JP2011175628A5

JP2011175628A5 -

Info

Publication number: JP2011175628A5
Application number: JP2010281465A
Authority: JP
Filing date: 2010-12-17
Publication date: 2012-10-11
Anticipated expiration: 2030-12-17

Claims

Two or more conductive first large lattices of fine metal wires are formed on one main surface of the substrate,
Two or more conductive second large lattices formed of fine metal wires are formed on the other main surface of the base body,
Each of the first large lattices and each of the second large lattices is configured by combining two or more small lattices, and a metal that is not connected to the first large lattice around the side of the first large lattice. A first non-connection pattern is formed by a thin line,
Around the side of the second large lattice, a second non-connected pattern is formed by a thin metal wire that is not connected to the second large lattice,
When viewed from above, the second large lattice is arranged adjacent to the first large lattice,
A combination pattern is formed between the first large lattice and the second large lattice by the first non-connected pattern and the second non-connected pattern facing each other,
2. The conductive sheet according to claim 1, wherein the combination pattern is configured by combining two or more small lattices.

The conductive sheet according to claim 1,
A conductive sheet, wherein a projection distance between a straight line portion on a side of the first large lattice and a straight line portion on a side of the second large lattice is set based on a size of the small lattice.

The conductive sheet according to claim 1,
When the shortest distance between the side of the first large lattice and the side of the second large lattice facing the side is defined as the distance of the combination pattern defined as the width of the combination pattern,
The conductive sheet according to claim 1, wherein a width of the combination pattern has a length that is one or more times a length of a side of the small lattice.

In the conductive sheet according to claim 3,
The conductive sheet according to claim 1, wherein a width of the combination pattern is twice to ten times a side of the small lattice.

The conductive sheet according to claim 1,
Each of the first non-connection patterns has a shape in which two or more shapes obtained by removing a part of the small lattice are arranged along the side of the first large lattice,
The conductive sheet according to claim 2, wherein each of the second non-connection patterns has a shape in which two or more shapes obtained by removing a part of the small lattice are arranged along the side of the second large lattice.

The conductive sheet according to claim 5,
The small lattice has a square shape;
Each of the first non-connection pattern and the second non-connection pattern has a shape in which two or more shapes obtained by removing one side of the small lattice are arranged.

The conductive sheet according to claim 1,
A first connection portion is formed on one main surface of the base body by a fine metal wire that electrically connects the adjacent first large lattices,
A second connecting portion is formed on the other main surface of the base body by a fine metal wire that electrically connects the adjacent second large lattices;
Two or more of the first large lattices are arranged in the first direction through the first connection portion to constitute one first conductive pattern,
Two or more second large lattices are arranged in a second direction orthogonal to the first direction via the second connection portion to constitute one second conductive pattern,
Two or more first conductive patterns are arranged in the second direction;
Two or more second conductive patterns are arranged in the first direction;
The first connection portion and the second connection portion are opposed to each other with the base interposed therebetween,
A first insulating part that is electrically insulated is disposed between the adjacent first conductive patterns,
A second insulating part that is electrically insulated is disposed between the adjacent second conductive patterns,
The first connection portion and the second connection portion are opposed to each other with the base interposed therebetween,
The first insulating portion and the second insulating portion are opposed to each other with the base interposed therebetween,
The conductive sheet is characterized in that a combination pattern formed by facing the first connection portion and the second connection portion is configured by combining two or more small lattices.

The conductive sheet according to claim 7,
The first insulating part is formed with a first insulating pattern made of fine metal wires that are not connected to the first large lattice.
The second insulating part is formed with a second insulating pattern made of fine metal wires that are not connected to the second large lattice.
The combination pattern of the first insulating pattern and the second insulating pattern formed by the first insulating portion and the second insulating portion facing each other is configured by combining two or more small lattices. Conductive sheet.

The conductive sheet according to claim 8,
The first insulating pattern has a collective portion in which two or more small lattices are arranged,
The conductive sheet, wherein the second insulating pattern has a blank portion corresponding to the aggregate portion.

The conductive sheet according to claim 8,
The first insulating pattern has a wavy line portion in which two sides constituting the small lattice are continuously arranged,
The conductive sheet according to claim 2, wherein the second insulating pattern includes two continuous sides constituting the small lattice and has a wavy line portion having a pattern opposite to the wavy line portion of the first insulating pattern.

In the conductive sheet according to any one of claims 7 to 10,
When the arrangement pitch of the small lattices is P and the shortest distance between the adjacent first conductive patterns is defined as the width of the first insulating portion, the width of the first insulating portion is m × P (m is 1 or more). And the maximum length of the portion of the first insulating pattern in the width direction of the first insulating pattern is not more than m × P,
When the shortest distance between the adjacent second conductive patterns is defined as the width of the second insulating part, the width of the second insulating part is n × P (n is an integer of 1 or more), and the second Of the two insulating patterns, the maximum length of the portion in the width direction of the second insulating portion is nxP or less.

The conductive sheet according to claim 1,
The conductive sheet is characterized in that the small lattice has a polygonal shape.

The conductive sheet according to claim 1,
The conductive sheet is characterized in that at least one side of the small lattice has a curved shape.

The conductive sheet according to claim 1,
The conductive sheet is characterized in that at least one side of the small lattice has an arc shape.

