Introduction to PC-RS Bomb Series
DESCRIPTION: This series of rocket assisted armour piercing
bombs consists of the following missles; PC 500 Rs, PC 1000 Rs, and the PC 1800 Rs. In general
the three types are of similar three piece construction; the warhead, the distance piece,
and the tail section. The tail section contains the rocket motor.
Each series is fitted for horizontal suspension by means of a single "eye"
or H-type suspension lug. In addition to the suspension lug, there is a set of trunnions
fitted to the bomb. They are located 90 degrees around from the lug and approximately 2
inches further aft. The trunnions are used for suspension only under dive-bombing conditions.
WARHEAD: The warhead is identical to the normal armour-piercing (PC) bombs of the respective
size except for the fuze pocket arrangement. In the PC-Rs series the transverse fuze pocket
has been omitted. The impact fuze is part of the 49 series and is found screwed into the base
of the warhead. The warhead is filled through the base and the explosive cavity is then closed
by means of a male type base plate.
DISTANCE PIECE: The distance piece is a steel cylinder internally threaded at both ends. Its
main purpose is to connect the warhread to the tail section. The charging head for the fuzing
system is threaded into the after end of the distance piece just forward of the tail piece
junction. The electical leads from the charging head pass through this cylinder; one to the
impact fuze and the other to the pyrotechnic rocket igniter.
TAIL SECTION: The tail section is another steel cylinder with twelve stabilizing fins at the
after end. This total of 12 fins is made up of 4 large fins and 8 small fins. The end of the
tail unit is closed by means of a fixing plate. The fixing plate has six circular openings
positioned so as to take the end of the venturi tubes from the rocket motor. The large
opening in the center of the fixing plate will allow any gas emitted from the pressure
release valve in the rocket motor to escape.
ROCKET MOTOR: The rocket motor is housed within the tail section. It consists of the following
parts: main pressure chamber, six propulsion venturi, six metal spacers at each end of the
pressure chamber to hold and properly space the propellant sticks, an igniter pad of black
powder, and a spring loade pressure release valve used as a safety messure.
There are 19 sticks of rocket powder in each motor, dimensions of which can be found in the specific entries. The latest type of rocket powder used in these missiles was dinitrodiglycol. FUZING SYSTEM: The 49 fuze has been developed in three series: A, B, C and they are used in the PC 500, 1000, 1800 Rs bombs respectively. Each series consists of three parts; the charging head, the pyrotechnic fuze for igniting the rocket motor, and the electrical impact fuze for detonating the warhead when the missile strikes a target. Wiring diagrams and complete operation of the system can be found in the bomb fuze section. OPERATION: When the missile is released from the mother aircraft, electrical charge is imparted to the charging head. This charge is passed on to both the pyrotechnic fuze and the electrical impact fuze. The pyrotechnic delay is ignited immediately. After 3 or 4 seconds it burns through to the black powder igniter. The black powder then ignites and starts the propellant powder in the motor burning.
The electrical charge which is passed on to the impact fuze loads the condensers and arms the fuze. On impact one or all of the trembler switches close. This action completes the firing circuit and sets off the electrical detonator which in turns sets off the gaine and finally the main charge.
All information for this entry were acquired from Army Technical manual TM 9-1985-2/Air Force Technical Order TO 39B-1A-9 GERMAN EXPLOSIVE ORDNANCE (Bombs, Fuzes, Rockets, Land Mines, Grenades & Igniters)
There are 19 sticks of rocket powder in each motor, dimensions of which can be found in the specific entries. The latest type of rocket powder used in these missiles was dinitrodiglycol. FUZING SYSTEM: The 49 fuze has been developed in three series: A, B, C and they are used in the PC 500, 1000, 1800 Rs bombs respectively. Each series consists of three parts; the charging head, the pyrotechnic fuze for igniting the rocket motor, and the electrical impact fuze for detonating the warhead when the missile strikes a target. Wiring diagrams and complete operation of the system can be found in the bomb fuze section. OPERATION: When the missile is released from the mother aircraft, electrical charge is imparted to the charging head. This charge is passed on to both the pyrotechnic fuze and the electrical impact fuze. The pyrotechnic delay is ignited immediately. After 3 or 4 seconds it burns through to the black powder igniter. The black powder then ignites and starts the propellant powder in the motor burning.
The electrical charge which is passed on to the impact fuze loads the condensers and arms the fuze. On impact one or all of the trembler switches close. This action completes the firing circuit and sets off the electrical detonator which in turns sets off the gaine and finally the main charge.
All information for this entry were acquired from Army Technical manual TM 9-1985-2/Air Force Technical Order TO 39B-1A-9 GERMAN EXPLOSIVE ORDNANCE (Bombs, Fuzes, Rockets, Land Mines, Grenades & Igniters)