NZ779203A - A fastener setting tool - Google Patents

Abstract

The present invention relates to a fastener setting tool for installing a fastener into a board structure, comprising a tool body having a bottom surface and a longitudinal axis; a spacer assembly, comprising a first abutment member, having a first engagement surface, and a second abutment member, having a second engagement surface opposingly spaced apart from said first engagement surface, each one of said first and second abutment member extending away from and in a direction normal to said bottom surface of said tool body, said spacer assembly being configured to cooperatingly positioningly engage the board structure; at least one fastener guide operably coupled to any one of said first and second abutment member, and configured to guidingly receive a fastener for the board structure; and a spacer adjustment mechanism, adapted to selectively lockingly move at least one of said first and second abutment member in a direction along said longitudinal axis. aving a second engagement surface opposingly spaced apart from said first engagement surface, each one of said first and second abutment member extending away from and in a direction normal to said bottom surface of said tool body, said spacer assembly being configured to cooperatingly positioningly engage the board structure; at least one fastener guide operably coupled to any one of said first and second abutment member, and configured to guidingly receive a fastener for the board structure; and a spacer adjustment mechanism, adapted to selectively lockingly move at least one of said first and second abutment member in a direction along said longitudinal axis.

Description

A FASTENER SETTING TOOL The present invention relates to a fastener setting tool, in particular, but not ively, to a fastener setting tool for ling fasteners into board structures and a method of using the fastener setting tool. Even more particularly, the present invention relates to a fastener setting tool, for a construction board, that has an improved width adjustment mechanism to accommodate the installation of fasteners into construction boards of a wider range of widths.

Background It is generally known that ers, such as threaded , can be used to fasten a workpiece, such as a decking board or another construction board, to a ate such as a deck. Typically, these fasteners are advanced into the workpiece vertically rds into the workpiece and into the substrate. Though, one of the drawbacks of vertically driven fasteners is that the heads of the fastener remain visible to the user when installed into the workpiece.

[0003] In order to conceal the heads of screws, various tools have been ped that can be mounted onto a workpiece, so as to hold the workpiece into position and provide a predetermined spacing between adjacent workpieces (i.e. decking ). In particular, such tools facilitate the installation by guiding ers in a direction that is angled with respect to the vertical axis. lly, these tools include a body that is held in place on top of the workpiece by a set of cooperating clamping members spaced apart so as to cover the width of the decking board. The body usually comprises guide bores angularly positioned towards the workpiece so that the fastener can be installed through the guide bore at a predetermined angle. Some tools may e cooperating clamping members that are adjustable to a d range of different widths. However, currently known tools use a relatively complicated and cumbersome adjustment mechanism to move at least one of the clamping members so as to provide for different widths. Further, the relatively complex mechanism used with these tools only allows for a very limited range of widths and may be rendered inoperable easily from dust or debris.

Consequently, it would be desirable to provide a er setting tool that can alleviate or mitigate one or more of the aforementioned problems. Particularly, it is an object of the invention to provide a fastener setting tool with a width adjustment mechanism that can provide a wider range of widths, and that is simpler and more robust than currently known tools.

The present invention provides at least an alternative to fastener setting tools of the prior art.

Summary of the Invention In accordance with a first embodiment of the present invention there is provided a fastener setting tool according to the appended claims.

According to an aspect of the t invention, there is provided a fastener setting tool, comprising: a tool body having a bottom surface and a longitudinal axis; a spacer assembly, comprising a first abutment member, having a first engagement surface, and a second abutment , having a second engagement surface opposingly spaced apart from the first engagement surface, each one of the first and second abutment member extending away from and in a direction normal to the bottom surface of the tool body, the spacer assembly being configured to cooperatingly positioningly engage the board structure; at least one fastener guide operably coupled to any one of the first and second abutment member, and configured to guidingly receive a er for the board structure; a spacer ment ism, adapted to selectively lockingly move at least one of the first and second abutment member in a direction along the longitudinal axis.

