The present invention is generally directed to fastener driving devices. More specifically, the present invention is directed to a fastener driving device that includes an adjustable shoe for flooring applications.
Tongue and groove type flooring is manufactured in different thicknesses. However, most flooring tools have fixed surfaces that define the placement of the fastener in the flooring board. For example, one surface is placed on top of the flooring board, and another surface is position on a front face of the flooring board, just above the tongue of the flooring board to be fastened to the sub-floor. The engine and associated drive track has already been fixed relative to the fixed surfaces of the tool such that the engine will drive the fastener into the board at a predetermined location (e.g. just above the tongue at an angle). This works well if the flooring tool is specifically designed for that thickness of board. However, if a thinner board is to be attached to the sub-floor, either a different tool should be used, or a shim should be attached to the tool, thereby moving the location of the drive track relative to the top surface of the flooring board when the tool is placed on the top surface of the flooring. Similarly, if a thicker board is to be attached to the sub-floor, a different tool should be used, or a shim, if there is one, should be removed from the tool. The use of shims may become cumbersome, because each thickness of flooring board should have its own associated shim. Because shims are physically removed from the tool, they may be misplaced. It is, therefore, desirable to have a single flooring tool that may be more easily adjusted to accommodate different sizes of flooring boards.
Conventional flooring tools include a pad that is fastened to the frame of the tool with a plurality of fasteners. The pad includes a plurality of holes through which the fasteners pass through. The holes are designed to allow the heads of the fasteners to be recessed in from the surface of the pad that contacts the flooring board. However, over time, these fasteners may become loose and work their way out of the holes. The user of the tool may not realize this until the heads of the fasteners scratch or mar the flooring board. It is, therefore, desirable to have a flooring tool that is designed so that the flooring boards are protected from such accidental damage.
It is an aspect of the present invention to provide a fastener driving device that can be used to fasten flooring boards of different thicknesses to a sub-floor.
In an embodiment, a fastener driving device for fastening a flooring board to a sub-floor is provided. Each flooring board has a top surface, a tongue, and a front surface connecting the top surface and the tongue. The device includes a housing containing an engine for driving a fastener through the flooring board and into the sub-floor, a magazine for supplying a plurality of fasteners for the engine to drive, a handle for receiving a user's hand, and a shoe connected to the housing. The shoe is configured to locate the engine relative to the flooring board so that the fastener is driven into the flooring board at an angle. The shoe includes a bottom workpiece engaging surface for engaging the top surface of the flooring board, and a forward workpiece engaging surface for engaging the front surface of the flooring board. An exposure of the forward workpiece engaging surface is adjustable between a minimum exposure and a maximum exposure to accommodate different thicknesses of the flooring boards.
In another embodiment, a fastener driving device for fastening flooring boards to a sub-floor is provided. Each flooring board has a top surface, a tongue, and a front surface connecting the top surface and the tongue. The device includes a housing containing an engine for driving a fastener through the flooring board and into the sub-floor, a nosepiece through which fasteners are driven, a magazine for supplying a plurality of fasteners for the engine to drive, a handle for receiving a user's hand, and a shoe mounted for movement relative to said nosepiece. The shoe is configured to locate the engine relative to the flooring board so that the fastener is driven into the flooring board at an angle. The shoe includes a bottom workpiece engaging surface for engaging the top surface of the flooring board, and the nosepiece includes a forward workpiece engaging surface for engaging the front surface of the flooring board. The forward workpiece engaging surface extends a distance below the bottom workpiece engaging surface. One of the bottom workpiece engaging surface and the forward workpiece engaging surface is movable with respect to the other to adjust the distance that the forward workpiece engaging surface extends below said bottom workpiece engaging surface.
It is also an aspect of the present invention to provide a shoe for a fastener driving device that allows the fastener driving device to be used to fasten flooring boards of different thicknesses to a sub-floor.
In an embodiment, a shoe for coupling with a fastener driving device is provided. The shoe is configured to locate an engine of the fastener driving device relative to a flooring board so that a fastener is driven into the flooring board at an angle. The flooring board includes a top surface, a tongue, and a front surface that connects the top surface and the tongue. The shoe includes a bottom workpiece engaging surface for engaging the top surface of the flooring board, and a forward workpiece engaging surface for engaging the front surface of the flooring board. An exposure of the forward workpiece engaging surface is adjustable between a minimum exposure and a maximum exposure to accommodate different thicknesses of the flooring boards.
In another embodiment, a shoe for coupling with a fastener driving device is provided. The shoe is configured to locate an engine of the fastener driving device relative to a flooring board so that a fastener is driven into the flooring board at an angle. The flooring board includes a top surface, a tongue, and a front surface that connects the top surface and the tongue. The shoe includes a bottom workpiece engaging surface for engaging the top surface of the flooring board, and a forward workpiece engaging surface for engaging the front surface of the flooring board. The forward workpiece engaging surface extends a distance below the bottom workpiece engaging surface. One of the bottom workpiece engaging surface and the forward workpiece engaging surface is movable with respect to the other to adjust the distance that the forward workpiece engaging surface extends below the bottom workpiece engaging surface.
