Band Tensioning Tool
A band tensioning tool is provided that includes an easily replaceable blade and knife. More specifically, a banding apparatus is provided that does not require that a maintenance cover be removed to gain access to a knife, a front gripper, and a blade. This feature reduces tool head height, and the blade is interconnected to the tool head as opposed to being contained within the tool head and supported in a cantilevered manner.
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This application claims the benefit of U.S. Provisional Patent Application Ser. No. 61/595,968, filed Feb. 7, 2012, the entire disclosure of which is incorporated by reference herein.
This application is also related to abandoned U.S. Patent Application Publication No. 2005/0166990, filed Aug. 4, 2005, which is incorporated by reference herein. This application is also related to U.S. Pat. No. 7,650,680, filed Oct. 17, 2005, which is also incorporated by reference herein.
FIELD OF THE INVENTIONEmbodiments of the present invention are generally related to a tensioning tool for banding objects, and in particular, a banding tool with an improved band gripping mechanism.
BACKGROUND OF THE INVENTIONBand tensioning tools are used for fixedly securing plastic or metal bands about objects. The objects secured by the bands may include sensors, heat shields, cables, poles, signage, and pipes. For example, the band tightening tool of U.S. Pat. No. 5,566,726, which is incorporated by reference herein, employs a band gripping mechanism (also denoted a “tension block”) that repeatedly grips and tensions a band about an object(s) being banded. To tension a band, the tension block is first moved along a length of the band in a first direction generally toward the object(s) being banded. The tension block then engages the band and moves generally away from the objects being banded to incrementally tension the band. The tension block grips the band with a cylindrical pin having an axis that is oriented along the width of the band. The cylindrical pin may be biased by a spring, or other biasing device, to ensure firm engagement with the band when the tension block is pulled generally away from the object(s) being banded. After the tension block has moved its full extent away from the object(s) being banded, the tension block is released from the band so that it can be moved to another location on the band to begin another incremented tension cycle. When the tension block is moved, band tension is maintained by a front gripper that selectively contacts the band between the tension block and the objects being banded.
The front gripper 8 also includes an inclined lateral opening 56 and a gripping pin 60 that moves within an opening 76. The gripping pin 60 is biased toward a proximal end 64 of the opening 56. When the tension block 4 is not tensioning the band 12, i.e., moving in the direction of arrow 44, the gripping pin 60 of the front gripper 8 frictionally engages the band 12 so that it is not slackened by a band tension counterforce acting in the direction of arrow 68. Once the tension block 4 has completed its movement toward the front gripper 8, it reverses direction, thereby causing the pin 36 to securely engage the band 12 and pull it in the direction of arrow 48. Movement of the band 12 in the direction of arrow 48 causes the gripping pin 60 to disengage from the band 12, thereby allowing the band 12 to be pulled into the band tightening tool 2.
After the tension block and the front gripper perform their respective portions of tensioning the band and maintaining band tension, the band is severed and clamped. A stationary blade is provided beneath the front gripper and a movable knife is provided forward of the front gripper. The knife moves relative to the blade to sever a band positioned therebetween. More specifically, once the desired band tension is achieved, a linkage is moved that moves the knife closer to the blade which compresses the band to eventually sever the same. The gap between the knife edge and the blade edge is preferably maintained within a predetermined tolerance which will ensure that the bands are cut in the most efficient manner, even after many cutting cycles.
In operation, downward pressure from the knife is transmitted through the band and stresses the edge of the blade. This pressure is increased because the distance between the blade edge and the blade attachment, i.e., load reaction point, is not ideal. Cutting will eventually weaken the blade and cause it to yield or fracture. Unfortunately, the rate and mode of failure is unpredictable. For example, the blade may fail after 100, 200, or 1000 bands are tensioned. When blades fail, the tools are shipped from the end user to the factory for blade and/or knife replacement, which is expensive, costly, and time consuming. Furthermore, gaining access to the blade or the knife is time consuming and complicated.
Blade support of prior art tools is not ideal, which increases blade damage. The primary failure mode is blade edge degradation and, in some instances, fracture. More specifically, the blade of prior art tools is rotatably interconnected to a tool head. Further, the blade of some prior art tools possesses an internal edge that engages the tool head to react loads being generated at an external edge of the blade when the knife contacts the band positioned therebetween. This complex design came from a desire to provide a blade with two edges such that when one was damaged, the blade could be removed and rotated to place the previously non-used blade adjacent to the knife.
Furthermore, the knife of the prior art tools does not travel in a smooth, continuous manner, thus the gap between the knife and the blade is often increased or decreased which affects the performance of the cutting operation and which can add additional load to the blade.
Another drawback of the prior tool is related to the tool head. More specifically, the tool head must accommodate the front gripper, the blade, and the knife and is structurally weak because it is machined with large pockets to accommodate these components.
SUMMARY OF THE INVENTIONIt is one aspect of embodiments of the present invention to provide a band tensioning tool with an easily replaceable blade and knife. More specifically, one embodiment does not require that a maintenance cover be removed to gain access to a knife, a front gripper, and a blade. In this embodiment, the blade is interconnected beneath the tool head by way of four fasteners. For example, M4 screws with 3 mm hex key may be used to interconnect the blade to the tool head. Such fasteners may be exposed to about 2000 pounds of axial tension before fracture. This improvement over the prior art tool reduces tool head height by about 0.110 inches, and the blade is interconnected to the tool head as opposed to being contained within the tool head and supported in a cantilevered manner.
