Apparatus for axial movement of a stabfoermigen component into a rohrfoermigen cabinet or box

摘要

973,383. Ratchet gearing. WESTINGHOUSE ELECTRIC CORPORATION. April 2,1963 [April 30, 1962], No. 13051/63. Heading F2Q. A linear step-by-step motion of a lead screw 62 is effected by axially spaced gripper means 58, 60 and sequential operation of three solenoids 16, 18, 20 in a predetermined manner, the lower solenoid 20 being effective to move the gripper means 60 into engagement with the screw 62, the intermediate solenoid 18 being effective to lift or lower the gripper means 60 to effect inermental movement of the screw 62, and the upper solenoid 16 being effective as load transfer means whereby the upper gripper means 58 is caused to engage the screw 62 and move it a minute distance axially to relieve the load on the lower gripper means 60. In the condition shown in Figs. 1A and 1B, upper solenoid 16 is de-energized, and solenoids 18 and 20 are energized. For upward incremental movement of lead screw 62, upper solenoid 16 is first energized whereby a magnetic pole 112 moves upwardly causing latch arms 136 to pivot until their tips 140 assume the position shown in Fig. 3. The flange 145 then engages a shoulder 147 on the lower end of a support tube 110 whereby the clearance 143 between the tips 140 and teeth 88 of lead screw 62 is taken up and the screw moved upwardly by an increment equal to that clearance. This has the effect of relieving the lower gripper arms 84 from load. Lower solenoid 20 is then deenergized which causes pole 104 to drop under the influence of spring 148 thereby causing outward movement of gripper arms 84 to the unlatched position. Lift solenoid 18 is then deenergized causing lift pole 142, latching operating pole 109 and a spring support plunger 146 to descend under the influence of a spring 164 until lower surface 168 engages damping washers 170. To dampen the shock, fluid dashpot means are provided. Energization of lower solenoid 20 causes latch arms 84 to move inwardly to the coupled position, although the tips 86 are not in actual contact with the teeth 88. Upper solenoid 16 is then de-energized causing downward movement of a latch operating pole 112 and gripper support tube 110, under the influence of springs 120 and 126. The initial downward movement also moves the lead screw 62 downwardly to absorb the clearance between the tip 86 of the lower gripper arm 84 and the lead screw teeth 88. Subsequent downward movement of the pole 112 effects movement of upper gripper arms 136 to the unlatched position. Incremental movement of lead screw 62 upwardly is completed, by energizing the lift solenoid 18. The above cycle is then repeated. Downward movement of the lead screw 62 may be effected by reversal of the sequence of operations. In a modification, shown in Fig. 6, an upper solenoid 208 comprises a lift solenoid, intermediate solenoid 210 operates upper gripper means 256, and a lower solenoid 212 operates lower gripper means 258 constituting load transfer means. Specification 765,040 is referred to.