[0008] Thus, the fastener setting tool is able to engage board structures of a wider range of different sizes, such that the same fastener setting tool can be used to install a fastener into differently sized board structures (i.e. a range of different board widths). At least one of the first and second abutment member are moveable into contactingly engage with the board ure such that the fastener guide is always positioned to allow a fastener to be inserted into the board structure correctly.

Advantageously, in some embodiments, the spacer ment mechanism comprises a guideway formed in the tool body along said longitudinal axis, comprising a plurality of locking teeth operably spaced along the guideway. By providing a guideway with locking teeth, the abutment members can be moved and locked in predetermined positions defined by the equidistantly spaced locking teeth. The locking teeth may, for e, by oned such that the spacing between the nt members at those ns correspond to common sizes of board structures.

Advantageously, in some embodiments, the fastener setting tool further comprises a slider, configured to selectively lockingly engage with the locking teeth. In some embodiments, the slider is arranged on the exterior of the tool body and operably coupled to one of the first and second abutment member. By providing a slider in this way, the slider is readily engageable to move the slider along the ay, and therefore move one of the abutment members along the longitudinal axis of the tool body into a desired on.

Advantageously, in some specific embodiments, the slider is movable between an engaged on, in which the slider is lockingly engage with the locking teeth, and a disengaged position, in which the slider is disengaged from the locking teeth. This is particularly advantageous, e the slider can be disengaged from the g teeth to move the slider along the ay. When the position is to be locked in place, the slider can once again be engaged with the locking teeth. The position of the abutment members is therefore selectively lockable. This is beneficial because the position of the abutment s cannot be unintentionally changed during, for example, installation of a fastener.

Advantageously, in some embodiments, the slider is resiliently biased towards the engaged position. Therefore, the slider is, by default, engaged with the locking teeth, only disengaged from the locking teeth when the position of the abutment member(s) is to be changed.

Advantageously, in some embodiments, the locking teeth are equidistantly spaced along the guideway.

Advantageously, in some embodiments, the guideway comprises a lower guide e and an upper guide surface, each one comprising a plurality of locking teeth arranged complementary opposite to one another. The lower and upper guide surfaces cooperate so as to engage the slider in a predetermined position. By having the lower guide and upper guide surfaces in this way, the predetermined positions, in which the slider is to be locked, are more readily defined. That is, a defined space is provided between each locking portion, to e the slider.

[0015] Advantageously, in some ments, the tool body comprises a gauge configured to ly indicate the distance between the first abutment member and the second abutment member.

Advantageously, in some embodiments, the fastener setting tool further comprises a grip on an upper surface of the tool body, and a handle aligned with the grip on an opposite side away from the tool body.

Advantageously, in some embodiments, at least one of the first and second abutment member comprises a spring-loaded ism configured to bias at least one of said first and second abutment member towards each other.

Advantageously, in some embodiments, the grip is configured to actuate the spring-loaded mechanism so as to ively temporarily move the first and second abutment member away from each other. This provides the advantage of that the tool can more easily placed onto the board before the abutment member clampingly engage with the board.

Advantageously, in some embodiments, at least one of the first abutment member and the second nt member comprises a planar spacing member removably coupleable to said at least one of said first abutment member and said second nt member.

The thickness of the abutment members can be changed such that the size of the gap between nt board structures can be modified.

According to another aspect of the present invention, there is provided a method of using a fastener setting tool, comprising the steps of: (i) providing a fastener g tool according to the first embodiment of the present invention; (ii) moving at least one of the first and second abutment member into a predetermined position along the longitudinal axis; (iii) placing the fastener setting tool on a board structure such that the board structure is positioned between the first abutment member and said second abutment member; and (iv) ing a fastener into the board structure before moving the tool onto the next board.

