Torque cam device and belt-type continuously variable transmission

The invention claimed is: 1. A torque cam device comprising: a drive cam member which includes a first drive cam surface which has an annular shape, and which is arranged to be rotated by receiving a rotation torque; a driven cam member which includes a first driven cam surface that has an annular shape, and that confronts the first drive cam surface, and which is arranged to be driven to be rotated by the drive cam member; and an intermediate cam member which includes a second drive cam surface that is formed on one end of the intermediate cam member, and that is arranged to be abutted on the first drive cam surface, a second driven cam surface that is formed on another end of the intermediate cam member, and that is arranged to be abutted on the first driven cam surface, and which is arranged to be rotated relative to the drive cam member and the driven cam member, the first drive cam surface and the second drive cam surface being abutted on each other when power is transmitted from the drive cam member to the driven cam member, and the first driven cam surface and the second driven cam surface being abutted on each other when power is transmitted from the driven cam member to the drive cam member, wherein each of the first drive cam surface, the first driven cam surface, the second drive cam surface, and the second driven cam surface has an annular entire circumference which is equally divided into two, and which is a helical curve according to an angle of the cam, and stepped connection surfaces are formed on portions between the equally divided helical surfaces, wherein when power is transmitted from the drive cam member to the driven cam member, the connection surface of the first driven cam surface and the connection surface of the second driven cam surface are abutted on each other, and wherein when power is transmitted from the driven cam member to the drive cam member, the connection surface of the first drive cam surface and the connection surface of the second drive cam surface are abutted on each other. 2. The torque cam device as claimed in claim 1 , wherein second drive cam surfaces and connection surfaces of portions between the second drive cam surfaces are disposed to have a phase shift with second driven cam surfaces and connection surfaces between portions of the second driven cam surfaces. 3. The torque cam device as claimed in claim 1 , wherein the connection surfaces are formed, respectively, in directions along a rotation axial line. 4. The torque cam device as claimed in one of claim 1 , wherein the first drive cam surface, the first driven cam surface, the second drive cam surface, and the second driven cam surface have an identical cam angle. 5. The torque cam device as claimed in one of claim 1 , wherein each of the first drive cam surface, the first driven cam surface, the second drive cam surface, and the second driven cam surface includes a groove formed in a direction in which each of the annular shapes extends, and a ball disposed to be rolled on the groove; and the respective cam surfaces are abutted through the ball. 6. A belt-type continuously variable transmission device comprising: a torque cam device including a drive cam member which includes a first drive cam surface which has an annular shape, and which is arranged to be rotated by receiving a rotation torque; a driven cam member which includes a first driven cam surface that has an annular shape, and that confronts the first drive cam surface, and which is arranged to be driven to be rotated by the drive cam member; and an intermediate cam member which includes a second drive cam surface that is formed on one end of the intermediate cam member, and that is arranged to be abutted on the first drive cam surface, a second driven cam surface that is formed on another end of the intermediate cam member, and that is arranged to be abutted on the first driven cam surface, and which is arranged to be rotated relative to the drive cam member and the driven cam member, the first drive cam surface and the second drive cam surface being abutted on each other when power is transmitted from the drive cam member to the driven cam member, the first driven cam surface and the second driven cam surface being abutted on each other when power is transmitted from the driven cam member to the drive cam member, wherein each of the first drive cam surface, the first driven cam surface, the second drive cam surface, and the second driven cam surface has an annular entire circumference which is equally divided into two, and which is a helical curve according to an angle of the cam, and stepped connection surfaces are formed on portions between the equally divided helical surfaces, wherein when power is transmitted from the drive cam member to the driven cam member, the connection surface of the first driven cam surface and the connection surface of the second driven cam surface are abutted on each other, and wherein when power is transmitted from the driven cam member to the drive cam member, the connection surface of the first drive cam surface and the connection surface of the second drive cam surface are abutted on each other, two pulley devices each including a fixed pulley and a movable pulley; and a belt wound around the two pulley devices to transmit power, wherein the torque cam device is arranged to generate a clamping force to act on at least one of the two pulley devices. 7. The belt-type continuously variable transmission device as claimed in claim 6 , wherein: the drive cam member and the movable pulley are arranged to rotate together; the driven cam member and the fixed pulley are arranged to rotate together; and the intermediate cam member is disposed to be rotated relative to a rotation shaft of at least one of the pulley devices.