Valve timing control device for internal combustion engine

The invention claimed is: 1. A valve timing control device for an internal combustion engine, comprising: a driving rotation body to which rotation force is transmitted from a crankshaft; a driven rotation body accommodated in the driving rotation body and rotatably provided relative to the driving rotation body within a predetermined angle range; a lock member having a plate shape and provided so as to move forward and backward along a radial direction from one side of the driving rotation body and the driven rotation body to the other side of the driving rotation body and the driven rotation body; an engagement groove with which a tip end side of the lock member is engaged when a relative phase of the driven rotation body with respect to the driving rotation body becomes a predetermined phase; a biasing member which biases the lock member to an engagement groove side; and a release unit which releases engagement of the lock member to the engagement groove by supplying oil pressure to a pressure-receiving portion provided at the tip end side of the lock member, wherein a lightening portion is provided at a part except an edge portion on a sliding contact surface, which corresponds to a circumferential direction side of the driving rotation body, of the lock member. 2. The valve timing control device for the internal combustion engine according to claim 1 , wherein the lightening portion is formed by a penetrating hole. 3. The valve timing control device for the internal combustion engine according to claim 2 , wherein a plurality of penetrating holes are provided. 4. The valve timing control device for the internal combustion engine according to claim 3 , wherein each of the penetrating holes is formed by a substantially circular hole. 5. The valve timing control device for the internal combustion engine according to claim 3 , wherein each of the penetrating holes is formed by a substantially polygonal hole. 6. The valve timing control device for the internal combustion engine according to claim 1 , wherein the lightening portion is formed by a concave portion. 7. The valve timing control device for the internal combustion engine according to claim 6 , wherein the concave portion is provided on both of a pair of sliding contact surfaces. 8. The valve timing control device for the internal combustion engine according to claim 7 , wherein a plurality of concave portions are provided. 9. The valve timing control device for the internal combustion engine according to claim 6 , wherein the concave portion is provided on one of a pair of sliding contact surfaces. 10. A valve timing control device for an internal combustion engine, comprising: a driving rotation body to which rotation force is transmitted from a crankshaft; a driven rotation body accommodated in the driving rotation body and rotatably provided relative to the driving rotation body within a predetermined angle range; a lock member having a plate shape and provided so as to move forward and backward along a radial direction from one side of the driving rotation body and the driven rotation body to the other side of the driving rotation body and the driven rotation body, the lock member formed by polymerizing metal materials which are different from each other; an engagement groove with which a tip end side of the lock member is engaged when a relative phase of the driven rotation body with respect to the driving rotation body becomes a predetermined phase; a biasing member which biases the lock member to an engagement groove side; and a release unit which releases engagement of the lock member to the engagement groove by supplying oil pressure to a pressure-receiving portion provided at the tip end side of the lock member. 11. The valve timing control device for the internal combustion engine according to claim 10 , wherein the lock member is made of two or more kinds of materials whose specific gravity and hardness are different from each other, including a material having a lower specific gravity than another of the materials and a material having a higher hardness than another of the materials, and at least a part of the material having the lower specific gravity is covered with the material having the higher hardness. 12. The valve timing control device for the internal combustion engine according to claim 11 , wherein the material having the higher hardness is provided on a sliding contact surface of the lock member which is in sliding-contact with the driving rotation body or the driven rotation body. 13. The valve timing control device for the internal combustion engine according to claim 12 , wherein a lightening portion is provided at the material having the lower specific gravity. 14. The valve timing control device for the internal combustion engine according to claim 13 , wherein the lightening portion is formed by a penetrating hole. 15. The valve timing control device for the internal combustion engine according to claim 14 , wherein the lightening portion is formed by a concave portion. 16. The valve timing control device for the internal combustion engine according to claim 12 , wherein the material having the lower specific gravity is made of an aluminum based metal material, and the material having the higher hardness is made of an iron based metal material. 17. The valve timing control device for the internal combustion engine according to claim 10 , wherein the lock member is made of two or more kinds of materials whose specific gravity and hardness are different from each other, including a material having a lower specific gravity than another of the materials and a material having a higher hardness than another of the materials, and the material having the lower specific gravity is coated with a layer made of the material having the higher hardness. 18. A valve timing control device for an internal combustion engine, comprising: a driving rotation body to which rotation force is transmitted from a crankshaft; a driven rotation body accommodated in the driving rotation body and rotatably provided relative to the driving rotation body within a predetermined angle range; a lock member having a plate shape and provided so as to move forward and backward along a radial direction from one side of the driving rotation body and the driven rotation body to the other side of the driving rotation body and the driven rotation body, the lock member having, at an inside thereof, a hollow; an engagement groove with which a tip end side of the lock member is engaged when a relative phase of the driven rotation body with respect to the driving rotation body becomes a predetermined phase; a biasing member which biases the lock member to an engagement groove side; and a release unit which releases engagement of the lock member to the engagement groove by supplying oil pressure to a pressure-receiving portion provided at the tip end side of the lock member.