1. Field of the Invention
The invention relates to a hand tool having multiple bits or other tool elements selectable for use one at the time. The bits or tool elements are movable between a retracted storage position within the handle of the tool, and an extended operative position.
The hand tool is normally a screwdriver. However, while the words “screwdriver” and “bits” are used for convenience throughout this description, it should be understood that these words are intended to be interpreted liberally, and thus could include hand tools with such tool elements as pen/pencil or scribing tips, or other non-screwdriver bits.
The invention is particularly directed towards a mechanism for more easily extending and retracting the bits or other tool elements to and from their operative position.
2. Description of the Prior Art
In the past, different approaches have been tried to provide a hand tool or screwdriver having a plurality of bits accessibly stored in the handle of the screwdriver. Examples include U.S. Pat. No. 3,750,729 (Lemieux), U.S. Pat. No. 5,325,745 (Koehler), Canadian patent no. 2,353,911 (Beauchamp), and U.S. Pat. No. 6,332,384 (Cluthe). The latter reference is by the present inventor.
In prior art tools of this type, advancing or retracting bits has generally involved sliding an actuation button through a distance corresponding to the distance the bit is moved, and engaging a locking mechanism
It is an object of this invention to provide a mechanism which more easily extends and retracts the bits or other tool elements to and from their operative position, than in the prior art tools.
In the invention, a number of cartridges are assembled around a central axis, engaging each other along abutting longitudinal edges. Each cartridge has its own spring-loaded mechanism for extending or retracting a bit through a central axial opening of a collar at the distal end of the tool. The mechanism translates a small movement of an actuation button into rapid and much larger movement of the bit associated with that cartridge, whether that movement is extension or retraction.
Once extended, the bit may be locked in place by any suitable means, for example an automatically-locking collar of the type described in the inventor's recently-published U.S. patent application Ser. No. 10/926,965 and corresponding international application no. PCT/CA2004/001575, but preferably is simply blocked against retraction by the actuating mechanism itself, as will be explained below.
Further aspects of the invention will be described or will become apparent in the course of the following detailed description and drawings of specific embodiments of the invention, as examples.
Embodiments of the invention will now be described, by way of example only, with reference to the attached drawings of the preferred embodiment, in which:
A preferred embodiment of the invention is illustrated in the accompanying drawings. Of course the principle of the invention may be implemented in ways which are not identical to the preferred embodiment.
As seen best in
The collar 6 provides a passageway for extension and retraction of the bits, tapering from a proximal portion wide enough to receive any of the various bits, to a distal central axial opening 13 dimensioned to accommodate just one bit, i.e. one selected by the user. The distal opening has a cross-section corresponding to the cross-section of the bit at that point when extended, hexagonal for example, to prevent the bit from rotating when torqued.
The spring-loaded mechanism 3 in each cartridge translates a small movement of an actuation button 14 into rapid and much larger movement of the bit 5 associated with that cartridge, whether that movement is extension or retraction.
The actuation button 14 is secured to or preferably integrally molded with a trigger 15 which slides within the cartridge body 4. The purpose of the trigger is to contact either an extension release leaf spring 20 to allow an actuation slider 21 to be released towards an extended-bit position, or a retraction release leaf spring 22 to allow the actuation slider to be released towards a retracted-bit position. The leaf springs fit into recesses 23 in the walls of the cartridge bodies.
A connecting rod 25 is pivotally connected between the actuation slider 21 and the proximal end of a bit extension 26 secured to the proximal end of the bit 5 or other tool element. The connecting rod also acts as a locking arm, to hold an extended bit in its operative position. As can be seen in
The center guide 10 plays an important role as bits are extended or retracted, by keeping the bits, bit extensions and connecting rods from interfering with each other, by urging them outwardly away from the axis of the tool when retracting. The distal end of the center guide preferably is rounded or tapered.
As best seen in
When the actuation slider is in one of its two positions but is released therefrom by the trigger displacing the relevant leaf spring, it is launched to its other position by the effect of actuation springs 35. It should be noticed that by selecting a relatively long trigger and by spacing the cams 30, 31 relatively far apart as this permits, only a relatively small movement of the trigger is necessary to move from the position where one of the leaf springs is released to the position where the other is released. The actuation slider thus travels a much larger distance than the trigger.
The actuation springs 35 are mounted between two blocks, namely a proximal block 36 and a distal block 37, and are sandwiched between the cartridge body and the trigger, in grooves 38 in the trigger. The ends of the blocks extend inwardly and outwardly, so that the outward extensions can be engaged by opposite ends of the trigger, in notches 39, and so that the inward extensions can be engaged by the actuation slider 21.
When a particular cartridge's bit is in its retracted position, the proximal block 36 is held in position behind the actuation slider, by the actuation slider. As the actuation button and trigger are moved forward, the distal block 37 is carried with it, stretching the actuation springs. When fully forward, the proximal cam 30 engages the extension release leaf spring 20 to release the actuation slider, and the actuation slider is launched forward by the actuation springs. Inertia carries the slider forward to the point where it is caught by the retraction release leaf spring 22.
Similarly, when the user wants to retract the bit, the distal block 37 is held in position by the actuation slider. As the actuation button and slider are moved rearward, the proximal block 36 is carried with it, stretching the actuation springs. When the actuation button and trigger are fully to the rear, the distal cam 31 engages the retraction release leaf spring 22 to release the actuation slider, and the actuation slider is launched rearwardly by the actuation springs. The actuation slider then catches at the rear extension release relief spring 20.
A cartridge cover 40 slides over each cartridge body 4, to hold all cartridge components in place. Together, the cartridge covers act as an external surface or handle for the tool. Their longitudinal-edges contact each other, and if desired may be provided with complementary engagement means such as dovetailing or tongue-and-grooving.
Variations on the preferred embodiment described above are conceivable within the broad scope of the invention. It should therefore be understood that the claims which define the invention are not restricted to the specific embodiment described above. Further variations may be apparent or become apparent to those knowledgeable in the field of the invention, and are within the scope of the invention as defined by the claims which follow.
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Number | Date | Country | |
---|---|---|---|
20060201291 A1 | Sep 2006 | US |