The present invention relates to the field of outdoor work machines and more particularly to systems for cutting and cleaning a narrow trench.
The invention is directed to a trenching assembly for use with a work machine to cut a trench. The trenching assembly comprises a frame, a blade cover attached to the frame, a hub, a blade, and a cylinder assembly. The blade cover and the frame define a surface engaging member and a cavity. The hub is attached to the frame such that a vertical position of the hub relative to the frame is moveable. The blade is located substantially within the cavity and supported on the hub. The blade extends beyond the cavity. The cylinder assembly is operatively attached to the work machine and to the frame. Operation of the cylinder assembly manipulates an orientation of the surface engaging member about three axes relative to the work machine.
In another embodiment, the invention is directed to a method for cutting a narrow trench in a surface. A rotatable blade is used. The rotatable blade is moveably attached to a frame and disposed within a cavity defined by a hood assembly. The hood assembly comprises a surface engaging member. The method comprises the steps of adjusting the blade relative to the surface engaging member to achieve a desired trench depth, rotating the blade to cut a trench, and positioning the surface engaging member on the surface adjacent the blade to stabilize a portion of the surface adjacent the trench.
In another embodiment, the invention is directed to a trenching assembly for use with a work machine. The trenching assembly comprises a surface engaging member, a means for moving the surface engaging member to contact a surface, and a rotatable blade. The rotatable blade cuts a trench through the surface. The surface engaging member is disposed about the rotatable blade and contacts a portion of the surface while the blade is cutting the trench to stabilize the surface adjacent the trench.
Turning now to the drawings in general and
The system further comprises a vacuum system 18. As shown, the vacuum system 18 is mounted on the work machine 12 and on the trenching assembly 13 as an integrated single mobile unit. Alternatively, the vacuum system 18 may be a subsystem that can be controlled by the work machine 12 or remote control. The vacuum system 18 comprises a vacuum hose 20, a spoils inlet 22, and a vacuum power unit (not shown). Further, the vacuum system may comprise a cyclonic filtration system (not shown) to filter fine dust and increase power unit life. The spoils inlet 22 is attached to the trenching assembly 13. As shown, a second spoils inlet 23 is also attached to the trenching assembly 13 near a trench cleaner 50. One skilled in the art can appreciate that one or more spoils inlets 22, 23 may be placed on the frame to efficiently remove accumulated spoils from the trenching assembly 13. In
With reference now to
The level cylinder 30 attaches to the frame 14 at a first end and the lift arms 35 at a second end. Extension of the level cylinder 30 manipulates the level of the frame 14 from front to back. The lift cylinder 34 attaches to the pivot frame 32 at a first end and the lift arms 35 at a second end. Extension of the lift cylinder 34 allows for the frame 14 to be raised and lowered. The tilt plate 38 connects the pivot frame 32 to the slide frame 28 of the attachment frame 16. The tilt plate 38 allows the frame 14 to be tilted from side to side to compensate for crowning in a surface. The swing lock 37 secures the frame 14 in a fixed position substantially perpendicular to the attachment frame 16. The swing lock 37 may be unlocked to allow the frame 14 to swing from side to side to saw a curved trench. Thus the linkage assembly 15 utilizes cylinders 30, 34, 36 and other devices to manipulate the orientation of the frame 14. The orientation manipulated includes tilt, level, height from the surface, angle relative to the attachment frame 16, and position relative to the attachment frame 16. One skilled in the art could appreciate that other mechanisms such as additional cylinders and 4-bar linkages could be used to manipulate the orientation of the frame 14.
With continued reference to
The motor assembly 42 is mounted on the first panel 40. The motor assembly drives the blade 100. The motor assembly will be described in greater detail with reference to
The trenching assembly 13 further comprises a trench cleaner 50 mounted on the frame. Preferably, the trench cleaner 50 is mounted on an end of the frame 14 and adjustable between a variety of depths. In a first position (not shown), the trench cleaner 50 is flipped and stored along the hood assembly 62 for when the blade 100 is not being used. In a second position, the trench cleaner 50 is adapted to extend into an exposed trench. A plurality of paired trench cleaner holes 51 and pegs 52 may be utilized to adjust the position and depth of the trench cleaner 50. The trench cleaner 50 is preferably of a width equal to or very slightly smaller than the width of any exposed trench cut by the blade 100.
With reference now to
The surface engaging member 64 is integral with or mounted on the bottom portion of the hood assembly 62 and thus located proximate a first end of the internal cavity. The surface engaging member 64 defines a perimeter around an opening 68 in the hood assembly 62. The surface engaging member 64 is composed of a durable material suitable for traversing concrete, asphalt, rock, or earth and forming a seal between the ground and the hood assembly 62. A means for moving the surface engaging member 64 to contact the surface being trenched manipulates the surface engaging member, enabling it to stabilize the surface. The means for moving the surface engaging member 64 may comprise the linkage assembly 15 or various hydraulic or mechanical actuators. The linkage assembly 15 generally, and the level cylinder 30 in particular, is connected to the frame 14 such that the opening 68 substantially seals the hood assembly 62 to the ground. Preferably, the level cylinder 30 and the surface engaging member 64 create downpressure proximate a path of the blade 100.
