Abstract
The invention relates to jig apparatus (2) for use in the positioning of a workpiece (22) in which one or more apertures are to be formed using a power tool (25), said jig including at least one elongate member (30, 32, 34), which is extendable from a side of the base (4) of the jig and connected thereto via engagement means (40). A locator (56) is selectively positionable on the elongate member and lockable in the said selected position to allow the workpiece to be located therewith and thereby locate the workpiece in a required position with respect to the jig apparatus.
Claims
1. A jig apparatus, said apparatus including a base, at least one guide channel provided for the receipt and guiding of a drill bit therealong, means for positioning the workpiece with respect to the jig apparatus and retaining the workpiece in a selected position and wherein location means are provided which include at least one elongate member which extends from a side of the base and a locator which can be selectively positioned on the elongate member, and locking means are provided to allow the locator to be retained at a selected position on the elongate member so as to allow the positioning of the workpiece with respect thereto.
2. Apparatus according to claim 1 wherein an edge of the workpiece is brought into contact with the said locator to allow the workpiece and extend therefrom to allow the formation of a hole using a drill bit guided by the jig apparatus.
3. Apparatus according to claim 1 wherein the elongate member is selectively attachable to the base of the apparatus via engagement means.
4. Apparatus according to claim 3 wherein the engagement means include a female and a male engagement portion, one on the elongate member and the other on the said base.
5. Apparatus according to claim 3 wherein the base includes a portion of the said engagement means on one side thereof.
6. Apparatus according to claim 3 wherein the base includes a portion of the said engagement means on opposing sides thereof.
7. Apparatus according to claim 6 wherein elongate members are selectively positionable so as to extend to either or both sides of the base.
8. Apparatus according to claim 1 wherein a series of elongate members are provided to be selectively joined end-to-end so as to allow the selection of a length of the elongate formation assembly.
9. Apparatus according to claim 8 wherein the elongate members includes a track therealong with which the locator slidably engages.
10. Apparatus according to claim 9 wherein the track is provided at the same location on each elongate member such that when elongate members are joined end-to-end a continuous track is formed.
11. Apparatus according to claim 10 wherein the track includes portions formed on opposing side walls.
12. Apparatus according to claim 1 wherein the track is formed on the top wall of the elongate member.
13. Apparatus according to claim 9 wherein the locator includes portions which are received with the track so as to allow the locator to be slid along the track towards and away from the body of the jig apparatus to move the locator to the required position.
14. Apparatus according to claim 1 wherein the elongate member has one or more measurement scales formed along the same so as to allow the position of the locator with respect to the side of the base, or another datum point, to be selected and measured.
15. Apparatus according to claim 1 wherein when the locator is moved to the required position on the elongate member, the locking means on the locator and/or elongate member allow the locator to be locked in that fixed position.
Description
[0018] Specific embodiments of the invention are described with reference to accompanying drawings; wherein
[0019] FIG. 1 illustrates an example of a jig apparatus in accordance with one embodiment of the invention utilising elongate members in accordance with the invention.
[0020] FIGS. 2a and b illustrates a locator in accordance with one embodiment of the invention;
[0021] FIG. 3 illustrates the manner in which the locator can be selectively positioned with respect to the elongate member; and
[0022] FIGS. 4a-c illustrate the jig apparatus in different embodiments.
[0023] Referring firstly to FIG. 1, there is illustrated a jig apparatus 2 in accordance with one embodiment of the invention and the apparatus includes a base 4, a body 5, a drillbit guide assembly 6, clamping means 8 which includes a fixed jaw 10 provided as part of the base and a jaw 12 provided as part of the body 5 which is moveable towards and away from the fixed jaw 10 as indicated by arrow 14. The body 5 also receives the guide assembly 6 with one or more channels 16. Each channel 16 has a first opening 18 into which the free end of the drill bit can be inserted and a second, opposing opening 20 through which the drill bit is moved, whilst rotating, to move into a workpiece 22 which is clamped between the said first and second jaws 10, 12 as illustrated in FIG. 3.
[0024] Thus, the drill bit can be inserted through the first opening 18, moved along the guide channel 16 in a guided manner and leaves the second opening 20 and moves into the workpiece with the relative angular position of the axis 24 along which the drill bit is moved as indicated by arrow 26 and the surface 28 of the workpiece 22 into which the hole is formed, guided and controlled. The power tool (shown in broken lines in FIG. 3) such as a drill 25, used to drive the drill bit is located above the first opening 18, as shown.
[0025] The base 5 also has attached thereto, selectively, one or more elongate members, in this embodiment, three elongate members 30,32,34 with the members 30, 34 attached to opposing sides 36, 38 of the base using engagement means 40 and the elongate member 32 attached, to the free end 42 of the member 30 using engagement means 40, and in one embodiment, the engagement means may be in the form of a dovetail joints or alternative forms.
[0026] Typically, each elongate member, 30,32,34 includes at least one measurement scale 44 formed along its longitudinal axis 46 and a track 47 which is formed, in this embodiment, by first and second recesses 48,50 formed on the opposing side walls 52,54 of the elongate members and which extend along the length thereof, parallel with the longitudinal axis 46. The elongate members can be attached end-to-end as shown with members 30,32 in FIG. 1, so as to allow the length of the elongate member assembly to be selected by the user, and typically similar engagement means 40 are used to those provided to attach the elongate members to the base.
