The present invention relates in general to fasteners, and, more particularly, to a system and method for driving a fastener.
A wide variety of fastener configurations for securing structural members to other members are known. In one example, a deck fastener may be used for securing decking members to associated joists in the construction of an exterior deck, or the like. It is desirable that deck fasteners be configured for securing decking members to associated joists without a fastener head protruding from a deck surface. An example of a fastener having such a configuration is described in U.S. Pat. No. 5,927,923 (hereinafter “923 patent”), which is incorporated herein by reference. Fasteners as described for example in the '923 patent have an irregular geometric configuration including multiple body/prong portions angularly oriented relative to each other.
As a result of the irregular geometric configuration of such fasteners they have been driven manually without the use of a guiding tool or automated driving tool such as a pneumatic nailer. To achieve improved efficiency in driving such fasteners, there is a need for an improved system and method for driving such fasteners and a method of collating such fasteners.
For a better understanding of the present invention, together with other objects, features and advantages, reference should be made to the following detailed description which should be read in conjunction with the accompanying figures, wherein:
a-12c depict top cross-sectional views of alternative configurations of a system for driving an offset fastener consistent with the present invention;
For ease of explanation, systems consistent with the invention may be shown and described herein in connection with the fastener described in the '923 patent. For example, a fastener 123 may include a long body 135 and a short body 134, which may be obliquely angled relative to one another, i.e., at an angle that is neither parallel nor perpendicular. It will be recognized, however, a system and method consistent with the present invention will be useful in connection with a wide variety of fastener configurations. In addition, exemplary embodiments may be described herein in connection with fastening of decking members to associated joists. It is to be understood, however, that a system and method consistent with the invention may be useful in connection with fasteners configured for use with any type of material including wood, composite materials, concrete, metal, plastic, textiles and other materials. The exemplary embodiments described herein are thus provided only by way of illustration, and are not intended to be limiting.
Turning to
In the illustrated exemplary embodiment, a nose or adapter 122 is affixed, e.g. removably, to the tool body. The nose 122 includes a channel 124 for receiving the driver blade 120 as the driver blade is forced outwardly from the tool body 121. A fastener 123 may be positioned in the channel 124 beneath the driver blade 120. As the driver blade 120 is forced outwardly from the tool body, the blade 120 may contact the top of the fastener 123 to force the fastener outward from the end 125 of the channel and into a target, such as a decking member, positioned beneath the nose 122. As will be recognized by those of ordinary skilled in the art, the tool may be configured to provide or impart a desired level of force to the fastener through the blade to achieve a desired depth of penetration of the fastener into the target member.
The fastener 123 may be positioned in the channel 124 by pusher 132 which may be biased against one or more fasteners, e.g., by an associated spring 133. The pusher 132 and the spring 133 may be assembled in a magazine 131 for receiving a plurality of fasteners. The pusher 132 may engage the last of a group of fasteners, e.g. as shown in
With reference also to
As shown, the guide member 126 may be biased to intersect only a portion of the channel 124 to allow the driver blade 120 to force a long body 135 of the fastener 123 past the guide member without forcing the guide member 126 into the pocket 128. As the fastener 123 is forced downward, a short body 134 of the fastener may contact the guide member 126. The guide member 126 may guide the short body 134 through the channel 124 under the force of the spring 129. As the short body 134 of the fastener exits the nose, the guide member 126 may be forced completely out of the path of the fastener 123 and into the pocket 128.
In the foregoing manner, when the guide member 126 is positioned to intersect a portion of the channel 124, an opening may be defined which may be generally complimentary to the geometry of the long body 135. The opening defined by the channel 124 and the guide member 126 may at least partially restrict the movement of the fastener 123 other than generally along the axis of the channel 124. The fastener 123 may, in the foregoing manner, resist becoming cocked within the channel 124, or otherwise moving out of a desired alignment relative to the nose 122.
The guide member 126 may be provided in a variety of configurations, and may include one or more guiding components.
Consistent with the various foregoing embodiments, the system may utilize one or more guide members capable of intersecting at least a portion of the channel, in at least one position of the guide members, to at least partially restrict or control the movement of the long body 135 relative to the channel 124 in at least one direction. The guide members may be movable relative to the channel to permit the passage of the short body 134 of the fastener 123. In the foregoing manner, the system may include a passage for driving a fastener having a first body portion, e.g., the long body 135, and a second body portion, e.g., the short body 134. The passage may include a first channel portion for receiving the long body 135 of the fastener 123. The one or more guide members may be movable to define a second channel portion for receiving the short body 134. In the illustrated embodiments, guide members may be moved, deflected, deformed, etc. to permit passage of the short body 134 when contacted by the short body 134. In various additional embodiments, the guide members may also be biased and/or moved by a power supply such as an air, gas, electric, or other power source.