In an embodiment, an adjustment mechanism includes a bottom workpiece engaging surface for engaging a top surface of a flooring board, and a forward workpiece engaging surface for engaging a front surface of the flooring board. One of the bottom workpiece engaging surface and the forward workpiece engaging surface is movable with respect to the other to adjust a distance that the forward workpiece engaging surface extends below the bottom workpiece engaging surface.
It is also an aspect of the present invention to provide a method for adjusting a fastener driving device for driving fasteners into flooring boards of different thicknesses.
In an embodiment a method for adjusting a fastener driving device for driving fasteners into flooring boards of different thicknesses is provided. The fastener driving device includes a bottom workpiece engaging surface for engaging a top surface of a flooring board and a forward workpiece engaging surface for engaging a front surface of the flooring board. The method includes moving one of the bottom workpiece engaging surface and the forward workpiece engaging surface with respect to the other to adjust a distance that the forward workpiece engaging surface extends below the bottom workpiece engaging surface, and subsequently preventing the bottom workpiece engaging surface from moving relative to the forward workpiece engaging surface.
It is an aspect of the present invention to provide a fastener driving device that can be used to fasten flooring boards to a sub-floor without the risk of damaging the flooring boards over time.
In an embodiment, a fastener driving device for fastening flooring boards to a sub-floor is provided. Each flooring board has a top surface, a tongue, and a front surface connecting the top surface and the tongue. The device includes a housing containing an engine for driving a fastener through the flooring board and into the sub-floor, a nosepiece through which fasteners are driven, a magazine for supplying a plurality of fasteners for the engine to drive, and a shoe mounted to the housing. The shoe includes a bottom workpiece engaging surface that is configured to engage the top surface of the flooring board and locate the engine relative to the flooring board so that the fastener is driven into the flooring board at an angle. The shoe is mounted to the housing without the use of a fastener passing through the bottom workpiece engaging surface.
Other aspects, features, and advantages of the present invention will become apparent from the following detailed description, the accompanying drawings, and the appended claims.
Features of the invention are shown in the drawings, in which like reference numerals designate like elements. The drawings form part of this original disclosure, in which:
A fastener driving device 10 for fastening a flooring board 2 to a sub-floor 4 in accordance with an embodiment of the invention is shown in
The engine 14 may be of any type of engine 14 that is used in flooring nailers. For example, the engine 14 may be of a manually actuated type that converts energy provided by the user into energy that drives the fastener. Such engines 14 are described in, for example, U.S. Pat. No. 3,281,046, which is incorporated herein by reference. The engine 14 may also be of a pneumatic type that uses compressed gas, such as air, to power the engine 14 to drive the fastener upon actuation of an actuator 15, such as the actuator shown in
The magazine 16 may include a spring biased pusher that is configured to supply a plurality of fasteners to the nose so that the engine 14 may drive the fasteners, one by one, into the flooring board 2. The fasteners may be staples, cleats, wire nails, or any other type of fastener that may be used to secure the flooring board 2 to the sub-floor 4.
The handle 18 includes a grip 20 at an end that is opposite the end that is connected to the shoe 12. The grip 20 is configured to be grasped by a user's hand. The grip 20 may be of any shape, but is preferably shaped so that it is relatively easy for a person to firmly grasp and hold the device 10. The grip 20 may be molded from plastic or rubber and may be attached to the handle 18 with fasteners, such as screws. Alternatively, the grip 20 may be press fit or even insert molded onto a portion of the handle. It is also contemplated that the grip 20 may be an integral part of the handle 18. The illustrated embodiments should not be considered to be limiting in any way.
The fixed portion 62 includes a forward workpiece engaging surface 70 that is configured to engage a front surface 8 of the flooring board 2. The forward workpiece engaging surface 70 is preferably substantially perpendicular to the bottom workpiece engaging surface 68. As shown in
Thus, to accommodate different sizes of flooring boards 2 with the same device 10, and to properly locate fasteners 1 being driven from the engine 14 into the flooring boards 2 of different sizes at the proper angle α, the movable portion 64 of the shoe 60 is movable so that exposure of the forward workpiece engaging surface 70 may be adjusted between a minimum exposure and a maximum exposure. The exposure of the forward workpiece engaging surface 70 is generally defined as the height of the exposed forward workpiece engaging surface 70 that is below the bottom workpiece engaging surface 68, and is available to engage the front surface 8 of the flooring board 2. It is understood the “below” the bottom workpiece engaging surface 68 does not necessarily mean directly below, but generally means that the forward workpiece engaging surface 70 is below a plane that includes the bottom workpiece engaging surface 68, as shown in the figures.
For example, the flooring board 2 shown in
In another embodiment (not shown), the forward workpiece engaging surface is carried by a moveable portion of the shoe, and the bottom workpiece engaging surface is located on a fixed portion of the shoe. Any structural arrangement is contemplated, as long as the exposure of the forward workpiece engaging surface is adjustable between the minimum exposure and the maximum exposure.