[0027] FIGS. 2a and b illustrate a locator 56 in accordance with one embodiment of the invention and the locator is provided with locking means 72 which pass through part 80 of the locator 56, said part 80 positioned intermediate first and second arms 82,84, which include portions 76, 78 which protrude therefrom and locate with the respective recesses 48,50 of the track of the elongate member and, one of which, is shown in cross section in FIG. 2b with the locking portion 56 located thereon. In addition, or alternatively a further portion 49 can be formed as shown in FIG. 2b, along the top surface of the elongate member and with which the locking means 72 can be engaged by rotation of a head portion 73 of the locking means by the user to move the same towards the track portion 49 to lock the locator in position, and when the locking means 72 is moved away from the elongate member this allows the sliding movement of the locator along the elongate member track 47 until the desired position is reached and the locking means 72 are then moved by rotation of the head portion 73 to move a shaft 75 through a threaded aperture in the intermediate part 80 and hence lock the locator in that position.
[0028] FIG. 3 illustrates the manner in which the locator 56 on the elongate members can be slid as indicated by arrows 66, 68 to a required position with reference to the measurement scale 44 so as to allow the locator to be positioned at a predetermined distance from the datum which, in one embodiment is the point of entry 77 of the drill bit into the workpiece 22 to form the hole therein with the workpiece clamped in position in the jig. Once the locator 56 is in position, then the locking means 72 are operated so as to contact with the elongate member and hence lock the locator in position thereon. The edge 70 of the workpiece 22 into which the hole is to be formed is then moved into contact with the contact face 74 of the locator 56 as shown in FIGS. 2a and 3 and the workpiece 22 can then be clamped in position using the first and second jaws 10, 12 of the clamping means. The user can then be certain that the hole is being formed in the required position on the workpiece.
[0029] Once the hole has been formed, then the clamping means are released and the locator 56 is released and, if necessary, moved to a new position and the workpiece edge moved to contact with the same and the process repeated so as to allow further holes, offset from each other, to be formed at the required locations or alternatively the workpiece can be removed if the work is completed.
[0030] In each of the FIGS. 4a-c, and indeed as shown in FIGS. 1 and 3, the jig apparatus includes the clamping means 8 including the fixed jaw 10 and the moveable jaw 12 which is provided as part of the body 5. The body 5 is provided to be slidably moveable along the base 4 as indicated by the arrow 122 in FIG. 4a and this is achieved by the provision of a rotatable screw shaft 124 which passes through and along the base 4 and is connected at one end, to a knob or other turning means 126 which can be operated by a user so as to allow the movement of the body 5 which is connected to the threaded shaft 124 so as to be linearly moved by the rotational movement of the threaded shaft 124 in either direction dependent on the particular rotation direction of the knob 126. In order to clamp a workpiece 22 with the apparatus the jaw 12 and hence body 5 are therefore moved towards the fixed jaw 10 until the same contact with the workpiece 22 which is located in the gap 128 between the fixed jaw 10 and moveable jaw 12, until a clamping force is exerted on the workpiece 22. When the workpiece is clamped, the lever 130 is pivotally moved downwardly as indicated by arrow 132 to exert a further clamping force on the body 5 and hence jaw 12 to thereby increase the clamping force exerted on the workpiece 22 via movement of the cam formation at the end of the lever 130 against the body 5.
[0031] Once the workpiece is clamped into position, the drill guide assembly 6 is moved to the required position with respect to the body 5 and the workpiece 22 so that the end 20 of the channel 16 is positioned at the required position adjacent the workpiece so as to allow the drill bit to pass through the channel 16 through the exit hole 20 and into the workpiece to form the required hole therein. Once this has been done, the lever 130 can be moved to the position shown in FIG. 4a to release the initial clamping force and then the knob 126 can be turned so as to move the jaw 12 and body 5 away from the workpiece so as to release the same and allow the workpipece to be removed completely or moved to another position so as to allow a further hole to be formed therein, offset from the first, and the process is repeated.
[0032] FIGS. 4a-c illustrate embodiments of the arrangement between the guide assembly means 6, the body 5 and the base 4 of the apparatus.
[0033] In FIG. 4a, there is illustrated the manner in which debris exit apertures 92, 94 shown in FIGS. 1 and 3 on either side of the body 5, are no longer present and therefore a cavity 96 within the body 5, acts as a collection point for any debris which passes from the drill guide assembly 6 though apertures 98 connecting the guide channels 16 and the cavity 96, in the direction of arrow 106. The removal of the drill guide assembly 6 from the body 5 in the direction of arrow 100 then allows the debris which is collected in the cavity, to be removed and dispensed. The advantage of this arrangement is that it allows debris to be collected and the cavity typically has sufficient volume to collect the amount of debris which is created during a particular working operation of the jig so that the cavity only requires to be emptied once the end of use of the jig for a particular working operation.
[0034] FIG. 4b illustrates a further arrangement in which there is provided no passage 98 between the drill guide assembly 6 and the body 5 so that the debris which is created can simply be removed from the working area 102 as the drill guide assembly 6 is removed from the body 5 in the direction of arrow 100.
[0035] FIG. 4c illustrates a further embodiment in which, in this case, the drill guide assembly 6 has a port 108 formed therein which allow debris to exit the channel 16 with which the port 108 connects, to the rear 110 of the drill guide assembly in the direction of arrows 112 as the cutting of the hole in the workpiece 22 occurs. The size of the opening of the port 108 above the body 5 at the rear 110 of the drill guide assembly 6 is dependent on the position of the said drill guide assembly with respect to the body 5 at the instant of time of use. The drill guide assembly can be raised as indicated by arrow 100 or lowered as indicated by arrow 120 to suit the particular use of the jig and workpiece 22 and is shown in FIG. 4c in its lowest position 5.
