JP4721203B2 - Non-contact data carrier and cylinder device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cylinder device in which a non-contact type data carrier is attached to an inner surface of a cylinder, and a non-contact type data carrier that can be used in the cylinder device.
[0002]
[Prior art]
In a rotary printing press, gravure printing may be performed using a cylinder.
The cylinder has, for example, a structure in which the outer surface of a steel cylinder is plated with copper. Generally, corrosive plate making is performed by transferring a carbon tissue onto which a positive film is baked.
[0003]
When various cylinders are manufactured for gravure printing, it is necessary to manage cylinders and cylinder information. The cylinder information includes, for example, information on printing contents of the cylinder, information on ink used for the cylinder and printing paper, and the like.
[0004]
[Problems to be solved by the invention]
FIG. 5 is an explanatory view illustrating a cylinder device to which a non-contact type data carrier is attached.
The cylinder device 20 includes a cylinder 15 and a non-contact type data carrier 11.
The outer surface 15Z of the cylinder 15 is plated with copper corresponding to the printing content, and the non-contact type data carrier 11 is attached to the inner surface 15I. The IC chip in the non-contact type data carrier 11 stores information on the cylinder 15.
[0005]
By inserting the reader / writer antenna into the cavity of the cylinder 15 and communicating with the non-contact type data carrier 11, it is possible to access the IC chip in the non-contact type data carrier 11 and obtain information on the cylinder 15. It is.
However, when the communication distance of the non-contact type data carrier 11 is small, it is necessary to bring the reader / writer antenna close to the non-contact type data carrier 11, which takes time and effort for communication.
[0006]
An object of the present invention is to provide a cylinder device capable of expanding the communication distance of a non-contact type data carrier attached to the inner surface of the cylinder, and a non-contact type data carrier usable for the cylinder device.
[0007]
[Means for Solving the Problems]
According to the present invention , a non-contact type that is attached to the inner surface of a hollow cylinder-shaped printing cylinder containing a conductive metal and can communicate in a non-contact manner with an antenna of a reader / writer inserted into the cavity of the cylinder. A data carrier,
The non-contact type data carrier has an elongated strip shape, the long side of the non-contact type data carrier coincides with the inner circumferential direction of the cylinder, and the short side perpendicular to the longitudinal direction is the inner circumference. It is attached to the inner surface of the cylinder in accordance with the longitudinal direction orthogonal to the direction,
The contactless data carrier is
Fixed along the inner circumferential direction of the inner surface of the front alkoxy Linda, an insulating layer,
An insulating base formed on the insulating layer;
On the surface of the front Symbol insulating substrate, which is formed as a line pattern circling, an elongated strip-shaped antenna coil,
An IC chip having a capacitor constituting a resonance circuit with the antenna coil, a memory storing information on the cylinder, and a microcomputer, and formed on the insulating substrate;
Have
The longer the antenna coil and the communication distance between the antenna of the reader writer that is inserted into the cavity of the cylinder, to prevent cancellation of the flux linkage, the antenna of the reader writer that is inserted into the cavity of the cylinder to said non-contact data carrier and accessible by the location along the inner circumferential direction of the cylinder when brought close to the non-contact data carrier through the antenna coil, the inner periphery of the cylinder of the antenna coil The length of the direction is longer than the length of the cylinder in the longitudinal direction to increase the area of the region surrounded by the antenna coil, and the length in the inner peripheral direction of the cylinder of the antenna coil of the line pattern that circulates is: Longer than half of the total length in the inner circumferential direction of the cylinder, shorter than the total length in the inner circumferential direction ,
The thickness of the insulating layer magnetically isolates the inner surface of the cylinder containing a conductive metal from the antenna coil to reduce the influence on the magnetic field of the cylinder containing the conductive metal, and the antenna of the reader / writer To ensure the communication distance of the thickness,
A contactless data carrier is provided.