Brief Description of the Drawings

[0022] Embodiments of the invention are now bed, by way of example only, hereinafter with reference to the accompanying drawings, in which: Figure 1 illustrates a fastener setting tool according to an embodiment of the present invention in (a) left-side view, (b) front-view and (c) rear-view; Figure 2 illustrates the fastener setting tool of Figure 1 in (a) right-side view, (b) bottom-view and (c) top-view; Figure 3 illustrates different perspective views of the fastener setting tool of Figure 1 in (a) top-left view (b) bottom-front view and (c) bottom-rear view; Figure 4 illustrates the main body portion of an embodiment of the fastener setting tool in (a) rear-right view and (b) side-view ; Figure 5 illustrates (a) a close-up side-view of the first nt member and attached spacer of an embodiment of the fastener g tool, and (b) a set of spacers and countersunk screws, as well as, a tool (Allen key) for installing the spacers to the abutment member of the fastener setting tool; Figure 6 illustrates a perspective view of the er setting tool of Figure 1 when “clamped” onto a decking board, during use; Figure 7 illustrates a schematic illustration of the moving components of the fastening g tool and inserted tool bit in (a) perspective view, (b) left-side view and (c) front-view, and Figure 8 illustrates a cross-sectional close-up view of (a) a decking screw led into a decking board at a predetermined angle and (b) a fastener setting tool with ed tool bit engaging a decking screw to be inserted into a decking board and decking frame.

Detailed Description The described example embodiment relates to a fastener lation tool and particularly to a fastener installation tool used to l a fastener into decking boards.

However, the invention is not arily restricted to a fastener lation tool for installation a fastener into a decking boards but may also be used to install a fastener into a different installation surface.

Certain terminology is used in the following description for ience only and is not limiting. The words ‘right’, ‘left’, ‘lower’, ‘upper’, ‘front’, ‘rear’, ‘upward’, ‘down’ and ‘downward’ ate directions in the drawings to which reference is made and are with respect to the described component when assembled and mounted. The words ‘inner’, ‘inwardly' and ’, ‘outwardly’ refer to directions toward and away from, respectively, a designated centreline or a geometric centre of an element being described (e.g. central axis), the particular meaning being y apparent from the context of the description.

Further, as used herein, the terms ‘connected', hed’, ‘coupled’, ‘mounted’ are intended to include direct connections between two s without any other members interposed etween, as well as, indirect connections between members in which one or more other members are interposed therebetween. The terminology includes the words specifically mentioned above, derivatives thereof, and words of similar import.

Further, unless otherwise specified, the use of ordinal adjectives, such as, “first”, “second”, “third” etc. merely indicate that different instances of like objects are being ed to and are not intended to imply that the objects so bed must be in a given sequence, either temporally, spatially, in ranking or in any other manner.

Like reference numerals are used to depict like es throughout.

Referring now to Figure 1, there is shown a fastener setting tool 100. The setting tool 100 has a main body 102 having a generally te shape extending along a longitudinal axis between a al end 104 and a distal end 106. As used throughout, the term “proximal” is used to describe the side of the fastener g tool 100 that is closer to the user during operation, wherein the term “distal” is used to describe the side of the fastener setting tool 100 that is further away from the user during operation. In this example embodiment, the main body 102 is of cuboid shape having an upper surface 108, left- and right-side es 110, 112 and a bottom surface 114.

A pair of first and second abutment members 116, 118 extend away from the bottom surface 114 and are operably d to a respective width adjustment mechanism 122, as well as, clamp handle 120, together forming a spacer assembly.

The first abutment member 116 and the second abutment member 118 are arranged so as to be spaced apart from one another along a udinal axis of the bottom surface 114. More specifically, a first engagement surface 124 of the first abutment member 116 is opposingly spaced away from a second engagement surface 126 of the second abutment member 118. In this ular example embodiment, the first abutment member 116 is provided at the proximal end 104 and the second abutment member 118 is provided at the distal end 106 of the body 102.

