Contact member, contact member production method, and push-button switch member equipped with contact member

The invention claimed is: 1. A contact member comprising: a meshed contact comprising one or more layers of a metal other than a noble metal, the meshed contact being embedded in one surface of a rubber-like elastic body in such a manner as to have a region partially exposed from the one surface while the rest of the meshed contact is entirely buried in the rubber-like elastic body, wherein a highly conductive metal coat layer having a higher conductivity than that of the metal in an outermost surface of the meshed contact is provided only on the region of the meshed contact partially exposed from the one surface of the rubber-like elastic body. 2. The contact member of claim 1 , wherein the meshed contact is a wire mesh comprising a plurality of metal wires intersecting each other, and wherein the region of the meshed contact comprises the plurality of metal wires exposed from the one surface of the rubber-like elastic body at least in one direction. 3. The contact member of claim 2 , wherein the plurality of the metal wires is interlaced in a first direction and a second direction different from the first direction, wherein the region of the meshed contact comprises both of the plurality of metal wires in the first direction and the second direction partially exposed from the one surface of the rubber-like elastic body, and wherein a first area of the plurality of metal wires covered with the highly conductive metal coat layer in the first direction is larger than a second area of the plurality of metal wires covered with the highly conductive metal coat layer in the second direction. 4. The contact member of claim 2 , wherein the wire mesh comprising the plurality of metal wires interlaced in a first direction and a second direction different from the first direction, wherein the region of the meshed contact comprises both of the plurality of metal wires in the first direction and the second direction partially exposed from the one surface of the rubber-like elastic body at a plurality of points, and wherein a first number of points where metal wires of the plurality of metal wires in the first direction are exposed from the rubber-like elastic body is greater than a second number of points where the metal wires of the plurality of metal wires are exposed from the rubber-like elastic body in the second direction. 5. The contact member of claim 2 , wherein the wire mesh comprising the plurality of metal wires interlaced in a first direction and a second direction different from the first direction, wherein the region of the meshed contact comprises both of the plurality of metal wires in the first direction and the second direction partially exposed from the one surface of the rubber-like elastic body at a plurality of points, and wherein a height in which the plurality of metal wires are exposed from the one surface of the rubber-like elastic body is smaller than a diameter of the plurality of metal wires. 6. The contact member of claim 1 , wherein the highly conductive metal coat layer is an electrolytic plating layer. 7. The contact member of claim 1 , wherein one or a plurality of projecting portions are provided on another side of the rubber-like elastic body opposite to the one surface. 8. The contact member of claim 7 , wherein a surface of each of the projecting portions is a curved surface. 9. A contact member production method for producing the contact member of claim 1 , comprising: a meshed contact portion embedding step of embedding a meshed contact comprising one or more layers of a metal other than a noble metal in a curable rubber composition that is in a stage before a rubber-like elastic body is cured completely in such a manner that the meshed contact has a region partially exposed from a one surface of the rubber-like elastic body while the rest of the meshed contact is entirely buried in the rubber-like elastic body; a curing step of curing the curable rubber composition following the meshed contact portion embedding step; and a plating layer forming step of forming a highly conductive metal coat layer having a higher conductivity than that of the metal in an outermost surface of the meshed contact only on a region of the meshed contact is exposed from the rubber-like elastic body. 10. A push-button switch member comprising the contact member of claim 1 . 11. A contact member comprising: a rubber-like elastic body; a meshed contact comprises a metal other than a noble metal and partially embedded in the rubber-like elastic body; and a highly conductive metal coat layer, wherein the mesh contact has regions partially exposed from one surface while the rest of the meshed contact is entirely buried in the rubber-like elastic body, the highly conductive metal coat layer is on the regions of the meshed contact exposed from the one surface of the rubber-like elastic body and has a higher conductivity than that of the metal in an outermost surface of the meshed contact. 12. The contact member of claim 5 , wherein the height in which the plurality of metal wires is exposed from the one surface of the rubber-like elastic body in the first direction is smaller than that of in the second direction. 13. The contact member of claim 12 , wherein an exposed portion of the plurality of metal wires is 0% to 0.5% in the diameter of the plurality of metal wires in the first direction. 14. The contact member of claim 12 , wherein an exposed portion of the plurality of metal wires is 0.05% to 0.8% in the diameter of the plurality of metal wires in the second direction.