Abstract: A first half part includes a second raised portion and a third raised portion respectively on the inner side of the hollow body and on the outer side of the hollow body with respect to a first raised portion, the second raised portion and the third raised portion being separated from the first raised portion with a spacing and being lower than the first raised portion. A second half part includes a third raised portion on the outer side of the hollow body with respect to a first raised portion, the third raised portion being separated from the first raised portion with a spacing and being lower than the first raised portion. An internal member includes a second raised portion on the inner side of the hollow body with respect to a first raised portion, the second raised portion being separated from the first raised portion with a spacing and being lower than the first raised portion. As a result, there is provided a high quality hollow body that can be provided at low cost and is cosmetically appealing.
Type:
Application
Filed:
July 2, 2003
Publication date:
July 29, 2004
Applicants:
GP DAIKYO CORPORATION, HONDA KIKEN KOGYO KABUSHIKI KAISHA
Abstract: An electric power steering apparatus includes a control unit 12 for outputting an electric motor control signal VO to control an electric motor 8 for adding an auxiliary steering torque, in response to at least the manual steering torque signal T from a torque sensor TS. The control unit 12 carries out a control to limit a maximum value of the electric motor control signal V0 in response to an electric motor current signal IMO sent from an electric motor current detecting unit 14. The control unit 12 includes a maximum value limitation indicating unit 26 for measuring the number of times of a maximum value limitation of the electric motor control signal VO and has such a structure that conditions for starting the maximum value limitation of the control signal VO are set to be more strict at a first time than those at a second time and thereafter.
Abstract: A method for controlling fuel supply of an internal combustion engine includes steps of sampling a vacuum level within an intake pipe of the engine and a value corresponding to engine rotational speed at predetermined sampling intervals, generating a subtraction value .DELTA.M.sub.e between a latest sampled value M.sub.en of the value corresponding to the engine rotational speed and a sampled value M.sub.en-m sampled predetermined number of cycles before, and correcting a latest sampled value P.sub.BAn of the pressure within the intake pipe in accordance with the subtraction value .DELTA.M.sub.e. The fuel supply amount is determined according to a corrected value P.sub.BA of the pressure within the intake pipe of the engine obtained by the above correction process.