The clamp handle 120 protrudes from the upper surface 108 of the main body 102 and is preferably arranged axially (i.e. vertically) in line with a main handle 128. In this particular example embodiment, the clamp handle 120 is adapted to move between a first position, i.e. biased s the upper e 108 of the main body 102, and a second position, pulled towards the main handle 128. Further, the clamp handle 120 is operably coupled to the second abutment member 118 (via a suitable clamp mechanism) such that the second nt member 118 is d away from the first abutment member 116 when the clamp handle 120 is moved towards the second position, thus, (slightly) increasing the distance between the first and second engagement surfaces 124, 126. The clamp handle 120 is spring biased towards the first position, so once released, it will automatically move back into the first position. Suitable clamping mechanism are well known in the art and are therefore not bed in any more detail. Further, it is understood by the person skilled in the art that the tool 100 of the present invention may not comprise such a biased clamp mechanism without departing from the scope of the claimed invention.

As particularly shown in Figures 1(a) and 2(a), the main handle 128 extends from the upper surface 108 at the distal end 106 upwards and angled backwards towards the proximal end 104 of the main body 102 and is substantially complementary shaped to the clamp handle 120.

A first fastener guide 130 is located at the proximal end 104 of the tool body 102. The first fastener guide 130 has a first end portion 132 ng a first g 134 (see Figure 1(c)). Further, the first fastener guide 130 has a second end portion 136 at the opposing end of the first end portion 132 defining a second opening 138. A first through-bore extends between the first and second gs 134, 138 at a predetermined angle with respect to the bottom surface 114 (see Figures 1, 2 and 3, as well as, Figure 8(b)). The first fastener guide 130 is operably coupled to the first abutment member 116, i.e. it is an integral part of the abutment member 116.

[0033] A second fastener guide 140 is located at the distal end 106 of the tool body 102. The second fastener guide 140 has a first end portion 142 defining a first opening 144. Further, the second fastener guide 140 has a second end portion 146 at the opposing end of the first end portion 142 ng a second opening 148 (see Figure 3(c)). A second through-bore extends between the first and second openings 144, 148 at a predetermined angle with t to the bottom surface 114. In this particular example embodiment, the angle of the first through-bore is the same as the able of the second through-bore and may be in the region of 45 degrees with respect to a bottom surface plane. However, it is envisaged that any one of the first and second throughbore may have any other suitable angle with t to the bottom surface plane. Also, alternatively, the angle of any one of the first and second fastener guide 130, 140 (through-bore) may be adjustable via a suitable mechanism operably coupling first and second fastener guide 130, 140 to respective first and second abutment members 116, As best shown in Figures 1(a), 2(a) and 3(a), first and second abutment members 116, 118 may have a respective first and second vertical spacing portion 150, 152, each one extending towards respective distal and proximal end 106, 104 in a direction el to the bottom e 114. The first and second vertical spacing portions 150, 152 are adapted to prevent a board structure to ly contact the bottom e 114 of the fastener setting tool 100, during use.

[0035] Referring now to Figures 1(a), 2(a) and 3(a)-(c), the width adjustment mechanism 122 is operably coupled with the first abutment member 116 and comprises a guideway 154 formed within at least one side surface 110, 112 of the tool body 102.

In this particular example embodiment, respective guideways 154 are formed symmetrically within the left- and right-side surface 110, 112 extending from the proximal end 104 imately halfway towards the distal end 106. A ity of detents 156 or locking teeth are arranged equidistantly on the upper and ingly (with respect to a central longitudinal axis of the guideway 154) on the lower longitudinal edge of the guideway 154, so as to provide ng grooves along the guideway 154. A slider assembly 158 is operably arranged within the guideways 154 and coupled to the first fastener guide 130 / abutment member 116. The slider assembly 158 (and coupled fastener guide 130 and abutment member 116) is selectively le between a locked position, where the slider assembly 158 is lockingly engaged with a respective pair of upper and lower s 156 (of both ays 154), and an unlocked position, where the slider assembly 158 is pushed out of engagement with any of the upper and lower detents 156 and movable her with the first fastener guide 130 and first abutment member 116) along the guideways 154. The slider assembly 158 comprises a slider actuator 160 that biases the slider assembly 158 towards the locked position.

