High-speed response/high-sensitivity dryness/wetness responsive sensor

1 . A dryness/wetness responsive sensor comprising a thin wire of a first metal, and a thin wire of a second metal, the second metal being different from the first metal, wherein the thin wire of the first metal and the thin wire of the second metal are disposed in juxtaposition with each other on an insulating substrate, wherein a spacing between the first thin wire and the second thin wire is in a range of 5 nm or more and less than 20 μm, and wherein existence of water across the thin wire of the first metal and the thin wire of the second metal causes an electromotive force thereacross that allows galvanic current to flow. 2 . The dryness/wetness responsive sensor according to claim 1 , wherein a plurality of instances are provided for at least one of the thin wire of the first metal and the thin wire of the second metal, and wherein the thin wire of the first metal and the thin wire of the second metal extend from mutually opposite sides toward the other sides so as to run in parallel. 3 . The dryness/wetness responsive sensor according to claim 1 , wherein the thin wire of the first metal and the thin wire of the second metal are arranged in a double spiral. 4 . The dryness/wetness responsive sensor according to claim 1 , wherein the insulating substrate is a silicon substrate with a silicon oxide film on its surface. 5 . The dryness/wetness responsive sensor according to claim 1 , wherein the first metal is selected from a group consisting of gold, platinum, silver, titanium, an alloy thereof, and carbon. 6 . The dryness/wetness responsive sensor according to claim 1 , wherein the second metal is selected from a group consisting of silver, copper, iron, zinc, nickel, cobalt, aluminum, tin, chromium, molybdenum, manganese, magnesium, and an alloy thereof. 7 . The dryness/wetness responsive sensor according to claim 1 , further comprising a meshed member covering an area in which the thin wire of the first metal and the thin wire of the second metal are disposed in juxtaposition with each other. 8 . The dryness/wetness responsive sensor according to claim 1 , further comprising an insulating protection film covering an area in which the thin wire of the first metal and the thin wire of the second metal are disposed in juxtaposition with each other, wherein the insulating protection film has a groove-shaped opening that exposes at least a part of the thin wires. 9 . The dryness/wetness responsive sensor according to claim 8 , further comprising a groove-shape opening that exposes at least a part of a gap between the thin wire of the first metal and the thin wire of the second metal. 10 . The dryness/wetness responsive sensor according to claim 1 , comprising an opening portion passing through between front and rear sides of the insulating substrate by removing at least a part of a position of the insulating substrate corresponding to a gap between the thin wire of the first metal and the thin wire of the second metal. 11 . A dryness/wetness responsive sensor assembly for remote installation comprising an attachment member with an attachment portion at one end for attachment to an object to which the dryness/wetness responsive sensor according to claim 1 is attached so as to allow the dryness/wetness responsive sensor to be remotely located. 12 . A dryness/wetness responsive sensor system comprising a plurality of the dryness/wetness responsive sensors according to claim 1 , wherein the dryness/wetness responsive sensor in the system in which a short circuit has occurred or which does not generate an output current is disconnected. 13 . The dryness/wetness responsive sensor system according to claim 12 , wherein the disconnection of the dryness/wetness responsive sensor is performed by electrically disconnecting the dryness/wetness responsive sensor or not using an output of the dryness/wetness responsive sensor.