Turning now to
As shown, the nose 302 may include an opening 303 for receiving the fasteners and orienting the fasteners in the channel 124. The fasteners may be fed into the opening 303 by a pusher 309, which may be biased against the strip 300 of fasteners by a spring 308. The fasteners may ride along a guide rail 306, as shown. An opening 307 may be provided in the magazine to accommodate an external knob or handle 304 useful for retracting the pusher for loading the fasteners.
Turning to
As shown in
A nose 1202 may be coupled to the tool body 121 to align a first channel 1204 in the nose 1202 with the driver blade 120 of the tool body 121. The first channel 1204 may at least partially receive the driver blade 120 when the driver blade is driven outwardly from the tool body 121. The main body 1302 of a fastener 1300 may be at least partially received in the channel 1204 beneath the driver blade 120. The driver blade 120 may be driven outwardly from the tool body 121 to contact at least a portion of the fastener 1300 to force the fastener 1300 outwardly from the end 1206 of the nose 1202. The force applied by the driver blade 120 to the fastener 1300, as well as the outward travel of the driver blade 120 may be adapted to force the fastener 1300 from the nose 1202 to achieve a desired penetration depth of the fastener 1300 into a target member.
The fastener 1300 may be positioned in the first channel 1204 by a pusher 1208, which may be biased against one or more fasteners, e.g., by an associated spring 1210. In one embodiment, the pusher 1208 and spring 1210 may be associated with a magazine 1212, which may be coupled to the nose 1202 and may be adapted to deliver one or more fasteners 1300 to the nose 1202. The magazine 1212 may have a variety of configurations for delivering one or more fasteners 1300 to the first channel 1204 from a variety of positions relative to the tool body 121, e.g., from either side, the front, or the back of the tool body 121. For example, as shown a fastener 1300a may be positioned to be fed into the channel 1204 once the fastener 1300 has been driven from the channel 1204.
With additional reference also to
The channels 1204, 1214 accommodating the main body 1302 and short body 1304 of the fastener 1300 may at least partially guide or stabilize the fastener 1300 in the nose 1202 and as the fastener is driven from the nose 1202. For example, the main body 1302 of the fastener 1300 may be disposed in, and travel through, the first channel 1204. The first channel 1204 may have geometry that may be generally complimentary to the geometry of the main body 1302 of the fastener 1300. Movement of the fastener 1300, other than axially through the channels 1204, 1214, may be at least partially restricted by the complimentary geometries of the main body 1302 and the first channel 1204. Furthermore, the main body 1302 of the fastener 1300 may be at least partially supported, e.g., against buckling upon impact with a target member, by the complimentary geometry of the first channel 1204. Similarly, or alternatively, the second channel 1214 may have a geometry that is generally complimentary to the short body 1304 of the fastener 1300, and may also at least partially restrict the movement of the fastener 1300 in the first and second channels 1204, 1214. As mentioned, the at least partial intersection between the first and second channels 1204, 1214 may accommodate the offset 1306 connecting the main body 1302 and short body 1304 of the fastener 1300, allowing the fastener 1300 to be forced down the channels 1204, 1214 and to be delivered from the nose 1202. Accordingly, consistent with the present invention a system is provided including a passage for driving a fastener having first and second body portions, i.e., offset main and short body portions 1302, 1302. The passage may include first and second channel portions adapted to receive first and second portions of the fastener.
Turning to
According to one aspect, there is disclosed an apparatus for driving a fastener including a nose having a passageway including a first channel portion and a second channel portion. The first channel portion may be adapted to receive a first fastener body portion and the second channel portion may be adapted to receive a second fastener body portion. The first and second fastener body portions may be obliquely angled relative to one another. The apparatus may also include a driver blade configured to apply a force to a first end of the fastener for driving the fastener at least partially from the passageway.
According to another aspect, there is provided an apparatus for driving a fastener having a long body portion and a short body portion obliquely angled relative one another. The apparatus include a body defining a channel configured to receive the fastener therein. A driver blade is provided capable of forcing said fastener from an end of said channel. The apparatus may also include a guide member biased toward a first position intersecting at least a portion of the channel.
The terms and expressions which have been employed herein are used as terms of description and not of limitation, and there is no intention, in the use of such terms and expressions, of excluding any equivalents of the features shown and described (or portions thereof), and it is recognized that various modifications are possible within the scope of the claims. Other modifications, variations, and alternatives are also possible.
This application claims the benefit of U.S. provisional patent application Ser. No. 60/674,722, filed Apr. 26, 2005, the entire disclosure of which is incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2006/015742 | 4/26/2006 | WO | 00 | 6/24/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2006/116464 | 11/2/2006 | WO | A |
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Number | Date | Country | |
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20090166391 A1 | Jul 2009 | US |
Number | Date | Country | |
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60674772 | Apr 2005 | US |