Thus, in order to move the first abutment member 116 within the confines of the guideways 154, the slider actuator 160 provided on one side (in this example on the left- side surface 110) of the slider assembly 158 is simply pushed inwards moving tive locking portions (not shown) of the slider assembly 158 out of engagement with the detents 156. A slider catch 162 is ed on the other side (in this example on the right-side surface 112) of the slider assembly 158. The slider catch 162 is configured to move synchronously with the slider actuator 160 in and out of engagement with respective detents 156. However, it is understood by the person skilled in the art that the slider assembly 158 may comprise a slider actuator 160 on both guideways 154, i.e. the guideway 154 of the left-side surface 110 and the ay 154 of the right-side surface 112, so that the user may selectively release and lock the slider assembly 158 from any side of the tool 100.

[0036] Slider locking mechanisms, such as the one described for this particular example embodiment, are well known in the art (e.g. utility knifes) and are therefore not described in any more detail. Also, it is understood that any other suitable slider locking mechanism may be used to selectively move and lock any one of the first and/or second abutment member 116 into a plurality of predetermined positions. For example, in an alternative ment, lock and release of the slider assembly 158 within the guideway(s) 154 may be provided by a simple screw clamp ism (also well known in the art).

Further, in another alternative embodiment, the width adjustment mechanism 122 may only se a guideway 154 at one of the two side surfaces 110, 112.

[0038] Referring now to Figures 4(a) and (b), the tool 100 of the present example embodiment comprises a scale 164 that is provided in line with at least one guideway 154 of the width adjustment mechanism 122. The scale 164 may be removably attached to one or both side surface(s) 110, 112, so that is can be replaced, if, for example, used in countries with a different measurement system (e.g. UK – imperial, y – metric etc). The scale may be magnetically ed (e.g. into a matchingly shaped depression within the side surface 110, 112), fastened via screws or clips. The scale 164 is arranged, so as to indicate the width between the first and second abutment member 116, 118, and in particular, between the first and second engagement surfaces 124, 126. A le arrow 166 may be provided at the e first abutment member 116.

[0039] In addition, the tool 100 of the present example ment comprises a bit holder 168, for example, incorporated into one of the side surfaces 110, 112 of the main body 102. The bit holder 168 is adapted to retainingly store a (tool) bit 170 when not used for installing deck screws. Any suitable retaining mechanism (e.g. a spring clamp or a magnet) may be used to securely but removably mount the bit 170 into the bit holder 168.

Referring now to Figure 5 (a) in ular, each one of the first and second abutment members 116, 118 has a fixed predetermined thickness, which is the minimum spacing obtainable between decking boards, during installation. In this particular example, the minimum spacing may be 3.0 mm. In order to provide for different spacings between the g boards 200, the tool 100 is provided with additional spacers 172 that are attachable (e.g. via countersunk screws 174) to first and second engagement surfaces 124, 126 of respective first and second abutment members 116, 118. Spacers 172 of ent thicknesses may be provided so as to add to the minimum ess of the abutment member 116, 118. For example, spacers 172 may be provided in thicknesses of 1.5 mm and 3.0 mm, allowing combined thicknesses of 4.5 mm or 6.0 mm, respectively. Also, various spacers 172 may be combined so as to add to the existing thickness of the abutment member 116, 118, e.g. first spacer (3.0 mm) plus second spacer (1.5 mm) plus the minimum thickness of the abutment member (3.0 mm) giving a total board spacing of 7.5 mm. Any other combination of different or equal spacers 172 may be used to achieve a desired board spacing.

The function of the er setting tool 100 will now be described with particular reference to Figures 6, 7 and 8.

When used with a ular set of decking boards 200, the user first adjusts the tool 100 to the correct width of that g board 200 by simply g the tool 100 onto the decking board 200 and moving the first abutment member 116 into engagement with the side surface of the decking board 200, so that both, first and second engagement surface 124, 126 touch respective side surfaces of the decking board 200.

