WO2008122347A2

WO2008122347A2 - Sheet-shaped support comprising a printed conductor, and method for the production of said support

Info

Publication number: WO2008122347A2
Application number: PCT/EP2008/002202
Authority: WO
Inventors: Hans Layer
Original assignee: Alcan Technology & Management Ltd.
Priority date: 2007-04-10
Filing date: 2008-03-19
Publication date: 2008-10-16
Also published as: EP2145292A2; WO2008122347A3

Abstract

Disclosed is a sheet-shaped support (10) that is made of a flexible material and is provided with a printed conductor (10) which is arranged on one side (12) of the support (10) and has an electrically conducting connection to a contact point (22) located on the other side (14) of the support (10). The electrically conducting connection between the contact point (22) and a contact point (24) located on the printed conductor (16), opposite the contact point (22), is a breakthrough (20) in the support (10). Said breakthrough (20) is filled with an electrically conducting material (EL).

Description

Sheet-shaped carrier with a conductor track and method for producing the carrier

The invention relates to a sheet-like support made of a flexible material, with at least one conductor track arranged on one side of the support with at least one electrically conductive connection to a contact point. The invention further relates to a method for producing a sheet-like carrier made of a flexible material, comprising at least one arranged on one side of the carrier track, at least one contact point on the other side of the carrier and an electrically conductive connection to a contact point opposite contact point on the conductor track ,

In a system known as "electronised blister" or "smart blister", a commercially available blister pack is sealed with a plastic film with a printed circuit trace, a so-called printed circuit film The blister is placed in a monitor which counteracts certain contact surfaces of the blister pack.If a tablet is pressed out of the blister pack, an interconnect and thus the current flow is irreversibly interrupted. status change is registered by the electronics of the monitor.

For example, RFID (Radio Frequency Identification) tags are used as price tags in supermarkets. Goods equipped with RFID labels can be scanned fully automatically at the cash register. Known RFID tags consist of a carrier made of a plastic film with a transponder and an antenna in the form of a trace imprint.

In addition to the actual interconnects, the above-mentioned systems additionally have electrical contact surfaces and electrically conductive connections from and to the interconnects and, if appropriate, between interconnects. sections on. Usually, the conductor tracks, the contact surfaces and the electrical connections are arranged on one and the same surface of the carrier.

In particular, for contacting the conductor track and optionally for subsequent attachment of connections between conductor track sections, but also for the electrical connection of components on the back of the conductor foil, there is the desire for an easy-to-manufacture electrical connection between the front and back of a conductor foil.

The invention has for its object to provide a sheet-shaped support with a conductor path arranged on one side on the back with contact points for the conductor track and electrically connect the contact points in a simple and cost-effective manner with the contact points opposite contact points on the conductor track.

To achieve the object according to the invention, the at least one contact point is arranged on the other side of the carrier and the electrically conductive connection between the contact point and a contact point opposite the contact point on the conductor track is an opening in the carrier filled with an electrically conductive mass ,

The electrically conductive compound is preferably a lacquer containing at least one electrically conductive material.

The electrically conductive material may be a powder of metal and / or graphite or an intrinsically conductive polymer.

The contact pad on the back side of the carrier provided on the front side with the conductor track may be an aluminum foil connected to the carrier.

The sheet-shaped carrier can be a plastic film, paper or a laminate at least two of the aforementioned materials. Suitable plastic films are z. As films of PVC, polyamide, polyethylene, polypropylene and polyester.

In a method suitable for producing the sheet-shaped carrier according to the invention, the carrier (10) is provided at the intended contact point z. B. pierced with a needle and filled the opening (20) with an electrically conductive material.

Preferred fields of application of the sheet-like carrier according to the invention with the conductor track arranged on one side are smart blisters and RFID tags.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and with reference to the drawing; this shows schematically in

FIG. 1 shows the plan view of a sheet-shaped carrier with a conductor track as antenna for an RFID tag; FIG.

FIG. 2 shows a section through the carrier of FIG. 1 along the line I-I in an enlarged view; FIG.

FIG. 3 is a plan view of the back side of the carrier of FIG. 1; FIG.

4 shows the plan view of a detail of a sheet-shaped carrier with two contacted conductor track sections;

5 shows a section through the carrier of Figure 4 along the line M-II in an enlarged view ..;

6 is a section through another embodiment of the carrier gers of Fig. 4 along the line 11-11 in an enlarged view.