[0009]
Preferably, the cross-sectional shape of the insulating layer has a trapezoidal shape or a substantially trapezoidal shape in which both end portions are inclined, the bottom side in contact with the inner surface of the printing cylinder is long, and the upper side facing the bottom side is short. The insulating base is formed on the surface of the upper side of the insulating layer, and the insulating layer and the insulating base are made of a flexible material that can be fixed along the inner surface of the printing cylinder. ing.
[0010]
Preferably, the insulating base material has a shape of a strip shape or a substantially strip shape in which the length in the direction along the inner circumference of the cylinder is long and the length in the axial direction of the cylinder is short. The length of the base material in the inner peripheral direction of the cylinder is longer than half of the total length of the inner periphery of the cylinder and shorter than the total length of the inner periphery, and the antenna coil extends along the periphery of the insulating base material. Is formed.
[0011]
More preferably, the non-contact data carrier further includes an insulating protective layer that covers the antenna coil and the IC chip on the insulating base.
[0012]
According to the present invention , a hollow cylindrical printing cylinder containing a conductive metal and a reader / writer antenna that is attached to the inner surface of the cylinder and is inserted into the cavity of the cylinder can communicate without contact. has a non-contact data carrier, comprising a cylinder device,
The non-contact type data carrier has an elongated strip shape, the long side of the non-contact type data carrier coincides with the inner circumferential direction of the cylinder, and the short side perpendicular to the longitudinal direction is the inner circumference. It is attached to the inner surface of the cylinder in accordance with the longitudinal direction orthogonal to the direction,
The contactless data carrier is
Fixed along the inner circumferential direction of the inner surface of the front alkoxy Linda, an insulating layer,
An insulating base formed on the insulating layer;
On the surface of the front Symbol insulating substrate, which is formed as a line pattern circling, an elongated strip-shaped antenna coil,
An IC chip having a capacitor constituting a resonance circuit with the antenna coil, a memory storing information on the cylinder, and a microcomputer, and formed on the insulating substrate;
Have
The longer the antenna coil and the communication distance between the antenna of the reader writer that is inserted into the cavity of the cylinder, to prevent cancellation of the flux linkage, the antenna of the reader writer that is inserted into the cavity of the cylinder to said non-contact data carrier and accessible by the location along the inner circumferential direction of the cylinder when brought close to the non-contact data carrier through the antenna coil, the inner periphery of the cylinder of the antenna coil The length of the direction is longer than the length of the cylinder in the longitudinal direction to increase the area of the region surrounded by the antenna coil, and the length in the inner peripheral direction of the cylinder of the antenna coil of the line pattern that circulates is: Longer than half of the total length in the inner circumferential direction of the cylinder, shorter than the total length in the inner circumferential direction ,
The thickness of the insulating layer magnetically isolates the inner surface of the cylinder containing a conductive metal from the antenna coil to reduce the influence on the magnetic field of the cylinder containing the conductive metal, and the antenna of the reader / writer To ensure the communication distance of the thickness,
A cylinder device is provided.
[0014]
Preferably, the insulating base material has a shape of a strip shape or a substantially strip shape in which the length in the direction along the inner circumference of the cylinder is long and the length in the axial direction of the cylinder is short. The length of the base material in the inner peripheral direction of the cylinder is longer than half of the total length of the inner periphery of the cylinder and shorter than the total length of the inner periphery, and the antenna coil extends along the periphery of the insulating base material. Is formed.
[0015]
More preferably, the non-contact type data carrier is attached to a central portion or a substantially central portion of the inner surface of the cylinder.
[0016]
Preferably, the non-contact data carrier further includes an insulating protective layer that covers the antenna coil and the IC chip on the insulating substrate.
[0017]
Preferably, the non-contact type data carrier is attached to the inner surface of the cylinder so that a surface on which the antenna coil is formed is on an inner side of the insulating base.
[0018]
The length in the inner circumference direction of the cylinder of the antenna coil is larger than half the inner circumference length of the cylinder and smaller than the inner circumference length. Therefore, the inner circumference length of the antenna coil is longer than the inner circumference length. The communication distance can be increased as compared with the case of less than half of this.