To move the first abutment member 116, the user simply pushes the slider actuator 160 in, releasing the slider assembly 158 from locking engagement with the detents 156 and then moves the slider assembly 158 and first abutment member 116 (as well as first fastener guide 130) along the guideway 154 into a desired position. The slider actuator 160 is then released and the slider ly 158 is automatically biased back into locking engagement with respective detents 156. The tool 100 is now set up for a decking board 200 of a particular width.

When fixing the decking boards 200 to a decking frame 400 (see Figure 8), the user grabs the main handle 128 and squeezes the clamp handle 120, thus, increasing the spacing between the first and second engagement surfaces 124, 126 (i.e. pivoting the second abutment member 118 away from the first abutment member 116) and allowing the first and second abutment members 116, 118 to be placed over the decking board 200. When the clamp handle 120 is released, the spring biased second abutment member 118 automatically moves back into its start on, providing a “clamping” pressure and ng the tool 100 onto the board 200 for an accurate installation of a decking screw 300 (see Figure 8).

When the tool 100 is readily fixated onto the board 200, the deck screw 300 is inserted into the fastener guide 130, 140 (depending on the position of the tool 100 on the board 200) followed by a suitable tool bit 170 (attached to a power tool or hand tool) to engage with the screw head and rotatingly move the screw 300 into the decking board 200 at the predetermined angle of the fastener guide 130, 140. The shape or inner e of the fastener guide 130, 140 and associated tool bit 170 has been configured and optimised so that the bit 170 automatically moves out of engagement with the screw head when the deck screw 300 is at a predetermined depth within the decking board 200 and decking frame 400 (e.g. a shoulder portion of the bit 170 abuttingly engages with the first end portion 132, 142 of any one of the first and second fastener guide 130, 140).

After the deck screw 400 has been inserted into the board 200 and frame 400 and the tool bit 170 (and attached power- or hand tool) has been removed, the tool 100 is simply released from the board 200 by squeezing the clamp handle 120 to then be moved into its next position on this or another decking board 200.

In the event the user wishes to increase the minimum board spacing provided by the first and second abutment s 116, 118, one or more spacers 172 of a predetermined thickness may be attached to first and/or second engagement surface 124, 126 utilising countersunk screws 174.

[0047] Through the description and claims of this specification, the words “comprise” and “contain” and variations of them mean “including but not limited to”, and they are not intended to (and do not) exclude other moieties, additives, components, integers or steps. Throughout the description and claims of this specification, the singular encompasses the plural unless the context otherwise requires. In particular, where the indefinite article is used, the ication is to be tood as contemplating plurality as well as singularity, unless the t requires otherwise. es, integers, characteristics, compounds, chemical moieties or groups described in conjunction with a particular aspect, ment or example of the ion are to be understood to be applicable to any other , embodiment or e described herein unless incompatible therewith. All of the features sed in this specification ding any accompanying claims, abstract and drawings), and/or all of the steps of any method or process so disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive. The invention is not restricted to the details of any foregoing embodiments. The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying , abstract or drawings), or to any novel one, or any novel combination, of the steps of any method or process so disclosed.

[0049] It will be appreciated by persons skilled in the art that the above embodiment(s) have been described by way of example only and not in any limitative sense, and that various tions and modifications are possible without departing from the scope of the invention as defined by the ed claims. Various modifications to the detailed designs as described above are possible.

Reference number list: 100 tool 158 slider assembly 102 main body 160 slider actuator 104 proximal end 162 slider catch 106 distal end 164 scale 108 upper surface 166 arrow 110 left side surface 168 tool bit holder 112 right side e 170 tool bit 114 bottom e 172 spacers 116 first abutment member 174 screws 118 second abutment member 120 clamp handle 122 width adjustment mechanism 124 first ment surface 126 second engagement surface 128 main handle 130 first fastener guide 132 first end portion 134 first g 136 second end portion 138 second opening 140 second fastener guide 142 first end portion 144 first opening 146 second end portion 148 second opening 150 first spacing portion 152 second spacing portion 154 guideway 156 detents

Claims (14)

