An electronically controlled arming unit including a logic circuit that is driven by the pre-existing weapons system signals to control a lanyard locking unit, thus removing the need for an external force to operate the arming unit. The electronically controlled arming unit can be retrofitted to the
An electronically controlled arming unit including a logic circuit that is driven by the pre-existing weapons system signals to control a lanyard locking unit, thus removing the need for an external force to operate the arming unit. The electronically controlled arming unit can be retrofitted to the existing equipment.
대표청구항▼
An electronically controlled arming unit including a logic circuit that is driven by the pre-existing weapons system signals to control a lanyard locking unit, thus removing the need for an external force to operate the arming unit. The electronically controlled arming unit can be retrofitted to the
An electronically controlled arming unit including a logic circuit that is driven by the pre-existing weapons system signals to control a lanyard locking unit, thus removing the need for an external force to operate the arming unit. The electronically controlled arming unit can be retrofitted to the existing equipment. head section has a circular hole passing through the head section from an upper side to a lower side thereof, a circumferential wall of the circular hole being formed with a cavity, a shaft hole being formed on a top face of the handle and communicating with the cavity, a wall of the shaft hole having a plurality of locating sections; a ratchet wheel, an outer circumference of the ratchet wheel having multiple continuous teeth, the ratchet wheel being rotatably installed in the circular hole; left and right symmetrical dogs received in the cavity and arranged side by side in a left and right side of the cavity, a face of each dog facing the ratchet wheel having teeth arranged in an arched form for engaging the teeth of the ratchet wheel, an inner end of each dog being formed with a recess, the two recesses of the dogs are positioned opposite to each other to form receiving spaces; two resilient members in the cavity respectively, each acting on one of the two dogs to resiliently bias the dogs toward the ratchet wheel; a shifting member having a symmetrical left and right end, the left and right ends of the shifting member are disposed in the recesses of the dogs, a center of the shifting member having an insertion hole; and, a rotary switch extending through the shaft hole into the cavity, a bottom end of a rotary section of the rotary switch including a shaft section, a bottom end of the shaft section is inserted into the insertion hole, the shaft section including a fixing device, whereby the fixing device is engaged with one of the plurality of locating sections. 2. The ratchet wrench as claimed in claim 1, wherein the rotary switch has at least two locating positions, such that when the rotary switch is in a first of the two locating positions, one of the left and right ends of the shifting member pushes a first of the left and right dogs away from the ratchet wheel, while a second of the left and right dogs is resiliently engaged with the ratchet wheel; and when the rotary switch is in a second of the at least two locating positions, another of the left and right ends of the shifting member pushes the second of the left and right dogs away from the ratchet wheel, and the first of the left and right dogs is resiliently engaged with the ratchet wheel. 3. The ratchet wrench as claimed in claim 2, wherein a resilient member and a ball body are embedded in the shaft section to form the fixing section. 4. The ratchet wrench as claimed in claim 1, wherein a top face of the inner end of each dog has a downward recess, and wherein the shifting member is a plate member located in the recess. 5. The ratchet wrench as claimed in claim 1, wherein the recesses pass through an inner end of each dog from a top face to a bottom face thereof, the shifting member is located in the recess. 6. The ratchet wrench as claimed in claim 1, wherein a face of each dog facing a circumferential wall of the cavity and is formed with a dent, and a first end of each resilient member is positioned in the dent. 7. The ratchet wrench as claimed in claim 6, wherein the circumferential wall of the cavity has second dents, each corresponding to the dent of each dog, and a second end of the resilient member is positioned in the second dent. 8. The ratchet wheel as claimed in claim 2, wherein the rotary switch has a third locating position between the first and second locating positions, such that when the rotary switch is located in the third position, the left and right dogs are in the same position relative to the ratchet wheel.
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이 특허에 인용된 특허 (11)
Carter William R. (Jamestown ND), Airborne stores arming trigger unit.
Brown James R. (Jamestown ND) Lane Gary S. (Jamestown ND) Larson Wallace H. (Jamestown ND), Airborne stores arming trigger unit and method of preventing undesired arming.
Schaff James M. (Ridgecrest CA) Maples Charles L. (Ridgecrest CA) Lyda Stephen F. (Ridgecrest CA) Brewton David W. (Ridgecrest CA) Ritchie Stephen R. (Ridgecrest CA), Pyrofuze aircraft ordnance arming system.
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