Further, by making the length of the inner circumference direction of the antenna coil less than the length of the inner circumference of the cylinder, it is possible to prevent cancellation of the interlinkage magnetic flux between the antenna coil and the antenna coil that has circulated around the inner circumference. .
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
[0020]
FIG. 1 is a schematic explanatory view showing a cylinder device according to the present invention.
The cylinder device 10 includes a printing cylinder 15 and a non-contact data carrier 1.
The cylinder 15 is a cylinder of metal such as steel, and the outer surface 15Z of the cylinder 15 is subjected to copper plating corresponding to the printing content. A non-contact type data carrier 1 is attached to an inner surface 15I of the cylinder 15 via an insulating layer 12.
[0021]
The non-contact type data carrier 1 has an elongated strip shape or a substantially strip shape, and its longitudinal direction is the inner circumference of the cylinder 15 (that is, a plane perpendicular to the rotation axis of the cylinder 15 and the inner surface 15I of the cylinder 15). Is formed along a curve).
By setting the longitudinal direction to a direction along the inner circumference of the cylinder 15 (inner circumference direction), the non-contact type data carrier 1 can be pressed against the inner surface 15I of the cylinder 15 by centrifugal force when the cylinder 15 rotates, and the non-contact The formula data carrier 1 can be brought into close contact with the inner surface 15I.
[0022]
Further, the non-contact type data carrier 1 is attached to the central portion or the substantially central portion of the inner surface of the cylinder 15.
By attaching the non-contact type data carrier 1 in this way, the distance from both of the openings of the cylinder 15 to the non-contact type data carrier 1 can be made the same or substantially the same.
That is, when the antenna of the reader / writer is inserted into the cavity, the distance from the antenna to the non-contact data carrier 1 is the same or substantially the same when the insertion length is the same regardless of the opening. There are advantages that can be the same.
[0023]
FIG. 2 is a schematic cross-sectional view of the cylinder 15 and the non-contact type data carrier 1 when the cylinder device 10 of FIG. 1 is cut so as to pass through the rotation axis of the cylinder 15.
[0024]
The cross-sectional shape of the insulating layer 12 is trapezoidal or substantially trapezoidal, the long side is in contact with the inner surface 15I of the cylinder 15, and the non-contact type data carrier 1 is bonded to the short side facing the long side. Yes.
The thickness of the insulating layer 12 is constant or substantially constant, and is about 5 mm as an example.
By this insulating layer 12, the non-contact type data carrier 1 can be floated from the inner surface 15I of the cylinder 15 which is a conductor, and the communication distance of the non-contact type data carrier 1 in the cavity of the cylinder 15 can be expanded.
The insulating base 12 to which the non-contact type data carrier 1 is bonded is fitted into the cylinder 15 by utilizing the flexibility of the insulating layer 12 so that the non-contact type data carrier 1 is attached to the inner surface 15I of the cylinder 15. You may attach to.
[0025]
Further, by making the cross-sectional shape of the insulating layer 12 trapezoidal or substantially trapezoidal, when the reader / writer antenna is inserted into the cavity of the cylinder 15, the collision of the tip of the antenna with the insulating layer 12 is prevented. This can be prevented by using the slope. Furthermore, the position of the non-contact type data carrier 1 can be detected from the position of the tip of the antenna when contacting the insulating layer 12.
[0026]
In the non-contact type data carrier 1, an antenna coil 5 is formed on the surface 9A of an insulating base 9, an insulating protective layer 7 is laminated so as to cover the antenna coil 5, and an insulating layer 12 is interposed therebetween. It is bonded to the inner surface 15I of the cylinder 15.
This non-contact type data carrier 1 is attached to the inner surface 15I of the cylinder 15 so that the formation surface 9A of the antenna coil 5 of the insulating base material 9 is on the inner side. The non-contact type data carrier 1 may be attached to an area having a constant or substantially constant curvature on the inner surface 15I of the cylinder 15.
[0027]
FIG. 3 is a schematic configuration diagram showing the non-contact type data carrier 1 used in the cylinder device 10 of FIG.