Furthermore, the tool head of one embodiment has reduced wear surfaces such that the tool head does not experience wear from loads generated by the front gripper. As a result, the material selection of the tool head is not critical. This improvement over the prior art increases the safety factor of the tool and, thus, reduces the need for repair and the costs therefore. The blade of one embodiment has three wear surfaces and is a main wear part. However, the cutting blade is much stronger than those of the prior art as they are supported near the cutting edge, i.e., the knife contact point. As a result, the blade is strained to a lesser degree during the cutting operation. To further facilitate interconnection of the blade to the tool head, two ⅛ inch alignment dowels may be used that are able to withstand about 3,000 lbs of shear force.
It is another aspect of the present invention to provide a knife that moves in a smooth and stable manner. More specifically, the tool head of embodiments of the present invention has a rectangular channel that works in conjunction with a similarly-shaped outer surface of the knife to prevent knife rotation, which better simulates a cutting die.
As briefly mentioned above, it is another aspect of the present invention to provide a front gripper that is interconnected to the tool head in a more efficient manner. As will also be appreciated upon review of the figures, the front gripper is simplified. Further, the front gripper utilizes a ball as opposed to a pin to engage the band. When the tension block travels away from the clamp, it grips the band and tensions the band. Once the end of stroke is reached, the tension block and the band moves in the opposite direction towards the objects being clamps. The front gripper prevents excessive band retraction or loosening by engaging the band and applying a downward force onto the band that increases as a function of band retraction. For example, in one embodiment, the retention force applied by the front gripper rises exponentially the more the band moves towards the objects being bundled. The gripping ball engages the band until there is sufficient downward force to wedge the band between a ball and an upper surface of the blade, a mechanism similar to that employed by ball locks of the art. When a subsequent tensioning step is initiated, i.e., when the tension block re-engages the band to begin another tensioning cycle, the front gripper swings in the direction of the tension block and is released. This interaction between the front gripper and tension block prevents band recoil in the time period between front gripper disengagement and re-engagement. The force required to release the front gripper is reduced due to the ability of the gripping ball to spin in an opposite direction when contacted by the tension block, which helps the front gripper to move out of locking position.
The front gripper of one embodiment is covered by a maintenance cover that is much simpler and easier to remove and install than those of the prior art.
It is another aspect of the present invention to provide a front gripper that can be used with prior art tools. That is, the pneumatic system of existing tools can be combined with a tool body assembly that employs the front gripper as contemplated by one embodiment of the invention.
It is another aspect of the present invention to provide a scalable front gripper. More specifically, as one of skill in the art will appreciate the blade and knife configurations as described herein, for example, may be incorporated into a hand tool as opposed to a pneumatically driven tool as shown in the drawings.
Referring to
When the clevis 138 is fully extended in the direction of arrow 142, the cylinder 120 pressure is reduced and spring 162 forces the tensioning arm 146 to pivot about the pin 150. This movement of the tension arm 146 causes the clevis 138 to move in the direction opposite to arrow 142, which moves the tension block 20 in the direction of arrow 44 to reach a new position on the band for re-gripping and inducing additional band tension. Movement of the pneumatic cylinder 124 moves linkages interconnected to a knife, which will be described below.
The prior art tool head 500 and the tool head 600 of one embodiment of the present invention are compared in
The knife 620 of embodiments of the present invention has a square or rectangular profile that slides within a complimentary channel 632 in a knife housing 636 that is integrated into the tool head 600. The knife 620 may also include a pin 640 that is used to place a locking dimple in the band.
FIGS. 3 and 5A-5C show the bottom surface of the blade 524, 624 and the interconnection of the blade 524, 624 to the tool head 500, 600. Here, the prior art blade 524 is shown rotatably interconnected to the tool head 500 via a pin 544 that is attached to sidewalls 548 of the tool head 500. Forces acting on the blade 524, which are generated by the knife 520, will be reacted by the pin. Forces will also be transmitted through the pin 544 to the sidewalls 548 of the tool head, which often weakens or damages the same.
Embodiments of the present invention address this drawback of the prior art. By employing a blade 624 that is interconnected via a plurality of fasteners 648 to the bottom surface 628 of the tool head, i.e., not rotatably interconnected to the head. This interconnection method is stronger and more stable than the prior art method. The blade 624 is separated from the bottom surface 628 of the tool head to provide an opening 652 for receipt of a band. Here, the knife 632 is shown as having a rectangular or square profile that slides within a complimentary knife housing 636 that is integrated into the tool head 600. A cutting edge 656 of the knife is positioned about 0.004 inches from a blade edge 660, a dimension that is maintained to a higher degree than that of the prior art because the blade 624 does not move and weaken after repeated cutting cycles.
As the tension block 20 moves to tension the band, the ball 616 engages the band, thereby preventing recoil as the tension block is picked up and moved to another location on the band. After the tension block 4 is in place it begins to engage the band to perform another incremental tension step and the front gripper is disengaged as described above.
While various embodiments of the present invention have been described in detail, it is apparent that modifications and alterations of those embodiments will occur to those skilled in the art. However, it is to be expressly understood that such modifications and alterations are within the scope and spirit of the present invention, as set forth in the following claims. Further, the invention(s) described herein is capable of other embodiments and of being practiced or of being carried out in various ways. In addition, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” or “having” and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items.
Claims
1. A method for holding a banding material, comprising:
- providing a band tightening tool including a gripping mechanism having a gripper and a slot with a slot proximal end; and
- gripping, adjacent to said slot proximal end, contacted portions of said banding material.
Type: Application
Filed: Feb 7, 2013
Publication Date: Aug 8, 2013
Applicant: BAND-IT-IDEX, INC. (Denver, CO)
Inventor: Band-It-IDEX, Inc. (Denver, CO)
Application Number: 13/762,170