Two or more conductive first large lattices of fine metal wires are formed on one main surface of the substrate,
Two or more conductive second large lattices formed of fine metal wires are formed on the other main surface of the base body,
Each of the first large lattice and each of the second large lattices is configured by combining two or more small lattices,
Around the side of the first large lattice, a first non-connection pattern is formed by a thin metal wire that is not connected to the first large lattice,
Around the side of the second large lattice, a second non-connected pattern is formed by a thin metal wire that is not connected to the second large lattice,
When viewed from above, the second large lattice is arranged adjacent to the first large lattice,
A combination pattern is formed between the first large lattice and the second large lattice by the first non-connected pattern and the second non-connected pattern facing each other,
The conductive sheet is configured to be combined so that the combination pattern is substantially the same as the inside of each of the first large lattices and each of the second large lattices.

The conductive sheet according to claim 15 , wherein
A conductive sheet, wherein a projection distance between a straight line portion on a side of the first large lattice and a straight line portion on a side of the second large lattice is set based on a size of the small lattice.

A conductive sheet of a touch panel disposed on a display panel of a display device,
A first conductive sheet having a first base and a first conductive portion formed on the main surface of the first base;
A second conductive sheet having a second base and a second conductive portion formed on the main surface of the second base;
The first conductive sheet is laminated on the second conductive sheet,
Each of the first conductive parts has two or more first conductive patterns that extend in a first direction and are formed of thin metal wires arranged in a second direction orthogonal to the first direction.
Each of the second conductive parts extends in a second direction and has two or more second conductive patterns formed of thin metal wires arranged in the first direction,
The first conductive pattern includes two or more first large lattices arranged in the first direction,
The second conductive pattern includes two or more second large lattices arranged in the second direction,
Around the side of the first large lattice, a first non-connection pattern is formed by a thin metal wire that is not connected to the first large lattice,
Around the side of the second large lattice, a second non-connected pattern is formed by a thin metal wire that is not connected to the second large lattice,
When viewed from above, the second large lattice is arranged adjacent to the first large lattice,
A combination pattern is formed between the first large lattice and the second large lattice by the first non-connected pattern and the second non-connected pattern facing each other,
2. The conductive sheet according to claim 1, wherein the combination pattern is configured by combining two or more small lattices.

The conductive sheet according to claim 17 ,
The first conductive portion is further formed in a first terminal wiring pattern connected to an end portion of each first conductive pattern and a central portion in the length direction of one side of the first conductive sheet. A plurality of first terminals to which the first terminal wiring pattern is connected;
The second conductive portion is further formed at a center portion in the length direction of one side of the second conductive sheet and a second terminal wiring pattern connected to an end portion of each of the second conductive patterns. A conductive sheet having a plurality of second terminals to which the second terminal wiring pattern is connected.

The conductive sheet according to claim 18 , wherein
When the first conductive sheet and the second conductive sheet are viewed from above,
A conductive sheet, wherein a portion where the plurality of first terminals are arranged and a portion where the plurality of second terminals are arranged are adjacent to each other.

The conductive sheet according to claim 18 , wherein
The end portion of each first conductive pattern and the corresponding first terminal wiring pattern are connected via a first connection portion, respectively.
The end portions of the second conductive patterns and the corresponding second terminal wiring patterns are respectively connected via the second connection portions,
A plurality of the first connection parts are arranged linearly along the second direction,
The conductive sheet, wherein the plurality of second connection parts are arranged linearly along the first direction.

In the conductive sheet according to any one of claims 1 to 20 ,
The conductive sheet according to claim 1, wherein the thin metal wire has a line width of 1 to 15 µm.

The conductive sheet according to any one of claims 1 to 21,
The surface resistance of the conductive sheet is 0.1 to 100 ohm / sq. It is in the range of the conductive sheet.

A first conductive sheet having two or more conductive first large lattices of fine metal wires each formed by combining two or more small lattices;
A method of using a conductive sheet using a second conductive sheet having two or more conductive second large lattices, each of which is formed of a thin metal wire formed by combining two or more small lattices,
Around the side of the first large lattice, a first non-connection pattern is formed by a thin metal wire that is not connected to the first large lattice,
Around the side of the second large lattice, a second non-connected pattern is formed by a thin metal wire that is not connected to the second large lattice,
By combining the first conductive sheet and the second conductive sheet, the second large lattice is disposed adjacent to the first large lattice, and the first disconnected pattern and the second disconnected pattern Are combined so that the arrangement of the small lattices is formed.

In the usage method of the electrically conductive sheet of Claim 23,
A first connecting portion is formed by a thin metal wire that electrically connects the adjacent first large lattices in the first conductive sheet, and two or more first large lattices are first connected via the first connecting portions. Arranged in a direction to constitute one first conductive pattern, and two or more first conductive patterns are arranged in a second direction orthogonal to the first direction,
A second connection portion is formed by a thin metal wire that electrically connects the adjacent second large lattices in the second conductive sheet, and two or more second large lattices are connected to the second connection portion via the second connection portions. One second conductive pattern is arranged in two directions, and two or more second conductive patterns are arranged in the first direction,
By combining the first conductive sheet and the second conductive sheet, the first connection portion and the second connection portion are combined so as to form an array of the small lattices. How to use a conductive sheet.

In the usage method of the electrically conductive sheet of Claim 24,
An electrically insulated first insulating portion is disposed between the adjacent first conductive patterns in the first conductive sheet, and the first fine insulating wire is not connected to the first large lattice. A first insulation pattern is formed by
An electrically insulated second insulating portion is disposed between the adjacent second conductive patterns in the second conductive sheet, and the thin metal wire is not connected to the second large lattice on the second insulating portion. A second insulation pattern is formed by
By combining the first conductive sheet and the second conductive sheet, the first insulating pattern and the second insulating pattern are combined to form an array of the small lattices. How to use a conductive sheet.

A capacitive touch panel comprising the conductive sheet according to claim 1.