Electromagnetic relay

The invention claimed is: 1. An electromagnetic relay comprising: a base; an electromagnet block having a spool in which a through hole opening at a flange portion is formed, the electromagnet block being mounted on an upper surface of the base; a movable iron piece configured to be rotatable based on excitation and non-excitation of the electromagnet block; a movable contact piece configured to be rotatable integrally with the movable iron piece; a movable contact fixed to a free end of the movable contact piece; and a fixed contact fixed to a fixed contact terminal, and disposed so as to be connected with and separable from the movable contact along with rotation of the movable contact piece, wherein an insulating rib is formed in a projecting manner on at least one of an inward facing surface of a spacer integrally formed with the movable iron piece and an outward facing surface of the flange portion such that the insulating rib intercepts a straight line which connects a magnetic pole portion which is one end portion of an iron core which projects from the through hole and the fixed contact or the fixed contact terminal with a shortest distance. 2. The electromagnetic relay according to claim 1 , wherein an insulating rib mounted on the inward facing surface of the spacer in a sidewardly projecting manner is disposed in a direction toward the magnetic pole portion from the fixed contact. 3. The electromagnetic relay according to claim 2 , wherein an insulating rib mounted on the outward facing surface of the flange portion in a sidewardly projecting manner is disposed in a direction toward the magnetic pole portion from the fixed contact. 4. The electromagnetic relay according to claim 3 , wherein the insulating rib mounted on the outward facing surface of the flange portion in a sidewardly projecting manner is disposed such that the insulating rib intercepts a straight line which connects a distal end of the insulating rib mounted on an inward facing surface of the spacer in a sidewardly projecting manner and the magnetic pole portion with a shortest distance. 5. The electromagnetic relay according to claim 2 , wherein the insulating rib mounted on the outward facing surface of the flange portion in a sidewardly projecting manner is disposed such that the insulating rib intercepts a straight line which connects a distal end of the insulating rib mounted on an inward facing surface of the spacer in a sidewardly projecting manner and the magnetic pole portion with a shortest distance. 6. The electromagnetic relay according to claim 1 , wherein an insulating rib mounted on the outward facing surface of the flange portion in a sidewardly projecting manner is disposed in a direction toward the magnetic pole portion from the fixed contact. 7. The electromagnetic relay according to claim 6 , wherein the insulating rib mounted on the outward facing surface of the flange portion in a sidewardly projecting manner is disposed such that the insulating rib intercepts a straight line which connects a distal end of the insulating rib mounted on an inward facing surface of the spacer in a sidewardly projecting manner and the magnetic pole portion with a shortest distance. 8. The electromagnetic relay according to claim 1 , wherein the insulating rib mounted on the outward facing surface of the flange portion in a sidewardly projecting manner is disposed such that the insulating rib intercepts a straight line which connects a distal end of the insulating rib mounted on an inward facing surface of the spacer in a sidewardly projecting manner and the magnetic pole portion with a shortest distance.