The non-contact type data carrier 1 has an insulating base material 9, pads 2 </ b> A, 2 </ b> B, 3 </ b> A, an antenna coil 5, a conductor pattern 4, and an IC chip 8.
[0028]
The insulating base material 9 has flexibility, for example, a synthetic resin such as polyester, polyethylene, polypropylene, polystyrene, and PET (polyethylene terephthalate) having a constant or substantially constant thickness of about 5 μm to about 300 μm. Consists of. The insulating substrate 9 is preferably made of polyester or polyethylene having a thickness of about 15 μm to about 100 μm.
The insulating base material 9 has an elongated strip shape or a substantially strip shape, and the length L9 in the longitudinal direction of the insulating base material 9 is larger than half of the inner peripheral length of the cylinder 15, Less than length.
[0029]
On one surface 9A of the insulating base 9, an antenna coil 5, pads 2A, 2B, 3A and a conductor pattern 4 are formed.
A conductor pattern 4 is formed on the other surface of the insulating substrate 9, and the conductor pattern 4 and the pads 2 </ b> B and 3 </ b> A are opposed to each other with the insulating substrate 9 interposed therebetween. The conductor pattern 4 and the pads 2B and 3A are connected through a through hole.
[0030]
The antenna coil 5 includes a line pattern 6 that circulates formed on one surface 9 </ b> A of the insulating base material 9, and is formed along the periphery of the insulating base material 9.
The innermost line pattern 6I of the antenna coil 5 is connected to the pad 2A. The outermost line pattern 6Z of the antenna coil 5 is connected to the pad 2B.
[0031]
The length L5 in the longitudinal direction of the antenna coil 5 is larger than half of the inner circumferential length of the cylinder 15 and smaller than the inner circumferential length.
As described above, when the elongated antenna is inserted into the cavity of the cylinder 15 by making the length L5 larger than half the length of the inner circumference, the antenna is moved vertically or horizontally from the rotation axis of the cylinder 15. The distance between the contact point and the non-contact type data carrier 1 can be shortened by moving in the direction and making it contact or substantially contact the inner circumference 15I, and the antenna and the non-contact type data carrier 1 can be brought close to each other. .
[0032]
The length L5 in the longitudinal direction of the antenna coil 5 is desirably close to the length of the inner circumference. By increasing the length L5, the area of the region surrounded by the antenna coil 5 can be increased, and the communication distance of the non-contact data carrier 1 can be increased.
[0033]
The number of turns of the line pattern 6 of the antenna coil 5 from the pad 2A to the pad 2B is five. The antenna coil 5 is, for example, a copper foil, iron foil, aluminum foil or the like having a constant or substantially constant thickness of about 5 μm to about 50 μm, preferably an aluminum foil.
[0034]
The IC chip 8 has an internal memory for storing information of the cylinder 15 and a patterned capacitor. The capacitor and the antenna coil 5 constitute a resonance circuit. The resonance frequency of the resonance circuit is the same as or substantially the same as the frequency of a signal transmitted and received by the non-contact data carrier 1.
The IC chip 8 may be constituted by, for example, a one-chip microcomputer (one-chip microcomputer).
[0035]
A protective layer (not shown) having flexibility and insulation so as to cover the pads 2A, 2B, 3A, the antenna coil 5, and the IC chip 8 over the entire area of the one surface 9A of the insulating base 9. A protective layer 7) in FIG. 2 is formed. In addition, you may form the protective layer which has flexibility and insulation so that the conductor pattern 4 may be covered in the whole area | region of the other surface of the insulating base material 9. FIG. For example, the protective layer may be made of the same material as that of the insulating base material 9.
[0036]
FIG. 4 is a schematic explanatory view showing the IC chip 8 and its periphery in the non-contact data carrier 1 of FIG. The IC chip 8 is indicated by a rectangular frame in the drawing so that the state of the pads 2A, 3A, etc. can be seen.
[0037]
The pads 2B and 3A and the conductor pattern 4 are opposed to each other with the insulating base 4 interposed therebetween.