The frame 14 has blade cover connections 70 mounted on the first panel 40. The blade cover connections 70 connect to corresponding holes on the removable cover 60 and provide a quick method for removing the removable blade cover from the frame 14. As shown, the blade cover connections 70 are connected to the removable blade cover 60 by modified wing nuts 72, though alternative methods of removing and connecting the removable blade cover 60 to the frame 14 are envisioned. A wrench 74 for removing the blade 100 is shown mounted on the trenching assembly 13.
With reference now to
As shown in
The blade 10 will be discussed in more detail. The blade 10 is located substantially within the hood assembly 62 and supported on the frame 14. The blade 100 extends beyond the opening 68 in the hood assembly 62. The blade 100 comprises a disc portion 102 and a plurality of teeth 104. As shown in
With reference now to
With reference now to
As shown, the teeth 104 are of a modular nature and are detachable to the blade 100. Modular, detachable components are easier to replace and ship when worn.
The system 10 can be used in combination with other trenching techniques. For example, the system 10 may cut through a hard surface, but at too shallow a depth. Thus, other trenching systems, such as a vibratory plow, can follow behind the system to cut the trench and install the product deeper but without excessive wear to the other trenching system.
With reference now to
The system 10 may further comprise an apparatus for sealing a trench (not shown). The trench can be sealed with any typical sealant such as grout or concrete. Such a system is sold by K-2 Manufacturing, Inc. under the trade name GROUT KING™.
One skilled in the art will appreciate that the system 10 comprises several discrete subsystems, such as the vacuum system 18, the system for placing product 200, the apparatus for sealing a trench, etc. Each of these subsystems may be controlled at the operator station 24 located on the work machine 12. Alternatively some or all of the subsystems may be remotely controlled.
In operation, the system 10 is adapted to cut a trench in a surface. The blade 100 is provided and mounted to the trenching assembly 13 at the hub 82. Preferably, a blade 100 is chosen where the plurality of teeth 104 are in either the radial or the offset position depending on the desired width of trench. The hood assembly 62 is assembled and the hub 82 and blade 100 are raised or lowered by the motor plate 44 to achieve a desired trench depth. The blade 100 is rotated to cut a trench and the at least one cylinder 30, 34, 36 and linkage assembly 15 are adjusted to achieve a substantial seal between the surface engaging member 64 and the surface being trenched. The vacuum system 18 is activated to remove spoils at the vacuum inlet 22, 23. The trench cleaner 50 provides a channel for the removal of spoils from within the trench.
As work machine 12 moves across the surface, the trenching assembly 13 may be adjusted by linkage assembly 15 and cylinders 30, 34, 36 to maintain the substantial seal between the surface engaging member 64 and the surface being trenched over uneven terrain. The level cylinder 30 provides downpressure on the surface proximate a path being trenched by the blade 100. The downpressure of the surface engaging member 64 coupled with the rotation of the blade 100 stabilizes the surface and creates a “scissor” effect when cutting the trench. Therefore, the surface engaging member 64 stabilizes a portion of the surface adjacent to the trench and avoids breakout of the surface, such as asphalt pavement, being trenched. By avoiding breakout, the trench is given straighter, more uniform edges and a smaller average width.
Product 212 may then be placed within the uncovered trench using the system for inserting product 200. The trench may then be covered by a sealing machine (not shown) trailing the system 10 and sealing the trench with concrete or grout.
Various modifications can be made in the design and operation of the present invention without departing from the spirit thereof. Thus, while the principal preferred construction and modes of operation of the invention have been explained in what is now considered to represent its best embodiments, which have been illustrated and described, it should be understood that the invention may be practiced otherwise than as specifically illustrated and described.
This application is a continuation of U.S. patent application Ser. No. 14/459,128, filed Aug. 13, 2014, now U.S. Pat. No. 9,752,301, issued Sep. 5, 2017, which is a continuation of U.S. patent application Ser. No. 13/758,233, filed Feb. 4, 2013, now U.S. Pat. No. 8,806,784, issued Aug. 19, 2014, which is a continuation of U.S. patent application Ser. No. 12/842,799, filed Jul. 23, 2010, now U.S. Pat. No. 8,375,605, issued Feb. 19, 2013, which claims priority of U.S. Provisional Patent Application No. 61/227,935, filed Jul. 23, 2009, and U.S. Provisional Patent Application No. 61/353,984, filed Jun. 11, 2010, the contents of which are incorporated fully herein by reference.
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Number | Date | Country | |
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Parent | 14459128 | Aug 2014 | US |
Child | 15692955 | US | |
Parent | 13758233 | Feb 2013 | US |
Child | 14459128 | US | |
Parent | 12842799 | Jul 2010 | US |
Child | 13758233 | US |