The present invention relates to a pocket hand tool comprising a carrier having a peripheral array of tool heads.
A pocket hand tool is disclosed in WO 03074236A. This tool comprises a handle which carries a pivoted arm, the arm being foldable within the body of the tool. The arm carries a rotary tool carrier exposed on one face at its distal end. The rotary tool carrier carries a regular circular array of three screwdriver bits. The tool carrier can be rotated in steps of 120° under the control of a spring-loaded sliding detent mechanism to deploy selectively any one of the screwdriver bits. It is necessary to retract the spring-loaded slider (using, for example, a thumb of one hand) before rotating the tool carrier (using, for example, the fingers of the other hand). In each case the deployed screwdriver bit project forwardly from the distal end of the arm, parallel with its longitudinal axis. To stow all the screwdriver bits, it is necessary to fold the arm within the body of the tool. Accordingly, single-handed operation is not possible.
GB 2152419A discloses a screwdriver having a disc-shaped rotary bit carrier enclosed within a generally circular casing, the casing having an arcuate cut-out portion from which screwdriver bits can be selectively deployed. The screwdriver bits are disposed in a circular array. In one embodiment the rotary bit carrier has four screwdriver bits with an angle between two of the bits which is slightly great than the angle subtended by the arcuate cut-out portion, to allow a stowed configuration in which all the bits are enclosed within the casing. However it is not easy to rotate the bit carrier from the stowed orientation to a deployed orientation.
In one aspect, the invention provides a pocket hand tool comprising an elongate handle portion and a tool carrier plate rotatably mounted on the elongate handle portion, the tool carrier plate having a peripheral array of tool heads, the tool carrier having a first rotary position in which the tool heads are in a stowed configuration and having one or more further rotary positions in which one or more of said tool heads are in a deployed configuration, said tool carrier plate having an exposed major surface portion which in use is manipulated by the thumb of the hand holding the elongate handle portion.
In this aspect it is preferred (though it is not essential) for the array of tool heads to be elongate. The exposed major surface portion of the tool carrier plate which can be manipulated by the user's thumb enables single-handed operation.
Preferably at least one of said tool heads has a longitudinal axis that intercepts a longitudinal axis of the tool carrier plate on the same side of the rotary axis of the tool carrier as said at least one tool head. This feature, which is illustrated by way of example in
Preferably a detent defines indexed rotary positions of said tool carrier plate.
Preferably in one of said indexed rotary positions, one tool head is deployed on one of said sides and in another of said indexed rotary positions, more than one tool head is deployed on said one side. In some situations two tool heads are used and it is convenient not to have to manipulate the tool carrier to deploy them separately. In other situations only one tool head is used and it is convenient not to have to choose one of two or more deployed tool heads.
Preferably said elongate handle portion and tool carrier plate are rotatably connected by a two-part snap-fit or screwed bushing. This feature facilitates assembly during manufacture.
In another aspect the invention provides a pocket hand tool comprising an elongate handle portion having two opposite lateral sides and a tool carrier rotatably mounted on the elongate handle portion, the tool carrier having an elongate peripheral array of tool heads, the tool carrier having a first rotary position in which said elongate peripheral array is aligned with said elongate handle portion and the tool heads are in a stowed configuration and having one or more further rotary positions in which said elongate peripheral array is transverse to said elongate handle portion and one or more tool heads are in a deployed configuration, whereby said tool heads can protrude beyond both of said lateral sides.
The ability of the tool heads to protrude beyond both lateral sides (which includes the possibility of one or more tool heads protruding beyond one lateral side in one rotary position and one or more of the same or different tool head protruding beyond the other lateral side in another rotary position, as well as the preferred possibility wherein, in at least one of said further rotary positions, at least one tool head protrudes beyond one of said lateral sides and at least one other tool head protrudes beyond the opposite lateral side) increases the versatility of the tool and enhances ease of use.
Preferably said tool carrier is exposed on the outside of said elongate handle portion. This makes it easier to manipulate, for example, with the user's thumb.
Preferably said tool carrier and elongate handle portions are in the form of overlying substantially parallel plates and are pivoted about an axis of rotation substantially orthogonal to said plates. This resulting tool is flat and takes up little room in the user's pocket, and can be produced cheaply by forming two plates and then attaching them with a suitable bushing.
Preferably at least one of said tool heads has a longitudinal axis that intercepts a longitudinal axis of the tool carrier on the same side of the rotary axis of the tool carrier as said at least one tool head. This feature, which is illustrated by way of example in
Preferably said elongate peripheral array is substantially trapezoidal or parallelogram-shaped (most preferably, rectangular). It is convenient for the handle to have parallel sides and all the above arrays can fit within the periphery of a parallel-sided handle.
Preferably a detent defines indexed rotary positions of said tool carrier.