The pad 2B and the conductor pattern 4 are connected via the through hole 2H, and the pad 3A and the conductor pattern 4 are connected via the through hole 3H.
[0038]
On the circuit forming surface of the IC chip 8, a terminal pair consisting of one electrode terminal and the other electrode terminal is formed. One electrode terminal corresponds to the pad 2A and the other electrode terminal corresponds to the pad 3A. ing.
The terminal pair of the IC chip 8 is connected to the pads 2A and 3A via bumps, and the IC chip 8 is flip-chip mounted.
[0039]
In the non-contact data carrier 1, the antenna coil 5, the line pattern 6, and the pad 2B are covered with an insulating film (insulating layer) made of an insulating resist material, and the IC chip 8 is connected by exposing the pads 2A and 3A. Alternatively, only the connection portion with the IC chip 8 of the pads 2A and 3A may be exposed and the other portion may be covered with an insulating film.
[0040]
In addition, the said embodiment is an illustration of this invention and this invention is not limited to the said embodiment.
[0041]
【The invention's effect】
As described above, according to the present invention, a cylinder device capable of extending the communication distance of a non-contact type data carrier attached to the inner surface of the cylinder and a non-contact type data carrier usable for the cylinder device are provided. be able to.
[Brief description of the drawings]
FIG. 1 is a schematic explanatory view showing a cylinder device according to the present invention.
FIG. 2 is a schematic cross-sectional view of a cylinder and a non-contact data carrier when the cylinder device of FIG. 1 is cut.
FIG. 3 is a schematic configuration diagram showing a non-contact type data carrier used in the cylinder device of FIG. 1;
4 is a schematic explanatory diagram showing an IC chip and its periphery in the non-contact type data carrier of FIG. 3; FIG.
FIG. 5 is an explanatory view illustrating a cylinder device compared with the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1,11 ... Non-contact type data carrier, 2A, 2B, 3A ... Pad, 2H, 3H ... Through hole, 4 ... Conductor pattern, 5 ... Antenna coil, 6 ... Line pattern, 6I ... Innermost line pattern, 6Z ... innermost line pattern, 7 ... protective layer, 8 ... IC chip, 9 ... insulating substrate, 9A ... one surface of insulating substrate 9, 10, 20 ... cylinder device, 12 ... insulating layer, 15 ... cylinder , 15I: inner surface, 15Z: outer surface.

Claims (8)

A non-contact type data carrier that is attached to the inner surface of a hollow cylindrical printing cylinder containing a conductive metal and that can communicate in a non-contact manner with an antenna of a reader / writer inserted into the cavity of the cylinder ,
The non-contact type data carrier has an elongated strip shape, the long side of the non-contact type data carrier coincides with the inner circumferential direction of the cylinder, and the short side perpendicular to the longitudinal direction is the inner circumference. It is attached to the inner surface of the cylinder in accordance with the longitudinal direction orthogonal to the direction,
The contactless data carrier is
Fixed along the inner circumferential direction of the inner surface of the front alkoxy Linda, an insulating layer,
An insulating base formed on the insulating layer;
On the surface of the front Symbol insulating substrate, which is formed as a line pattern circling, an elongated strip-shaped antenna coil,
An IC chip having a capacitor constituting a resonance circuit with the antenna coil, a memory storing information on the cylinder, and a microcomputer, and formed on the insulating substrate;
Have
The longer the antenna coil and the communication distance between the antenna of the reader writer that is inserted into the cavity of the cylinder, to prevent cancellation of the flux linkage, the antenna of the reader writer that is inserted into the cavity of the cylinder to said non-contact data carrier and accessible by the location along the inner circumferential direction of the cylinder when brought close to the non-contact data carrier through the antenna coil, the inner periphery of the cylinder of the antenna coil The length of the direction is longer than the length of the cylinder in the longitudinal direction to increase the area of the region surrounded by the antenna coil, and the length in the inner peripheral direction of the cylinder of the antenna coil of the line pattern that circulates is: Longer than half of the total length in the inner circumferential direction of the cylinder, shorter than the total length in the inner circumferential direction ,
The thickness of the insulating layer magnetically isolates the inner surface of the cylinder containing a conductive metal from the antenna coil to reduce the influence on the magnetic field of the cylinder containing the conductive metal, and the antenna of the reader / writer To ensure the communication distance of the thickness,
Non-contact data carrier. The cross-sectional shape of the insulating layer has a trapezoidal shape or a substantially trapezoidal shape in which both end portions are inclined, a base that is in contact with the inner surface of the printing cylinder is long, and an upper side that faces the base is short.