In the illustrated embodiment, the shoe 60 also includes a lock 72 that locks the movable portion 64 into a pre-selected position, such as one of the positions shown in
The lock 72 further includes a protrusion 80 that extends from a top side of the wedge shaped body 66, as shown in
To adjust the height of the surface 70 of the fixed portion 62 for thicker or thinner flooring boards 2, the user simply pushes the engaging member 82 against the bias of the biasing member until the teeth 84 of the engaging member 82 disengage from the teeth 78 on the indexing plate 74, thereby allowing the wedge shaped body 66 to be moved along a plane PL, shown in
The engine 214 may be of any type of engine 214 that is used in flooring nailers. For example, like the engine 14 described above, the engine 214 may be of a manually actuated type that converts energy provided by the user into energy that drives the fastener. The engine 214 may also be of a pneumatic type that uses compressed gas, such as air, to power the engine 214 to drive the fastener upon actuation of an actuator 215, such as the actuator shown in
The nosepiece 215 defines a drive track therein. The fasteners are driven out of the drive track by a driver that is associated with the engine 214. As shown, the nosepiece 215 is attached to the housing 211 with at least one fastener 217. It is also contemplated that the nosepiece 215 may be integrally formed with the housing 211. The illustrated embodiment is not intended to be limiting in any way.
The magazine 216 may include a spring biased pusher that is configured to supply a plurality of fasteners to the nosepiece 215 so that the engine 214 may drive the fasteners, one by one, into the flooring board 2. As discussed above, the fasteners may be staples, cleats, wire nails, or any other type of fastener that may be used to secure the flooring board 2 to the sub-floor 4.
The handle 218 includes a grip 220 at an end that is opposite the end that is received by the housing 211. The grip 220 is configured to be grasped by a user's hand. The grip 220 may be of any shape, but is preferably shaped so that it is relatively easy for a person to firmly grasp and hold the device 210. The grip 220 may be molded from plastic or rubber and may be attached to the handle 218 with fasteners, such as screws. Alternatively, the grip 220 may be press fit or even insert molded onto a portion of the handle. It is also contemplated that the grip 220 may be an integral part of the handle 218. The illustrated embodiments should not be considered to be limiting in any way.
As shown in
The nosepiece 215 includes a forward workpiece engaging surface 270 that is configured to engage a front surface 8 of the flooring board 2. As shown in
Thus, to accommodate different sizes of flooring boards 2 with the same device 210, and to properly locate fasteners into the flooring boards 2 of different sizes at the proper angle, the shoe 212, more specifically the wedge shaped body 266, is movable so that a distance that the forward workpiece engaging surface 270 extends below the bottom workpiece engaging surface 268 of the shoe 212 may be adjusted between a minimum distance and a maximum distance. It is understood the “below” the bottom workpiece engaging surface 268 does not necessarily mean directly below, but generally means that the forward workpiece engaging surface 270 is below a plane that includes the bottom workpiece engaging surface 268, as shown in the figures. In an embodiment, the flooring board 2 shown in
For example, when a thinner flooring board 2a is being fastened to the sub-floor 4, as shown in
The device 210 also includes a lock 272 that locks the shoe 212 into a pre-selected position, such as one of the positions shown in
The lock 272 further includes a protrusion 280 that extends from a top side of the wedge shaped body 266, as shown in
To adjust the distance between the forward workpiece engaging surface 272 located on the nosepiece 215 and the bottom workpiece engaging surface 268 on the shoe 212, for thicker or thinner flooring boards 2, the user simply pushes the engaging member 282 against the bias of the biasing member until the teeth of the engaging member 282 disengage from the teeth on the indexing plate 274, thereby allowing the wedge shaped body 266 to be moved along a plane PL, shown in
As shown in
As shown in
It has been found that by connecting the shoe 212 to the housing 211 from a location that is above and away from the bottom workpiece engaging surface 268, there is essentially no risk of damaging the flooring over time. This is because embodiments of the present invention allow the bottom workpiece engaging surface 268 of the shoe 212 to be connected to the housing 211 via the lock 272, without the use of fasteners that pass through the bottom workpiece engaging surface 268. The bottom workpiece engaging surface 268 is preferably substantially continuous. Although the bottom workpiece engaging surface 268 may not be completely continuous (e.g., indentations and/or small holes may be present as a result of the manufacturing procees), no fasteners pass through the surface 268. As such, there is no risk of such fasteners extending past the bottom workpiece engaging surface 268 over time and potentially damaging the flooring.
All of the various features and mechanisms described with respect to the specific embodiments may be interchanged with the various embodiments described, or may be used with other variations or embodiments.
The foregoing illustrated embodiments have been provided solely for illustrating the structural and functional principles of the present invention and are not intended to be limiting. To the contrary, the present invention is intended to encompass all modifications, alterations, substitutions, and equivalents within the spirit and scope of the following claims.
The present application claims the benefit of priority from U.S. Provisional Patent Application No. 60/681,958, filed May 18, 2005 and entitled “FASTENER DRIVING DEVICE WITH ADJUSTABLE FEATURES,” the entire content of which is incorporated herein by reference.
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