摘要:
An IC tag label 1A includes an inlet substrate 11; an antenna pattern 2 and an IC chip 3 which are provided on one surface of the inlet substrate 11; and an adhesive layer 6 which is mounted on the other surface of the inlet substrate 11. A release paper 7 is attached to the adhesive layer 6. An opening 12 which serves as a clearance for the IC chip 3 is provided in a portion of the release paper 7 and adhesive layer 6, the portion corresponding to the IC chip 3.
摘要:
A conductive member for a non-contact type data carrier such as a wireless tag is simply and cheaply manufactured. A method for manufacturing a conductive member for a non-contact type data carrier comprises: a printing process during which, while a base material (4) is run, a bonding agent layer (5) is printed in a predetermined pattern on the surface thereof, and is dried; a bonding process during which a conductive layer (6) is laminated on the surface of the bonding agent layer (5) for heating and bonding; a punching process during which the conductive layer (6) is punched in the above-described pattern on the base material (4); and a separating process during which an unnecessary portion (6b) of the conductive layer (6) is separated from the base material (4). Accordingly, a conventional multilayered laminated sheet is not required to realize reduction in the material.
摘要:
A noncontact IC tag label includes: a band-shaped label base material inclusive of a release surface formed at least at one end of the base material and releasably treated in advance, and a non-release surface; an electroconductive layer formed on the non-release surface of the band-shaped label base material and including a required antenna pattern; and an IC chip mounted on one face of the electroconductive layer. The electroconductive layer and the IC chip are shrouded by a surface protection sheet via a pressure-sensitive adhesive layer. A thermoadhesive resin layer bonded onto the non-release surface of the band-shaped label base material is provided on an opposite face of the electroconductive layer including the antenna pattern, with respect to the surface protection sheet. Also, the pressure-sensitive adhesive layer is bonded onto the non-release surface and release surface of the band-shaped label base material.
摘要:
This invention provides a thin type of noncontact IC tag label that allows materials costs to be reduced without using an antenna-supporting base film. The noncontact IC tag label includes an electroconductive layer 6 of a required antenna pattern shape, an IC chip 3 mounted on one face of the electroconductive layer 6, and a surface protection sheet 4 supporting the electroconductive layer 6 and the IC chip 3 from a side of the one face of the electroconductive layer 6 via a first pressure-sensitive adhesive layer 5. An adhesive resin layer 7 having the same shape as the antenna pattern shape of the electroconductive layer 6 is provided on the other face of the electroconductive layer 6. The adhesive resin layer 7 is temporarily bonded in separable manner onto a release paper 9 formed from paper or a plastic base material.
摘要:
A method of producing a sheet 1 with IC tags comprises the steps of: preparing and feeding a sheet 21a with electrical conductors formed thereon; providing an adhesive 18 on the sheet 21a with electrical conductors; preparing multiple IC chips 20 and successively feeding the IC chips 20; successively arranging each IC chip 20 on the electrical conductors 22 of the sheet 21a; and fixing each IC chip 20 onto the electrical conductors 22 through the adhesive 18. The sheet 21a with electrical conductors formed thereon includes a non-conductive sheet 21 and a pair of electrical conductors 22. The pair of electrical conductors 22 of the sheet 21a with the electrical conductors are provided on the non-conductive sheet 21, extend in the feed direction, and are spaced apart from each other.
摘要:
An IC tag label 1A includes an inlet substrate 11; an antenna pattern 2 and an IC chip 3 which are provided on one surface of the inlet substrate 11; and an adhesive layer 6 which is mounted on the other surface of the inlet substrate 11. A release paper 7 is attached to the adhesive layer 6. An opening 12 which serves as a clearance for the IC chip 3 is provided in a portion of the release paper 7 and adhesive layer 6, the portion corresponding to the IC chip 3.
摘要:
A method of producing a sheet 1 with IC tags comprises the steps of: preparing and feeding a sheet 21a with electrical conductors formed thereon; providing an adhesive 18 on the sheet 21a with electrical conductors; preparing multiple IC chips 20 and successively feeding the IC chips 20; successively arranging each IC chip 20 on the electrical conductors 22 of the sheet 21a; and fixing each IC chip 20 onto the electrical conductors 22 through the adhesive 18. The sheet 21a with electrical conductors formed thereon includes a non-conductive sheet 21 and a pair of electrical conductors 22. The pair of electrical conductors 22 of the sheet 21a with the electrical conductors are provided on the non-conductive sheet 21, extend in the feed direction, and are spaced apart from each other.
摘要:
A printed matter inspection method and device which detects a defect on the printed matter including a partially inputting camera capable of being moved in a width direction of the printed matter by a mover which inputs a partial image of a pattern on the printed matter and a whole image inputting camera disposed apart from the partially inputting camera by a predetermined distance in the direction the printed matter flows which inputs a whole image including the whole pattern and coordinating, based on a relationship between a position on the whole image, of the partial image and a width-directionwise reference point set on the whole image, the width-directionwise position on the whole image and the width-directionwise position on the mover with each other, when the partially inputting camera is located on an origin set on the mover, positioning and then setting a photographing point, which is to be input by said partially inputting camera, on said whole image, calculating a width-directionwise pixel number between said set photographing point and said width-directionwise reference point on said whole image, multiplying said calculated width-directionwise pixel number by a width-directionwise resolution of said whole image to calculate the width-directionwise moving amount on said moving mechanism; moving said partially inputting camera up to a target position corresponding to said width-directionwise moving amount; and inputting said partial image at an arbitrary timing by said partially inputting camera moved up to said target position.
摘要:
This invention provides a thin type of noncontact IC tag label that allows materials costs to be reduced without using an antenna-supporting base film. The noncontact IC tag label includes an electroconductive layer of a required antenna pattern shape, an IC chip mounted on one face of the electroconductive layer, and a surface protection sheet supporting the electroconductive layer and the IC chip from a side of the one face of the electroconductive layer via a first pressure-sensitive adhesive layer. An adhesive resin layer having the same shape as the antenna pattern shape of the electroconductive layer is provided on the other face of the electroconductive layer. The adhesive resin layer is temporarily bonded in separable manner onto a release paper formed from paper or a plastic base material.
摘要:
A conductive member for a non-contact type data carrier such as a wireless tag is simply and cheaply manufactured. A method for manufacturing a conductive member for a non-contact type data carrier comprises: a printing process during which, while a base material (4) is run, a bonding agent layer (5) is printed in a predetermined pattern on the surface thereof, and is dried; a bonding process during which a conductive layer (6) is laminated on the surface of the bonding agent layer (5) for heating and bonding; a punching process during which the conductive layer (6) is punched in the above-described pattern on the base material (4); and a separating process during which an unnecessary portion (6b) of the conductive layer (6) is separated from the base material (4). Accordingly, a conventional multilayered laminated sheet is not required to realize reduction in the material.