Drehmomentabhaengige Abschalteinrichtung fuer ein durch ein Druckmedium antreibbares Motorwerkzeug

Drehmomentabhaengige Abschalteinrichtung fuer ein durch ein Druckmedium antreibbares Motorwerkzeug

1,188,746. Nut-runners; screwdrivers. GARDNER-DENVER CO. 23 Sept., 1968 [16 May, 1968], No. 45176/68. Heading B3N. [Also in Division F2] A fluid-operated nut-runner or screwdriver has a motor 18, connected to a drive spindle 50 and an exhaust fluid passage consisting of annular areas 96 and 110, con...

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Bibliographische Detailangaben
Hauptverfasser: JUN.,WILLIAM WORKMAN, J. DEREMO,EDWIN, F. CARTER,JOSEPH
Format: Patent
Sprache:ger
Schlagworte:
COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOTDIRECTED TO A PARTICULAR RESULT
DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g.ARRANGEMENTS FOR COPYING OR CONTROLLING
HAND TOOLS
MACHINE TOOLS
MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OFPARTICULAR DETAILS OR COMPONENTS
MANIPULATORS
METAL-WORKING NOT OTHERWISE PROVIDED FOR
PERFORMING OPERATIONS
PORTABLE POWER-DRIVEN TOOLS
TOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FORFASTENING, CONNECTING, DISENGAGING OR HOLDING
TRANSPORTING
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Zusammenfassung:1,188,746. Nut-runners; screwdrivers. GARDNER-DENVER CO. 23 Sept., 1968 [16 May, 1968], No. 45176/68. Heading B3N. [Also in Division F2] A fluid-operated nut-runner or screwdriver has a motor 18, connected to a drive spindle 50 and an exhaust fluid passage consisting of annular areas 96 and 110, conduits 102 and space 104 leading to a head portion (not shown), and thence to the exterior of the tool, the tool comprises a unitary clutch and valve between the motor and the spindle 50, which is operable in response to a predetermined torque to disengage the motor from the spindle, and shut off the flow of fluid in the passage. Operation is by a rotor shaft 20 driving a clutch hub 28, which has an annular member 34 press-fitted on to it, this member 34 has dental teeth 36 which drive a member 42 via teeth (44), Fig. 2 (not shown), member 42 being keyed by ball keys 48 to the driver's spindle 50. Teeth 36 and (44) are designed such that they force themselves apart. Opposing this force is a biasing spring 64 and a torque control mechanism which comprises a cylindrical race 56, having a bevelled circumferential groove 70, in which balls 72 are retained by springs 76. As the torque required increases, the axial force increases, until the balls 72 are forced up sloping walls 92 of the groove 70 thus allowing axial movement of member 42 and disengagement of the teeth 36 and (44). A plate 106 is attached to the member 42, which moves axially until the plate engages a surface 98, thus closing the exhaust passage, and thereby choking off the motor fluid flow. The position of member 42 is maintained by fluid pressure build up in area 96 until when the supply of fluid to the motor is stopped, the fluid in area 96 bleeds out through a passage 116 relieving the pressure as surface 114 and allowing the bias spring 64 to force the teeth 36 and (44) into re-engagement. A ring 78 has spiral cam surfaces 80 whereby the torque necessary for disengagement of the drive can be varied. The ring 78 is retained in a given position by a spring 84 biased into a groove 86.