Relay valve module of a pneumatic brake system

What is claimed is: 1. A relay valve module of a pneumatic brake system for a vehicle which includes an electronic control unit, cylinders, said, relay valve module comprising: a relay valve having a valve body which defines therein an air supply chamber in fluid communication with the supply air reservoir and a delivery chamber in fluid communication with the brake cylinders, a valve seat which is disposed between said air supply and delivery chambers, a valve member which is disposed to be moved relative to said valve body between an opened position, where said valve member is remote from said valve seat to permit air flow from said air supply chamber to said delivery chamber, and a normal closed position, where said valve member contacts said valve seat to obstruct the air flow, and a piston, which is disposed within and slidable relative to said valve body to move said valve member to the opened position; an actuating unit including a stem assembly which has a first end disposed within said valve body and adjacent to said piston, and which is moved by a pressure to permit said first end to be engaged with and press said piston so as to move said valve member to the opened position, and an actuating assembly which is electrically connected with the electronic control unit to receive a brake signal therefrom to provide the pressure to said stem assembly. 2. The relay valve module as claimed in claim 1 , wherein said actuating assembly has a housing which is mounted on said valve body and which defines a chamber therein, said stem assembly having a second end which is disposed in said chamber and which has a partition that is configured to partition said chamber into first and second chamber portions chat are respectively distal from and proximate to said piston, said actuating assembly further having a vacuum pump which is electrically connected with the electronic control unit and which has an outlet tubular segment that is disposed to be in fluid communication with and to supply air to said first chamber portion so as to generate the pressure in said first chamber portion sufficient to move said stem assembly, and an intake tubular segment that is disposed to be in fluid communication with said second chamber portion to receive returned air from said second chamber portion. 3. The relay valve module as claimed in claim 2 , wherein said stem assembly has a stem extending along an axis to have said first and second ends, said partition being disposed on and extending radially from said stem to be slidable relative to said housing along the axis and having first and second pressed surfaces that face said first and second chamber portions, respectively. 4. The relay valve module as claimed in claim 3 , wherein said actuating assembly has a restoration solenoid valve which is electrically connected with the electronic control unit, and which has two ports respectively in fluid communication with said outlet and intake tubular segments to be energized responsive to a brake signal to shut off fluid communication with said outlet and intake tubular segments. 5. The relay valve module as claimed in claim 1 , wherein said valve body of said relay valve defines therein a back-up supply chamber at an opposite side of said piston relative to said valve member and in which said first end of said stem assembly is disposed, said actuating unit including a back-up solenoid valve which is electrically connected with the electronic control unit, and which is in fluid communication with said back-up supply chamber to be energized responsive to a brake signal to supply air to said back-up supply chamber so as to provide an air pressure to press said piston. 6. The relay valve module as claimed in claim 1 , wherein said actuating assembly has a motor disposed adjacent to said relay valve and electrically connected with the electronic control unit, a worm drive coupled with said motor to transmit a torque, a cam connected between said worm drive and said stem assembly to transform a rotation of said cam by the torque to a linear motion to provide the pressure to said stem assembly. 7. The relay valve module as claimed in claim 6 , wherein said actuating assembly has a support mounted on said valve body of said relay valve to rotatably support said cam thereon. 8. The relay valve module as claimed in claim 1 , wherein said valve seat of said relay valve confines a valve opening through which said piston is extended to engage and press said valve member to the opened position, said relay valve having a biasing member which is disposed to bias said valve member to the normal closed position.