Electronic control device

1 . An electronic control device comprising: a metal hydraulic control block in which hydraulic control apparatus are provided; an electronic control mechanism for driving the hydraulic control apparatus; a pressure sensor held in the electronic control mechanism and provided for detecting a hydraulic pressure in the hydraulic control block; a circuit board of the electronic control mechanism, to which terminals of the pressure sensor are connected; and an electroconductive member for conducting a negative electrode wire of the circuit board and the hydraulic control block. 2 . The electronic control device as recited in claim 1 , wherein: the electronic control mechanism has a component holder made of a synthetic resin material and the circuit board connected to the component holder for controlling driving of the hydraulic control apparatus; the component holder has a component housing chamber defined inside of an outer peripheral wall for accommodating and disposing a plurality of electronic components including the pressure sensor in the component housing chamber, and a connector configuration part located outside of the component housing chamber; the circuit board is fixed on an opening end side of the component housing chamber of the component holder; and the electroconductive member is interposed between the pressure sensor and a portion of the outer peripheral wall, the portion of the outer peripheral wall being located between the pressure sensor and the connector configuration part. 3 . The electronic control device as recited in claim 2 , wherein: the electroconductive member is arranged on a straight line that connects the pressure sensor and the connector configuration part. 4 . The electronic control device as recited in claim 2 , wherein: a plurality of fastening portions are formed outside of the outer peripheral wall of the component housing chamber for fastening the component holder and the hydraulic control block together; and the electroconductive member is arranged at a position closer to one fastening portion of the fastening portions than the pressure sensor, the one fastening portion being located on a side of the connector configuration part. 5 . The electronic control device as recited in claim 1 , wherein: the electroconductive member includes a terminal configuration part connected to a negative electrode wiring of the circuit board and an elastic contact part extending from the terminal configuration part toward the hydraulic control block; the elastic contact part has a first bent portion bent at an obtuse angle and a second bent portion bent into a circular-arc shape on a distal end side corresponding to a side of the hydraulic control block than the first bent portion; and the second bent portion is brought into abutted-engagement with the hydraulic control block. 6 . The electronic control device as recited in claim 1 , wherein: the electronic control mechanism has a component holder made of a synthetic resin material and the circuit board connected to the component holder for controlling driving of the hydraulic control apparatus; the electroconductive member is constituted of a terminal configuration part formed into a narrow elongated plate-shape and connected to a negative electrode wiring of the circuit board and an elastic contact part formed integral with the terminal configuration part and formed into a plate-shape wider than the terminal configuration part; the terminal configuration part has a root formed integral with the elastic contact part, the root being formed with locking portions, which are brought into engagement with a hole edge of an insertion hole formed in the component holder; the terminal configuration part is configured to protrude through the insertion hole of the component holder toward the circuit board; the elastic contact part is configured to protrude from a side of the component holder, facing the hydraulic control block; and the elastic contact part has a first bent portion which is bendingly deformable and a second bent portion which is brought into abutted-engagement with the hydraulic control block. 7 . The electronic control device as recited in claim 2 , wherein: an insertion hole for inserting and guiding the terminal configuration part of the electroconductive member toward the circuit board is formed through a bottom wall of the component housing chamber of the component holder; and a guide part is provided to protrude near a hole edge of the insertion hole of the bottom wall, for guiding the electroconductive member into the insertion hole. 8 . The electronic control device as recited in claim 7 , wherein: the guide part is formed and dimensioned shorter than a length from the bottom wall to an outer end edge of an elastic contact part of the electroconductive member; the guide part is configured to slidably guide a side surface of the electroconductive member through an inside surface of the guide part; and the guide part has a reinforcing piece formed on an outside surface of the guide part, facing the outer peripheral wall of the component housing chamber, the reinforcing piece of the guide part being integrally formed along a longitudinal direction of the guide part. 9 . The electronic control device as recited in claim 6 , wherein: a stopper part is provided on a bottom wall of a component housing chamber of the component holder, for restricting an excessive inward deformation of the first bent portion in a state where an outer end edge of the second bent portion has been brought into abutted-engagement with the hydraulic control block. 10 . The electronic control device as recited in claim 9 , wherein: the stopper part has a stopper piece formed into an elongated plate-shape having a rectangular cross-section and a reinforcing piece formed on a backface of the stopper piece, facing apart from the electroconductive member, the reinforcing piece of the stopper part being integrally formed along a longitudinal direction of the stopper part; and respective distal ends of the stopper piece and the reinforcing piece of the stopper part in total are cut and formed as an inclined surface of a tri-angular shape corresponding to a folded-back shape of the second bent portion. 11 . The electronic control device as recited in claim 7 , wherein: a stopper part is provided on the bottom wall of the component housing chamber of the component holder, for restricting an excessive inward deformation of the first bent portion in a state where the second bent portion has been brought into abutted-engagement with the hydraulic control block; and the stopper part and the guide part are formed so as to protrude parallel to each other from the bottom wall of the component holder.