1. Field of Invention
The present invention relates to screwdrivers and more particularly to a screwdriver having a torque setting mechanism such that torque exerted on a handle will not transmit to a shank if the torque exceeds a set value so as to prevent a screw from being over-driven by the shank.
2. Related Art
Screwdrivers are well known. It is typical that tightness of a driven screw is determined based on experience of a person working on it. It is understood that in one case the screw may be damaged if force (i.e., torque) exerted thereon exceeds a set value thereof. Thus, it is highly desirable to provide a screwdriver with a torque setting mechanism. However, how to design a torque setting mechanism in a limited internal space of a screwdriver while operation convenience and other advantageous features are still provided is a task to be accomplished. Thus, continuing improvements in the exploitation of such screwdriver are constantly being sought.
It is therefore an object of the present invention to provide a screwdriver comprising a rotatable handle including a sleeve including an internal lower elastic member, a support ring urged against an internal shoulder by the elastic member, the support ring including a plurality of male members equally spaced around its upper surface, and a scale window on a surface of the handle; and a torque setting mechanism including an actuation rod passed the support ring and the elastic member and including a lower threaded section, an upper threaded section, two opposing intermediate flats extended from the upper threaded section to the lower threaded section, and a top socket for securely receiving one end of a shank; a clutch ring put on the flats and having a plurality of equally spaced female members formed on its lower surface for receiving portions of the male members; a torque adjustment ring rotatably provided on tops of the clutch ring and the handle with the actuation rod passed, the torque adjustment ring urged against a shoulder between the upper threaded section and the socket; a lower torque adjustment nut threadedly secured to the lower threaded section and provided under the sleeve to urge against a bottom of the elastic member; and a color ring provided at a bottom of the actuation rod and disposed corresponding to the scale window, the color ring being adapted to turn as the actuation rod longitudinally moves in a torque setting operation by turning the torque adjustment ring; wherein in a screw fastening operation fit an open end of the shank into the head of a screw, turn the handle to cause both the support ring and the torque adjustment ring to turn, the clutch ring disengages with the male members to move the torque adjustment ring upward if a torque exerted on the screw by the shank exceeds a set maximum torque value, and the actuation rod moves longitudinally such that the torque will not transmit to the shank so as to prevent the screw from being over-driven; and in a maximum torque value setting operation of a screw turn the torque adjustment ring about the upper threaded section to longitudinally move the actuation rod whereby moving the torque adjustment nut closer to the support ring will further compress the elastic member, and bring the clutch ring to further engage the support ring.
In one aspect of the present invention, the elastic member is a compression spring.
In another aspect of the present invention, the elastic member includes a plurality of resilient rings stacked together.
In yet another aspect of the present invention, the male members are steel balls and the female members are a plurality of recesses.
In a further aspect of the present invention, the male members are formed as teeth and the female members are formed as mated teeth.
The above and other objects, features and advantages of the present invention will become apparent from the following detailed description taken with the accompanying drawings.
Referring to
An actuation rod 21 has its most portion disposed in the sleeve 11 by passing the support ring 111 and the spring 24. The actuation rod 21 comprises a lower threaded section 211, an upper threaded section 214, two opposing intermediate flats 213 extended from the upper threaded section 214 to the lower threaded section 211, and a top socket 215 for securely receiving one end of a shank 91. A clutch ring 23 is snugly put on the flats 213 and has a lower surface formed with a plurality of equally spaced recesses 231 for receiving projected portions of the steel balls 112.
A torque adjustment ring 25 is rotatably provided on tops of both the clutch ring 23 and the handle 10 with the actuation rod 21 passed. The torque adjustment ring 25 comprises a lower knurled circular member 251 for facilitating gripping prior to turning. A shoulder between the upper threaded section 214 and the socket 215 is rested upon top of the torque adjustment ring 25.
A lower torque adjustment nut 212 is threadedly secured to the lower threaded section 211 and is provided under the sleeve 11 to urge against a bottom of the spring 24. Thus, as stated above the support ring 111 is urged upward by the spring 214. A color ring 216 is provided at a bottom of the actuation rod 21 and is disposed corresponding to the scale window 12. The color ring 216 is adapted to turn as the actuation rod 21 longitudinally moves in a torque setting operation by turning the torque adjustment ring 25. As such, a user may be visually aware whether a desired torque set value has been set or not by viewing the color ring 216 through the scale window 12.
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While the invention herein disclosed has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of the invention set forth in the claims.
Number | Name | Date | Kind |
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2732746 | Livermont | Jan 1956 | A |
Number | Date | Country |
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2114793 | Sep 1972 | DE |
3704764 | Sep 1987 | DE |
Number | Date | Country | |
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20070039425 A1 | Feb 2007 | US |