1 to 3, sheet-shaped carrier 10 rectangular cross-section is part of a not shown in the drawing for reasons of clarity RFI D-tags. From a plastic film of z. B. PVC-made carrier is on a first side, hereinafter referred to as front 12, with a conductor 16 made of an electrically conductive material, for. B. from a with a metallic powder such. B. silver powder, enriched paint, printed. The conductor track 16 is arranged spirally as an antenna and has a connection point 18 at one of its ends. At the connection point 18, the carrier 10 has an opening 20 extending from the front side 12 to the rear side 14 in the form of a small-diameter tubular channel. On the rear side 14 of the carrier 10, a contact strip 22 of an electrically conductive material EL extends through the opening of the opening 20, wherein the electrically conductive material EL through the opening 20 and out through the opening in the front side 12 of the carrier 10 to form a Contact point 24 via the adjacent conductor 16 pours. The contacting of the connection point 18 is thus laid in the present example by the electrically conductive material EL from the contact point 24 of the conductor 16 on the front side of the carrier 10 via the opening 20 to the contact strip 22 on the back 14 of the carrier 10.

4 shows a sheet-shaped carrier 10, on the front side 12 of which two electrically conductive interconnected conductor track sections 16 a, b run on the rear side 14.

5, the electrically conductive connection is made by the electrically conductive material EL from the contact points 24 a, b of the tracks 16 a, b on the front side 12 of the carrier 10 via the apertures 20 a, b to the two openings of the openings 20 a , B on the back 14 of the carrier 10th overlapping contact strip 22.

According to FIG. 6, the sheet-shaped support 10 made of PVC is laminated on its rear side with an aluminum foil 26. The electrically conductive connection between the two conductor track sections 16 a, b takes place here by the electrically conductive material EL from the contact points 24 a, b of the conductor track sections 16 a, b on the front side 12 of the carrier 10 via the openings 20 a, b for electrically conductive Aluminum foil 26 on the back 14 of the carrier 10. In this case, the arrangement of a the openings of the openings 20 a, b on the back 14 of the carrier 10 cross-contact strip is unnecessary.

LIST OF REFERENCES

10 carriers

12 front side

14 back side

16 trace

18 connection point

20 breakthrough

22 contact strips

24 contact point

26 aluminum foil

EL electrically conductive mass

Claims

claims

A sheet-shaped carrier made of a flexible material, comprising at least one printed conductor (16) arranged on one side (12) of the carrier (10) and having at least one electrically conductive connection to a contact point,

characterized in that

the at least one contact point (22, 26) is arranged on the other side (14) of the carrier (10) and the electrically conductive connection between the contact point (22, 26) and a contact point (24) opposite the contact point on the conductor track (16 ) is an opening (20) filled with an electrically conductive mass (EL) in the carrier.

2. Sheet-shaped carrier according to claim 1, characterized in that the electrically conductive compound is at least one electrically conductive material (EL) containing paint.

3. Sheet-shaped carrier according to claim 2, characterized in that the electrically conductive material (EL) is a powder of metal and / or graphite.

4. Sheet-shaped carrier according to claim 2, characterized in that the electrically conductive material (EL) is an intrinsically conductive polymer.

5. Sheet-shaped carrier according to one of claims 1 to 4, characterized in that the contact point (26) is connected to the carrier (10) connected aluminum foil.

6. Sheet-shaped carrier according to one of claims 1 to 5, characterized in that the carrier (10) is a plastic film, paper or a laminate of at least two of the aforementioned materials.

7. A method for producing a sheet-like carrier (10) made of a flexible material, comprising at least one conductor track (16) arranged on one side (12) of the carrier (10), at least one contact point (22, 26) on the other side (14 ) of the carrier (10) and an electrically conductive connection to one of the contact point (22, 26) opposite contact point (24) on the conductor track (16),

characterized in that

the support (10) is broken at the contact point (24) and the opening (20) is filled with an electrically conductive mass (EL).

8. The method according to claim 7, characterized in that the carrier (10) at the contact point (24) is pierced with a needle.

9. The method according to claim 7 or 8, characterized in that the electrically conductive compound is at least one electrically conductive material (EL) containing paint.

10. The method according to any one of claims 7 to 9, characterized in that the electrically conductive material (EL) is a powder of metal and / or graphite.

11. The method according to any one of claims 7 to 9, characterized in that the electrically conductive material (EL) is an intrinsically conductive polymer.

12. Use of a sheet-shaped carrier according to one of claims 1 to 6 for smart blisters and RFID tags.