Electromagnetic relay and electromagnetic device

The invention claimed is: 1. An electromagnetic relay comprising: a first contact unit and a second contact unit, each of which includes a fixed contact and a movable spring having a first surface on which a movable contact is placed; an electromagnet which includes a coil and a yoke and is excited by a coil current flowing through the coil; an armature unit movable in accordance with excitation of the electromagnet to allow the movable contact to move between a closed position in contact with the fixed contact and an open position away from the fixed contact, the armature unit including an armature at least part of which has an area facing the yoke; and a base having a main surface and holding the first and second contact units, the armature unit and the electromagnet over the main surface, wherein: the movable contact is placed between the base and the fixed contact in an arrangement direction in which the base and the electromagnet are arranged, the first contact unit is placed closer to one of opposite ends of the coil in an axial direction of the coil than the second contact unit, the second contact unit is placed closer to the other of the opposite ends of the coil in the axial direction of the coil than the first contact unit, the electromagnet is placed between the first contact unit and the second contact unit along the axial direction of the coil, the first contact unit, the second contact unit and the electromagnet are arranged in a plane crossing the arrangement direction on the main surface of the base, the armature unit includes a first press part and a second press part, the first press part causes movement of the movable contact of the first contact unit by applying a pressing force to the first surface of the movable spring of the first contact unit to make the movable contact of the first contact unit to the open position, the second press part causes movement of the movable contact of the second contact unit by applying a pressing force to the first surface of the movable spring of the second contact unit to make the movable contact of the second contact unit to the open position, the armature unit moves the movable contacts of the first contact unit and the second contact unit by swinging about a rotation axis relative to the base in accordance with the excitation of the electromagnet, and the yoke is placed between the base and the armature in the arrangement direction in which the base and the electromagnet are arranged. 2. The electromagnetic relay according to claim 1 , wherein the first press part is apart from the first surface of the movable spring of the first contact unit when the movable contact of the first contact unit is in the closed position, and the second press part is apart from the first surface of the movable spring of the second contact unit when the movable contact of the second contact unit is in the closed position. 3. The electromagnetic relay according to claim 1 , wherein each of the first press part and the second press part causes movement of the corresponding movable contact to the closed position by reducing or eliminating the pressing force to the first surface of the corresponding movable spring. 4. The electromagnetic relay according to claim 1 , wherein when one of the first press part and the second press part moves toward the first surface of a corresponding movable spring, the other of the first press part and the second press part moves away from the first surface of a corresponding movable spring. 5. The electromagnetic relay according to claim 1 , wherein the first contact unit includes a normally open contact, and the second contact unit includes a normally closed contact. 6. The electromagnetic relay according to claim 1 , wherein: the armature unit includes a holder holding the armature, the armature moves in a direction in which the area moves toward the yoke or in a direction in which the area moves away from the yoke, when the electromagnet is excited, and the holder includes a separator which has electrically insulating properties and separates at least part of the area of the armature facing the yoke from the yoke when the area moves toward the yoke. 7. The electromagnetic relay according to claim 6 , wherein: the armature unit further includes a permanent magnet, and the holder holds the armature and the permanent magnet integrally. 8. The electromagnetic relay according to claim 6 , wherein the separator is placed to be in contact with at least part of the yoke facing the area of the armature. 9. The electromagnetic relay according to claim 6 , wherein: the armature unit swings about a rotation axis relative to the electromagnet in accordance with excitation of the electromagnet, and the separator is placed to separate an outer end of opposite ends of the area of the armature in a radial direction of the rotation axis from the yoke. 10. The electromagnetic relay according to claim 6 , wherein: the armature unit swings about a rotation axis relative to the electromagnet in accordance with excitation of the electromagnet, the armature includes a plurality of the areas facing the yoke including two areas which are a first area and a second area, the first area and the second area are provided to opposite tops of the armature unit extending in opposite directions moving away from the rotation axis, respectively, and a first interval between the first area and the yoke when the first area is in a closest position to the yoke and a second interval between the second area and the yoke when the second area is in a closest position to the yoke are different from each other. 11. The electromagnetic relay according to claim 6 , wherein: the electromagnet further includes a coil terminal which is held by a coil bobbin of the coil and is connected to the coil, and the coil terminal is provided on an opposite side of the yoke from the armature and extends in a direction away from the armature. 12. The electromagnetic relay according to claim 1 , wherein the yoke is provided to protrude from the coil. 13. The electromagnetic relay according to claim 1 , wherein the armature unit further includes a permanent magnet, and the electromagnetic relay further comprising a holder which holds the armature and the permanent magnet integrally. 14. The electromagnetic relay according to claim 13 , wherein the permanent magnet is placed in a position deviated away from the rotation axis.