Forging method and forging device

The invention claimed is: 1. A forging method in which ultrasonic vibrations are applied to a die body when a forging material in a forming hole of the die body is subjected to plastic working by driving a punch into the forming hole, wherein a contact state of the forging material with respect to a forming hole inner peripheral surface in a process of subjecting the forging material to the plastic working is classified into an insufficient contact state, a sufficient contact state, and a full contact state in order from a forming start time, and wherein application of ultrasonic vibrations is started after shifting from the insufficient contact state to the sufficient contact state. 2. The forging method as recited in claim 1 , wherein the application of ultrasonic vibrations is started immediately after shifting to the sufficient contact state. 3. The forging method as recited in claim 1 , wherein a distance between two adjacent contact points among contact points of the forging material with respect to the forming hole inner peripheral surface along the forming hole inner peripheral surface is defined as a distance between adjacent contact points, wherein when a maximum value of the distance between adjacent contact points exceeds a half of an entire peripheral length of the forming hole, the contact state is classified as the insufficient contact state, and wherein when a maximum value of the distance between adjacent contact points is equal to or less than a half of an entire peripheral length of the forming hole, the contact state is classified as the sufficient contact state. 4. The forging method as recited in claim 1 , wherein an angle formed by a line segment connecting one of adjacent two contact points among contact points of the forging material with respect to the forming hole inner peripheral surface and a forming hole center and a line segment connecting the other of the adjacent two contact points and the forming hole center is defined as a central angle between adjacent contact points, wherein when a maximum value of the central angle between adjacent contact points exceeds 180°, the contact state is classified as the insufficient contact state, and wherein when the maximum value of the central angle between adjacent contact points is 180° or less, the contact state is classified as the sufficient contact state. 5. The forging method as recited in claim 1 , wherein, based on an elapsed time from a time when processing of the forging material by the punch is started, a time of shifting from the insufficient contact state to the sufficient contact state is obtained, and wherein, based on the obtained time, a timing at which application of the ultrasonic vibrations is started is determined. 6. The forging method as recited in claim 1 , wherein a load of the punch against the forging material at the timing of shifting from the insufficient contact state to the sufficient contact state is obtained, and wherein, based on the obtained load, a timing at which application of ultrasonic vibrations is started is determined. 7. A forging device comprising: a die body including a forming hole; a punch that performs plastic working of a forging material in the forming hole by being driven into the forming hole; vibration applying means that applies ultrasonic vibrations to the die body; and vibration start means that starts application of ultrasonic vibrations by driving the vibration applying means when a predetermined time has elapsed after start of forming the forging material by the punch. 8. A forging device comprising: a die body including a forming hole; a punch that performs plastic working of a forging material in the forming hole by being driven into the forming hole; vibration applying means that applies ultrasonic vibrations to the die body; and load detecting means that detects a load of the punch against the forging material; and vibration start means that starts application of ultrasonic vibrations by driving the vibration applying means at a timing at which the load of the punch has reached a preset vibration start load value based on information from the load detecting means. 9. A forging device comprising: a die body including a forming hole; a punch that performs plastic working of a forging material in the forming hole by being driven into the forming hole; and vibration applying means that applies ultrasonic vibrations to the die body, wherein it is configured such that, at a timing at which a load of the punch against the forging material has reached a vibration start load value, application of the ultrasonic vibrations is started by the vibration applying means, and wherein it is configured such that following relationships are satisfied; “ Lc 1”=“ Lpa”דRσ”דα= 0.69 to 1.87”; “ Lpa ”=0.3404ד Ap” (0.782−┌Ap┘/190000) דAid” 0.218 ; “ Rσ”= 0.007ד cm”− 0.016; “σ m”> 10 MPa; and “ Did”−“Dm”< 10 mm, wherein “Lc 1 ” is a vibration start load value, “Ap” is an area of a pressure surface of the punch, “Aid” is a cross-sectional area of the forming hole, “Did” is an inner diameter of the forming hole, “Dm” is an outer diameter of the forging material, and “σm” is a deformation resistance of the forging material.