Patent ID: 8485151

Claim:
A valve timing adjusting device for adjusting valve timing of an actuated valve, which is opened and closed by a camshaft using torque transmitted from a crankshaft, in an internal combustion engine, the valve timing adjusting device comprising: a housing defining a fluid chamber inside; a magnetic viscous fluid that is sealed in the fluid chamber and that has viscosity changing in accordance with a magnetic flux passing through the fluid; a viscosity controlling means for variably controlling the viscosity of the magnetic viscous fluid by passing the magnetic flux through the magnetic viscous fluid in the fluid chamber; a brake rotor that penetrates through the housing between an inside and an outside of the housing and that rotates in a constant direction due to an operation of the internal combustion engine, wherein brake torque corresponding to the viscosity of the magnetic viscous fluid in the fluid chamber is inputted to the brake rotor through contact between the brake rotor and the magnetic viscous fluid; a phase adjusting mechanism that is linked with the brake rotor outside the housing and that adjusts a relative phase between the crankshaft and the camshaft in accordance with the brake torque inputted to the brake rotor; and a sealing structure for sealing a clearance between the housing and the brake rotor, wherein the sealing structure has: a magnetic sleeve section that is provided in the housing to be continuous in the rotational direction of the brake rotor and that generates the magnetic flux; and a magnetic screw section that is provided to the brake rotor such that a sealing gap is formed between the magnetic screw section and an inner peripheral section of the magnetic sleeve section and that is formed in the shape of an external screw having a screw thread, which extends away from the fluid chamber side toward the phase adjusting mechanism side when the screw thread is traced along the rotational direction of the brake rotor, wherein the magnetic flux generated by the magnetic sleeve section is guided to the magnetic screw section through the sealing gap, and the magnetic sleeve section has: a cylindrical permanent magnet that is provided coaxially with the magnetic screw section and that generates the magnetic flux using magnetic poles formed by both axial end portions thereof; and a pair of magnetic yokes in the shape of annular plates that are coaxially adjacent to the both axial end portions of the permanent magnet respectively and that guide the magnetic flux generated by the permanent magnet to the sealing gap between the magnetic sleeve section and the magnetic screw section.