Preferably in one of said indexed rotary positions, one tool head is deployed on one of said sides and in another of said indexed rotary positions, more than one tool head is deployed on said one side. In some situations two tool heads are used and it is convenient not to have to manipulate the tool carrier to deploy them separately. In other situations only one tool head is used and it is convenient not to have to choose one of two or more deployed tool heads.
Preferably said elongate handle portion and tool carrier are rotatably connected by a two-part snap-fit or screwed bushing. This feature facilitates assembly during manufacture.
The following features are preferred in embodiments according to either aspect of the invention:
Preferably both ends of said elongate handle portion extend longitudinally beyond the boundary of said peripheral array of tool heads in the stowed configuration. This feature reduces the risk of a protruding tool head wearing or tearing a hole in a user's pocket.
Preferably both ends of said elongate handle portion extend longitudinally beyond the boundary of said peripheral array of tool heads in the deployed configuration. This feature enables both ends of the handle portion to be grasped easily by the user if necessary.
Preferably one or more tools are formed in said elongate handle portion. For example said tools may include one or more of a spanner, a serrated cutter, a file, a bottle cap remover, a miniature pry bar recess and a wire cutter.
Preferably said tool heads include one or more of a screwdriver bit, a wire stripper and a fingernail-cleaning projection.
In preferred embodiments, said elongate handle portion comprises a carabiner clip.
In such embodiments, preferably a stepped spanner portion is formed within the interior of said elongate handle portion adjacent said carabiner clip.
Preferably in said stowed configuration, said tool heads do not protrude beyond the outer periphery of said elongate handle portion when viewed in the direction of the axis of rotation of said tool carrier. This feature minimizes the risk of wear and tear to the user's pocket.
The preferred embodiment consists essentially of said elongate handle portion (optionally including a carabiner clip), said tool carrier and means for forming a rotary connection between them. Such an embodiment can be manufactured at low cost and is as versatile as more complicated tools.
A preferred embodiment of the invention is described below by way of example only with reference to
Referring to
The tool is provided with a detent mechanism comprising two diametrically opposite miniature spring-loaded ball plungers 22 on the upper face of handle portion 1 which engage respective detent recesses 20 (
The tool carrier plate 2 is generally rectangular and has a rectangular array of tool heads at its corners, namely three screwdrivers heads 13A (small Phillips®), 13B (flat-bladed) and 13C (medium Phillips®) and a fingernail-cleaning tool 14, and also a wire stripper 15 cut-out portion formed in one of its shorter sides. These tools are labelled with indicia as shown.
The elongate handle portion 1 includes a carabiner clip portion 5 and has opposed stepped spanner faces 6 of successively smaller spacing at the inner end of the internal periphery of the clip, terminating in a thread cutter/wire stripper blade 12 (labelled “CUT” on the handle portion 1 in
It will be noted that the cutting edge of thread cutter/wire stripper blade 12, being located at the interior periphery of the tool, is not liable to cut a user's finger or a pocket in which the tool is kept. Cut-out 15 is too small for a finger. Furthermore, by rotating the tool plate 2 by 180° from the orientation shown in
In a variant the positions of the blade 12 and cut-out 15 can be interchanged, i.e., blade 12 can be located in a recess in tool carrier plate 2 and cut-out 15 can be formed in handle portion 1.
The handle portion 1 has a pry bar cut-out 11 formed in its forward (distal) end and a spoke spanner cut-out 11 formed at the forward end of its right-hand lateral side S1. The remainder of this side has a straight edge and corresponding ruler markings The forward end of the left-hand lateral side S2 has a serrated box-cutting edge 21 formed therein. Finally, the handle portion 1 has hexagonal spanner apertures 9 formed at its forward end.
The stowed configuration of the tool is shown in
Furthermore, the forward end and rear end of the handle portion 1 (to the left and right respectively in
Furthermore, it will be noted that the axes of the forward tool heads 13A and 13B are disposed at 45° to and intersect longitudinal axis L at a point forward of rotary axis X and that the axes of rear tool heads 13C, 14 similarly intersect this axis L at points rearward of rotary axis X. This non-radial alignment of the tool head axes enables the tool heads to be deployed orthogonally with respect to the lateral sides S1 and S2 of handle portion 1 with an anticlockwise rotation of the tool carrier plate 2 of 45°, as shown in
In the first deployed configuration shown in
As shown in
Finally, as shown in
Thus all four tool heads can be deployed singly or in combination, at an angle of either 45° or (approximately) 90° to lateral sides S1 and S2 of handle portion 1. The tool carrier plate 2, having a major surface exposed on handle portion 1, can easily be operated by the thumb of one hand while the fingers of that hand grasp the handle portion. Thus the tool is suited to a single-handed operation.
Number | Date | Country | Kind |
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1409200.1 | May 2014 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/061477 | 5/22/2015 | WO | 00 |