A device for generating power in a gravity dropped munition. The device including: a drum; a cable wound around a drum; a generator for producing electrical energy; a spring configured to convert rotation of the drum to energy as the cable is unwound from the drum; and an intermediate member selectively engaging the drum to the generator; wherein the intermediate member is disengaged from the drum when the cable is being unwound from the drum and the intermediate member is engaged with the generator when the cable is released from the drum to produce power from the generator.

A device for generating power in a gravity dropped munition. The device including: a drum; a cable wound around a drum; a generator for producing electrical energy; a spring configured to convert rotation of the drum to energy as the cable is unwound from the drum; and an intermediate member selectively engaging the drum to the generator; wherein the intermediate member is disengaged from the drum when the cable is being unwound from the drum and the intermediate member is engaged with the generator when the cable is released from the drum to produce power from the generator.

A method for generating power in a gravity dropped munition, the method including: winding a cable around a drum of a generator associated with the munition; attaching the cable from the generator to a portion of an aircraft; separating the munition from the aircraft to unwind the cable from the drum to release the cable from the drum after a predetermined amount of rotation of the drum; converting the rotation of the drum to energy in a spring as the cable is unwound from the drum; restricting movement of an intermediate member connecting the drum to the generator while the cable is being unwound from the drum; and ending the restricting when the cable is released from the drum allowing the intermediate member to engage the drum with the generator to produce power from the generator.

A method for generating power in a gravity dropped munition, the method including: winding a cable around a drum of a generator associated with the munition; attaching the cable from the generator to a portion of an aircraft; separating the munition from the aircraft to unwind the cable from the drum to release the cable from the drum after a predetermined amount of rotation of the drum; converting the rotation of the drum to energy in a spring as the cable is unwound from the drum; restricting movement of an intermediate member connecting the drum to the generator while the cable is being unwound from the drum; and ending the restricting when the cable is released from the drum allowing the intermediate member to engage the drum with the generator to produce power from the generator.

A striker mechanism including: a housing having a first surface; a slider movable in the housing, the slider having a projection or concavity, the slider having a second surface, the first and second surfaces defining an opening for a lanyard; a striker mass movably disposed relative to the housing, the striker mass having another of the projection and the concavity, the striker mass having a striker tip for engaging a primer; and a spring for biasing the striker tip relative to the housing. When the lanyard moves the slider within a first range of motion, the projection engages with the concavity to bias the striker mass towards the primer. When the lanyard moves the slider within a second range of motion, greater than the first range of motion, the projection disengages from the concavity allowing the striker mass to move towards the primer by a biasing force of the spring.

The present invention relates to a cluster bomblet having an improved bomblet body, the cluster bomblet comprising: a cylindrical bomblet body (10) packed with high explosives; a fuse assembly (20) having a striker screw (21) for exploding the high explosives and coupled to the top side of the bomblet body; and a conical penetrator (15) provided inside the rear end portion of the bomblet body. The bomblet of the present invention has: a connecting tube (33) provided therein to seal the top side of the bomblet body (10) and to connect an initiating tube of the fuse assembly (20) and the high explosives (11); and an upper cover (30) into which a stud assembled to the fuse assembly is inserted, wherein the upper cover includes: an assembly surface portion (31) having a connecting-tube mounting hole (31a) and a stud insertion hole (31b) formed therein, the stud (22) being inserted into the stud insertion hole (31b); and a side wall portion (32) extending upward from the edge of the assembly surface portion (31) in order to prevent the separation of the mounted fuse assembly (20).

The present invention relates to a cluster bomblet having an improved bomblet body, the cluster bomblet comprising: a cylindrical bomblet body (10) packed with high explosives; a fuse assembly (20) having a striker screw (21) for exploding the high explosives and coupled to the top side of the bomblet body; and a conical penetrator (15) provided inside the rear end portion of the bomblet body. The bomblet of the present invention has: a connecting tube (33) provided therein to seal the top side of the bomblet body (10) and to connect an initiating tube of the fuse assembly (20) and the high explosives (11); and an upper cover (30) into which a stud assembled to the fuse assembly is inserted, wherein the upper cover includes: an assembly surface portion (31) having a connecting-tube mounting hole (31a) and a stud insertion hole (31b) formed therein, the stud (22) being inserted into the stud insertion hole (31b); and a side wall portion (32) extending upward from the edge of the assembly surface portion (31) in order to prevent the separation of the mounted fuse assembly (20).

The present invention relates to a cluster bomblet having an improved bomblet body, the cluster bomblet comprising: a cylindrical bomblet body (10) packed with high explosives; a fuse assembly (20) having a striker screw (21) for exploding the high explosives and coupled to the top side of the bomblet body; and a conical penetrator (15) provided inside the rear end portion of the bomblet body. The bomblet of the present invention has: a connecting tube (33) provided therein to seal the top side of the bomblet body (10) and to connect an initiating tube of the fuse assembly (20) and the high explosives (11); and an upper cover (30) into which a stud assembled to the fuse assembly is inserted, wherein the upper cover includes: an assembly surface portion (31) having a connecting-tube mounting hole (31a) and a stud insertion hole (31b) formed therein, the stud (22) being inserted into the stud insertion hole (31b); and a side wall portion (32) extending upward from the edge of the assembly surface portion (31) in order to prevent the separation of the mounted fuse assembly (20).

The present invention relates to a cluster bomblet having an improved bomblet body, the cluster bomblet comprising: a cylindrical bomblet body (10) packed with high explosives; a fuse assembly (20) having a striker screw (21) for exploding the high explosives and coupled to the top side of the bomblet body; and a conical penetrator (15) provided inside the rear end portion of the bomblet body. The bomblet of the present invention has: a connecting tube (33) provided therein to seal the top side of the bomblet body (10) and to connect an initiating tube of the fuse assembly (20) and the high explosives (11); and an upper cover (30) into which a stud assembled to the fuse assembly is inserted, wherein the upper cover includes: an assembly surface portion (31) having a connecting-tube mounting hole (31a) and a stud insertion hole (31b) formed therein, the stud (22) being inserted into the stud insertion hole (31b); and a side wall portion (32) extending upward from the edge of the assembly surface portion (31) in order to prevent the separation of the mounted fuse assembly (20).

A method for generating power in a gravity dropped munition, the method including: winding a cable around a drum of a generator associated with the munition; attaching the cable from the generator to a portion of an aircraft; separating the munition from the aircraft to unwind the cable from the drum to release the cable from the drum after a predetermined amount of rotation of the drum; converting the rotation of the drum to energy in a spring as the cable is unwound from the drum; restricting movement of an intermediate member connecting the drum to the generator while the cable is being unwound from the drum; and ending the restricting when the cable is released from the drum allowing the intermediate member to engage the drum with the generator to produce power from the generator.