The insulating base material is formed on the surface of the upper side of the insulating layer,
The insulating layer and the insulating base material are made of a flexible material that can be fixed along the inner surface of the printing cylinder.
The non-contact data carrier according to claim 1. The insulating base has a strip shape or a substantially strip shape having a long length in the direction along the inner periphery of the cylinder and a short length in the axial direction of the cylinder,
The length of the insulating base in the inner circumferential direction of the cylinder is longer than half of the total length of the inner circumference of the cylinder, shorter than the total length of the inner circumference,
The antenna coil is formed along the periphery of the insulating substrate.
The non-contact type data carrier according to claim 1 or 2. The non-contact data carrier further includes an insulating protective layer that covers the antenna coil and the IC chip on the insulating substrate.
The non-contact type data carrier according to claim 3. A hollow cylindrical printing cylinder containing a conductive metal;
A non-contact type data carrier attached to the inner surface of the cylinder and capable of non-contact communication with an antenna of a reader / writer inserted into the cavity of the cylinder,
The non-contact type data carrier has an elongated strip shape, the long side of the non-contact type data carrier coincides with the inner circumferential direction of the cylinder, and the short side perpendicular to the longitudinal direction is the inner circumference. It is attached to the inner surface of the cylinder in accordance with the longitudinal direction orthogonal to the direction,
The contactless data carrier is
Fixed along the inner circumferential direction of the inner surface of the front alkoxy Linda, an insulating layer,
An insulating base formed on the insulating layer;
On the surface of the front Symbol insulating substrate, which is formed as a line pattern circling, an elongated strip-shaped antenna coil,
An IC chip having a capacitor constituting a resonance circuit with the antenna coil, a memory storing information on the cylinder, and a microcomputer, and formed on the insulating substrate;
Have
The longer the antenna coil and the communication distance between the antenna of the reader writer that is inserted into the cavity of the cylinder, to prevent cancellation of the flux linkage, the antenna of the reader writer that is inserted into the cavity of the cylinder to said non-contact data carrier and accessible by the location along the inner circumferential direction of the cylinder when brought close to the non-contact data carrier through the antenna coil, the inner periphery of the cylinder of the antenna coil The length of the direction is longer than the length of the cylinder in the longitudinal direction to increase the area of the region surrounded by the antenna coil, and the length in the inner peripheral direction of the cylinder of the antenna coil of the line pattern that circulates is: Longer than half of the total length in the inner circumferential direction of the cylinder, shorter than the total length in the inner circumferential direction ,
The thickness of the insulating layer magnetically isolates the inner surface of the cylinder containing a conductive metal from the antenna coil to reduce the influence on the magnetic field of the cylinder containing the conductive metal, and the antenna of the reader / writer To ensure the communication distance of the thickness,
Cylinder device. The insulating base has a strip shape or a substantially strip shape having a long length in the direction along the inner periphery of the cylinder and a short length in the axial direction of the cylinder,
The length of the insulating base in the inner circumferential direction of the cylinder is longer than half of the total length of the inner circumference of the cylinder, shorter than the total length of the inner circumference,
The antenna coil is formed along the periphery of the insulating substrate.
The cylinder device according to claim 5. The non-contact data carrier further includes an insulating protective layer that covers the antenna coil and the IC chip on the insulating substrate.
The cylinder device according to claim 5 or 6 . The non-contact type data carrier is attached to the inner surface of the cylinder so that the formation surface of the antenna coil of the insulating base is on the inside.
The cylinder device according to any one of claims 5 to 7 .

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