV rays, which allow rapid fixing at beneficial costs.
Exemplary embodiments of the invention will be described in more detail below using schematic drawings, in which:
The printing station 8 can be configured in a very wide range of ways and preferably has an ink-jet printer which prints on the textile web with a polymerizable color. The printer provides the textile web with a print, not specifically illustrated, which is in each case specific to the textile strip 18 to be produced. Connected after the printing station 8 is a fixing station 20, which fixes the print by polymerization by means of electromagnetic steels.
At a following longitudinal cutting station 22, the textile web 4 is subdivided into textile strips 18. The longitudinal cutting station contains a cutting heads 24 corresponding to the number of desired cuts and, for example, provided with a thermal cutting wire 26. The longitudinal cutting station 22 is followed by a folding station 28, at which the edge regions 30 of the textile strips 18 are folded toward each other. In a strip fixing station 32 which follows, the folded textile strips are fixed in their form. For this purpose, the fixing station has a heating roll 34 and two press rolls 36, which press the folded textile strips against the heating roll 34. In a subsequent crosscutting station 38, the textile strips folded in this way are in turn cut up into textile strip sections 40, which are stacked in a stacking apparatus 42.
In order to control the unit, use is made of an electronic control apparatus, not specifically illustrated, which in particular controls the printing station and also co-ordinates the other stations of the unit with one another.
In the present example, the treatment station 44 is designed as an application apparatus and contains a trough 52 for the agent 46, into which there dips a dip roll 54 in order to pick up the agent 46 and discharge it to a transfer roll 56, which is connected to the textile web 4, which is led over a backing roll 58. The amount of agent 46 to be applied can be set, in a manner not specifically illustrated, by setting the immersion depth of the dip roll 54 and the play or the pressure force between the various rolls. Instead of the application apparatus, the agent can also be applied by means of a dip bath, not specifically illustrated, through which the textile web is led, or by means of a spraying apparatus, which is likewise not specifically illustrated.
A strip fixing station 72 is further followed by a coating station 76, in order to provide the printed surface of the textile web 4 with a coating protecting the print. The coating station contains a trough 78 with the coating agent 80, for example a transparent resin solution, into which a transfer roll 82 dips. The textile web 4 bears on the transfer roll 82 and is pressed against the latter by means of a coating roll 84 in order to distribute the coating agent on the textile web in a metered quantity. The coating station 76 contains a fixing device 86, for example a UV emitter, in order to fix the coating agent 80 on the textile web 4.
In a way analogous to the exemplary embodiment of
Number | Date | Country | Kind |
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1699/00 | Aug 2000 | CH | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CH01/00450 | 7/19/2001 | WO | 00 | 2/26/2003 |
Publishing Document | Publishing Date | Country | Kind |
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WO02/18142 | 3/7/2002 | WO | A |
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