Patent ID: 7520449
Filing Date: 2009-04-21
Classification: F02M

Abstract:
1. An electromagnetic fuel injection valve in which a cylindrical magnetic body ( 13 ) forming a part of a valve housing ( 9 ) having a valve seat ( 8 ) on a front end part thereof is joined, via a coaxial cylindrical non-magnetic body ( 25 ), to a front part of a cylindrical fixed core ( 23 ), a coil assembly ( 11 ) surrounding a rear part of the cylindrical magnetic body ( 13 ), the cylindrical non-magnetic body ( 25 ), and the fixed core ( 23 ) is housed within a solenoid housing ( 12 ) formed from a flange portion ( 23 a ) protruding radially outward from the rear end of the fixed core ( 23 ) and a coil case ( 31 ) that is formed in a cylindrical shape having an end wall ( 31 a ) at one end thereof and has opposite ends magnetically coupled to the cylindrical magnetic body ( 13 ) and the flange portion ( 23 a ), a fuel filter ( 33 ) is mounted on a rear part of an inlet tube ( 32 ) that is coaxially and integrally provided so as to be connected to the rear end of the fixed core ( 23 ) and that forms a fuel passage ( 34 ), and at least a front part of the inlet tube ( 32 ) and the solenoid housing ( 12 ) are covered by a synthetic resin-molded section ( 7 ) having an integral power-receiving coupler ( 40 ), a power-receiving connecting terminal ( 38 ) connected to a coil ( 29 ) of the coil assembly ( 11 ) facing the power-receiving coupler ( 40 ), characterized in that the resin-molded section ( 7 ) comprises a first resin-molded layer ( 41 ) and a second resin-molded layer ( 42 ), the first resin-molded layer ( 41 ) being formed from a glass fiber-incorporated synthetic resin while forming a coupler main portion ( 40 a ) that defines a framework part of the power-receiving coupler ( 40 ), and the second resin-molded layer ( 42 ) being formed from a synthetic resin into which glass fiber is not incorporated so as to cover the first resin-molded layer ( 41 ), and in a section of the inlet tube ( 32 ) on the fixed core ( 23 ) side, when the thickness of the first resin-molded layer ( 41 ) is t 1 , the thickness of the second resin-molded layer ( 42 ) is t 2 , and the thickness of the inlet tube ( 32 ) is t 3 , they are set so that t 1 <t 3 ≦t 2 .