The present invention is generally directed to vises for holding work pieces. More particularly, the present invention is directed to a quick release mechanism for a vise which allows fast and easy movement of a vise clamping jaw.
Vises have been known in the art as a common mechanism for holding a work piece in a stationary position while the work piece is being worked on, treated or repaired. Typically, a work piece to be held in the vise is placed between a pair of jaws, wherein one of the jaws is stationary and the other jaw is movable relative to the stationary jaw so as to tighten the jaws around the work piece.
An operator controls movement of the jaws by rotating a handle that is attached to a threaded shaft mechanically coupling the two jaws. Rotation of the handle results in incremental, linear movement of one of the jaws toward or away from the other jaw. It can be time consuming and tedious to achieve a great amount of movement of the jaws relative to one another. This is especially so, considering how many times a day a vise may be used to hold differently sized work pieces.
Accordingly, there is a need for a quick release vise that permits quick and easy movement of one of the jaws relative to the other jaw while still permitting controlled, incremental movement, such as via a threaded shaft. The present invention fulfills these needs and provides other related advantages.
The quick release vise of the present invention includes a first jaw and a second jaw that is moveable relative to the first jaw. A threaded shaft is rotatably fixed to the second jaw. A shaft receiver is fixed relative to the first jaw and includes a boss and a boss cover that is moveable relative to the boss. The boss has a first channel and the boss cover has a second channel which cooperatively define an at least partially threaded shaft-receiving bore.
The second channel includes a threaded surface for engaging the threaded shaft, and the first channel includes a smooth surface to allow the threaded shaft to easily slide past. The boss cover is pivotable relative to the boss between a first and second position. In the first position the threads of the shaft engage the threads within the shaft-receiving bore. In the second position the threads of the shaft are disengaged from the threads within the shaft-receiving bore so that the second jaw can slide relative to the first jaw without rotation of the threaded shaft.
The boss cover is biased toward the first position through the use of a spring. This allows the first position to be the default position where the threads of the shaft are engaged with the threads of the receiver. The spring may extend from the boss cover to the boss.
An actuator is used for selectively moving the boss cover from the first position to the second position. The actuator includes a pin that engages the boss cover. The pin is slidable relative to the first jaw and includes a button on the outside which can be pressed by the user. The pin is biased away from engagement with the boss cover by means of a spring such that the default position is in the first position. The pin is selectively moveable into engagement with the boss cover when the second position is desired to allow the second jaw to quickly slide relative to the first.
In a preferred embodiment, the second jaw has a long extension, such as an arm, that slides relative to the first jaw and extends through the first jaw. The arm of the second jaw and the threaded shaft are substantially coextensive as they both extend through the first jaw. The shaft receiver is positioned within the first jaw and further within the arm of the second jaw so that the arm slides past the receiver. The arm has a slot coextensive with the threaded shaft such that the pin is selectively movable into engagement with the boss cover through the slot. Furthermore, the boss cover has a chamfered or angled surface wherein the pin engages with the chamfered surface to pivot the boss cover in the second position.
Other features and advantages of the present invention will become apparent from the following more detailed description, when taken in conjunction with the accompanying drawings, which illustrate, by way of example, the principles of the invention.
The accompanying drawings illustrate the invention. In such drawings:
Rotatably fixed to the second jaw 16 is a threaded shaft 22. The threaded shaft 22 is parallel to the elongated arm 18 and also resides within the passageway 20 of the first jaw 12. The threaded shaft 22 may be rotated with a traditional handle 24 attached to the threaded shaft 22 on an end extending from second jaw 16. The threaded shaft 22 may be fully or partially threaded along its length. Furthermore, the threaded shaft 22 may be comprised of varying types of thread and helical structures suitable for converting rotational movement into linear movement. This disclosure is not intended to limit to any one specific type.
To engage and disengage the shaft receiver 26 from the threaded shaft 22, an actuator 28 is used.
The operation of the actuator 28 and the shaft receiver 26 will be understood with reference to
The boss cover 34 is biased towards the boss 30 with a spring 40 as shown, or any other suitable method, including but not limited to magnetism, locks and gears. The spring 40 forces the boss cover 34 to pivot into contact with the boss 30 when in the default or engaged state. In the default state, the threads of the boss cover 34 engaged the threads of the threaded shaft 22. Rotation of the threaded shaft 22 causes linear translation of the second jaw 16.
Referring to
It should be appreciated that the quick release bench vise 10 described herein is exemplary and that variations are possible. For example, the boss cover 34 does not have to move relative to the boss 30. Rather, any type of relative movement between the boss cover 34 and the boss 30 is possible. Moreover, the movement between the boss cover 34 and boss 30 does not have to be a pivoting movement but can be a linear or a curvilinear movement. Also, the boss 30 and boss cover 34 can be replaced with side members or various quantities of members that are configured to achieve a released and engaged state with the threaded shaft 22. It should also be appreciated that the actuator 28 is exemplary and that other actuation mechanisms can be used to transition the quick release bench vise 10 from an engaged state to a disengaged state.
In normal operation, the shaft receiver 26 is in the engaged state, which means that the threads of the threaded shaft 22 are engaged with the threads of the second channel 36 (See
In certain situations, it may be desirable to achieve a relatively quick and large movement of the second jaw 16 relative to the first jaw 12. If such movement is desired, the user can actuate the quick release bench vise 10 to move it to the released state as shown in
Although a preferred embodiment has been described in detail for purposes of illustration, various modifications may be made without departing from the scope and spirit of the invention. Accordingly, the invention is not to be limited, except as by the appended claims.
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Number | Date | Country |
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6708474 | Sep 1975 | AU |
4653 | Jan 1913 | GB |
Entry |
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EPO Supplementary European Search Report dated Mar. 6, 2013, European Patent Application No. 09829713.8. |
Number | Date | Country | |
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20110001283 A1 | Jan 2011 | US |
Number | Date | Country | |
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61118320 | Nov 2008 | US |