1. A er setting tool for installing a fastener into a board ure, comprising: a tool body having a bottom surface and a longitudinal axis; a spacer assembly, comprising a first nt member, having a first engagement surface, and a second abutment member, having a second engagement surface opposingly spaced apart from said first engagement surface, each one of said first and second abutment member extending away from and in a direction normal to said bottom surface of said tool body, said spacer assembly being configured to cooperatingly positioningly engage the board structure; at least one fastener guide ly coupled to any one of said first and second abutment member, and configured to guidingly e a fastener for the board structure; and a spacer ment mechanism, adapted to selectively lockingly move at least one of said first and second abutment member in a direction along said longitudinal axis.

2. A fastener setting tool according to claim 1, wherein said spacer adjustment mechanism comprises a guideway formed in said tool body along said longitudinal axis and having a plurality of locking teeth operably spaced along said guideway.

3. A fastener setting tool according to claim 2, further comprising a slider configured to ively lockingly engage with said locking teeth.

4. A fastener setting tool ing to claim 2 or claim 3, wherein said slider is arranged on the exterior of said tool body and operably coupled to one of said first and second abutment member.

5. A fastener setting tool according to any claim 3 or claim 4, wherein said slider is e n an engaged position, in which said slider is lockingly engaged with said locking teeth, and a disengaged position, in which said slider is disengaged from said locking teeth.

6. A fastener setting tool according to claim 5, wherein said slider is resiliently biased towards said engaged position.

7. A fastener setting tool according to any one of claims 2 to 6, wherein said locking teeth are equidistantly spaced along said guideway.

8. A fastener setting tool according to any one of claims 2 to 7, wherein said guideway comprises a lower guide surface and an upper guide surface, each one comprising a plurality of locking teeth ed complementary te to one another.

9. A fastener setting tool according to any one of the preceding claims, wherein said tool body further comprises a gauge configured to visually indicate the distance between said first abutment member and said second abutment member.

10. A fastener setting tool according to any one of the preceding claims, further comprising a grip on an upper surface of said tool body, and a handle aligned with said grip on an opposite side away from said tool body.

11. A fastener setting tool ing to any one of the preceding claims, wherein at least one of said first and second abutment members comprises a spring loaded mechanism configured to bias said at least one of said first and second abutment members towards each other.

12. A er setting tool according to claim 11, wherein said grip is configured to actuate said spring loaded mechanism, so as to ively temporarily move said first and second abutment member away from each other by a predetermined distance.

13. A fastener setting tool according to any one of the preceding claims, wherein at least one of said first abutment member and said second nt member comprises a planar spacing member removably coupleable with said at least one of said first abutment member and said second abutment member.

14. A method of using a fastener setting tool, including the steps of: (i) providing a fastener setting tool according to any one of the preceding claims, (ii) moving at least one of said first and second nt member into a predetermined position along said longitudinal axis; (iii) g said fastener setting tool on a board structure such that the board structure is positioned between said first abutment member and said second abutment member; and (v) inserting a er into the board structure before moving the tool onto the next board. ABSTRACT A FASTENER SETTING TOOL The present ion relates to a fastener setting tool for installing a er into a board structure, comprising a tool body having a bottom surface and a longitudinal axis; a spacer assembly, comprising a first abutment member, having a first engagement surface, and a second abutment member, having a second engagement surface opposingly spaced apart from said first engagement e, each one of said first and second abutment member extending away from and in a direction normal to said bottom surface of said tool body, said spacer assembly being configured to cooperatingly positioningly engage the board structure; at least one fastener guide operably coupled to any one of said first and second nt member, and configured to guidingly receive a fastener for the board structure; and a spacer adjustment mechanism, adapted to selectively lockingly move at least one of said first and second abutment member in a ion along said longitudinal axis. [ 108 122 140 130 106 152 150 118 (a) 124 144 134 112 112 110 132 118 116 (b) (c) 158 156 116 118 114 152 100 128 140 154 172 132 (b) (c) 0 0 0 2 0 1 (b) (c) FIG. 8