Electromagnetic relay having a movable contact and a fixed contact and method for manufacturing the same

What is claimed is: 1. An electromagnetic relay comprising: a movable touch piece that provides a spring force; a movable contact provided on the movable touch piece; a fixed contact opposed to the movable contact; and a movable iron piece coupled to the movable touch piece, wherein the movable touch piece is rotated by the movable iron piece that rotates in a first direction based on magnetization of an electromagnet block to make the movable contact separate from the fixed contact, wherein the movable touch piece is rotated by the movable iron piece that rotates in a second direction that is opposite the first direction based on demagnetization of the electromagnetic block and based on the spring force provided by the moveable touch piece that causes the movable iron piece to rotate in the second direction and biases the moveable contact toward the fixed contact, wherein a contact distance between the fixed contact and the movable contact is adjusted based on a force applied to press-fit a fixed contact terminal provided with the fixed contact into a spool of the electromagnet block along a moving direction of the movable contact wherein the fixed contact terminal is arranged with the fixed contact between a pair of press-fitting portions that extend in parallel so as to be press-fitted into the spool of the electromagnet block, and wherein the pair of press-fitting portions protrudes from the fixed contact. 2. The electromagnetic relay according to claim 1 , wherein the contact distance between the fixed contact and the movable contact is adjusted in correspondence to the force applied to press-fit the fixed contact terminal, provided with the fixed contact located on the opposite side to the electromagnet block with respect to the movable contact, into the spool of the electromagnet block along the moving direction of the movable contact. 3. The electromagnetic relay according to claim 2 , wherein the contact distance between the fixed contact and the movable contact is adjusted in correspondence to the force applied to press-fit the fixed contact terminal, provided with the fixed contact located on the opposite side to the electromagnet block out of a pair of fixed contacts opposed to each other with the movable contact provided therebetween, into the spool of the electromagnet block along the moving direction of the movable contact. 4. An assembly structure of an electromagnetic relay according to claim 3 , wherein the contact distance between the fixed contact and the movable contact is adjusted, while alignment is made, by: taking as a normally closed fixed contact the fixed contact located on the opposite side to the electromagnet block out of the pair of fixed contacts opposed to each other with the movable contact provided therebetween, and press-fitting a normally closed fixed contact terminal provided with the normally closed fixed contact into the spool of the electromagnet block along the moving direction of the movable contact. 5. The electromagnetic relay according to claim 1 , wherein the contact distance between the fixed contact and the movable contact is adjusted in correspondence to the force applied to press-fitting the fixed contact terminal, provided with the fixed contact located on the electromagnet block side with respect to the movable contact, into the spool of the electromagnet block along the moving direction of the movable contact. 6. The electromagnetic relay according to claim 5 , wherein the contact distance between the fixed contact and the movable contact is adjusted, while alignment is made, by: taking as a normally closed fixed contact the fixed contact located on the opposite side to the electromagnet block out of the pair of fixed contacts opposed to each other with the movable contact provided therebetween, and press-fitting a normally closed fixed contact terminal provided with the normally closed fixed contact into the spool of the electromagnet block along the moving direction of the movable contact. 7. The electromagnetic relay according to claim 6 , wherein the contact distance between the fixed contact and the movable contact is adjusted, while alignment is made, by taking as a normally open fixed contact the fixed contact located on the electromagnet block side out of the pair of fixed contacts opposed to each other with the movable contact provided therebetween, and press-fitting a normally open fixed contact terminal provided with the normally closed fixed contact into the spool of the electromagnet block along the moving direction of the movable contact. 8. The electromagnetic relay according to claim 1 , wherein the press-fitting portions are respectively cut from corners formed by bending both-side edges of the fixed contact terminal in the same direction. 9. A method for manufacturing an electromagnetic relay, comprising: rotating a movable touch piece by a movable iron piece based on magnetization and demagnetization of an electromagnet block, to make a movable contact that is provided on the movable touch piece come into contact with and separate from a pair of fixed contacts that includes a fixed contact, wherein the movable contact is disposed between the pair of fixed contacts, press-fitting a fixed contact terminal provided with the fixed contact into the spool of the electromagnet block along the moving direction of the movable contact; and applying a force to press-fit the fixed contact terminal provided with the fixed contact into a spool of the electromagnet block along a moving direction of the movable contact to adjust a contact distance between the fixed contact and the movable contact, wherein the fixed contact is the fixed contact located on an opposite side to the electromagnet block out of the pair of fixed contacts, wherein the fixed contact terminal is arranged with the fixed contact between a pair of press-fitting portions that extend in parallel so as to be press-fitted into the spool of the electromagnet block, and wherein the pair of press-fitting portions protrudes from the fixed contact. 10. The method for manufacturing an electromagnetic relay according to claim 9 , wherein the adjusting is based on the force applied to press-fit the fixed contact terminal, provided with the fixed contact located on the opposite side to the electromagnet block with respect to the movable contact, into the spool of the electromagnet block along the moving direction of the movable contact. 11. The method for manufacturing an electromagnetic relay according to claim 9 , wherein the adjusting is based on the force applied to press-fit the fixed contact terminal, provided with the fixed contact located on the electromagnet block side with respect to the movable contact, into the spool of the electromagnet block along the moving direction of the movable contact.