Electromagnetic relay

1 . An electromagnetic relay comprising: a fixed contact, a moving contact, a fixed contact holder extending in an upward/downward direction in a first axis and having a first end portion on an upper side of the first axis, the first end portion being provided with the fixed contact; a moving contact holder also extending in the first axis, arranged to face the fixed contact holder, having a second end portion provided with the moving contact, and configured to move between a closed position where the moving contact comes into contact with the fixed contact and an open position where the moving contact goes out of contact with the fixed contact; an electromagnetic device configured to displace the moving contact holder in a second axis orthogonal to the first axis such that the moving contact moves back and forth between the closed position and the open position; and a magnet having a polarity on a surface facing a first space between the fixed contact and the moving contact, wherein a fixed contact side terminal composed of the fixed contact and the fixed contact holder includes, a first surface facing the first space, a second surface facing a second space on the second axis opposite to the first space with the fixed contact side terminal sandwiched between the first space and the second space, and a curved portion curved so as to be convex upward at an upper end of the fixed contact side terminal, the first surface and the second surface are continuous with each other via the curved portion, the magnet is arranged so as to face a contact portion which includes the fixed contact, the moving contact, the first end portion, the second end portion and the curved portion, in a third axis orthogonal to both the first axis and the second axis. 2 . The electromagnetic relay of claim 1 , further comprising a second magnet arranged to face a first magnet, provided as the magnet, so as to interpose, in the third axis, the fixed contact holder and the moving contact holder between the first magnet and the second magnet, wherein one surface, out of two surfaces, of the first magnet faces the second magnet in the third axis, one surface, out of two surfaces, of the second magnet faces the first magnet in the third axis, and the one surface of the first magnet has a different polarity from the one surface of the second magnet. 3 . The electromagnetic relay of claim 1 , wherein the fixed contact includes: a first fixed contact portion bonded onto a third surface, out of two surfaces, of the fixed contact holder along the thickness thereof, the third surface of the fixed contact holder being a surface on which the fixed contact and the moving contact come into contact with each other, and includes the first surface, a second fixed contact portion brought into contact with a fourth surface, opposite from the third surface, of the one holder along the thickness thereof, the fourth surface including the second surface; and the curved portion. 4 . The electromagnetic relay of claim 3 , wherein the fixed contact is provided for the fixed contact holder such that a gradient of a tangential line drawn with respect to a surface of the fixed contact changes continuously from a point where the fixed contact comes into contact with the moving contact toward an upper edge of the curved portion. 5 . The electromagnetic relay of claim 1 , wherein the fixed contact side terminal is provided such that a gradient of a tangential line drawn with respect to a surface of the fixed contact side terminal changes continuously from a point where the fixed contact side terminal comes into contact with the moving contact toward an upper edge of the curved portion. 6 . The electromagnetic relay of claim 1 , wherein the fixed contact is electrically connected to a negative electrode of an external DC power supply, and the moving contact is electrically connected to a positive electrode of the external DC power supply.