The present invention is directed to a reclaimer located proximate an excavation site. The reclaimer comprises a screen assembly, a conduit for transporting excavation fluid from the excavation site to the screen assembly, a first vibrator operatively attached to the screen assembly, and a leveling assembly for adjusting an orientation of the screen assembly.
The present invention is a reclaimer for regenerating excavation fluid to re-use the fluid in excavation operations. In ordinary excavation operations using horizontal directional drilling systems, drilling fluid is pumped through a drill string to a location proximate a drill head to lubricate the drill head and ease the process of drilling. After fluid is used at the point of drilling, it travels back up the borehole, collecting particulate matter such as drilling spoils, environmental dirt, and metal along the way. The fluid, upon returning to the surface, would be better described as used drill fluid, or “spent mud”, unsuitable for reuse in the drill head due to the corrosive particles contained within it.
The reclaimer of the present invention provides a method for processing spent mud to remove particulate matter from the spent mud to reclaim drilling fluid for drilling operations. This decreases the amount of fluid required for an excavation operation.
With reference to the figures in general and
The system 10 comprises a power pack 20, a fluid tank 22, a reclaimer 24, and a mixer 26. The system 10 further comprises a fluid delivery system 28 for transporting fluid to and from an excavation site. As shown, the fluid delivery system 28 comprises a soft excavation unit 30, an airlock 32, and a pump 34. One skilled in the art will appreciate that other fluid delivery systems may be used with the reclaimer system 10 of the present invention, such as a system for delivering fluid to a downhole bit in a boring operation (
The power pack 20 provides power for operating the various electronic and hydraulic components of the reclaimer system 10. The fluid tank 22 stores drilling fluid for use with the drilling fluid delivery system 28. Preferably, as shown in
The fluid delivery system 28 further comprises a fluid delivery channel 40 and a fluid return channel 42. The fluid delivery channel 40 may be a hose or other delivery device to accommodate fluid as it moves from the fluid tank 22 to an excavation site. As shown, the excavation site is a location for soft excavation by the soft excavation unit 30. Fluid is moved from the fluid tank 22, through the fluid delivery channel 42 to the soft excavation unit 30. The fluid is then used to aid in soft excavation the uncovering of a buried utility without the use of a bit.
The pump 34 provides a pressure to push new fluid and used fluid through the fluid delivery system. The pump 34 may be any commercially available pump suitable for pumping fluid used in excavation operations and may be operated by conventional means, such as hydraulic or electrical power.
As shown, the fluid delivery system may further comprise a vacuum system 44 for providing a vacuum pressure at the soft excavator 30. This pressure pulls used fluid mixed with particulate matter such as dirt (called “spent mud”) into the fluid return channel 42 and into the airlock 32. The airlock 32 separates air from spent mud, as the air is pushed through the vacuum system 44. Spent mud leaves the airlock 32 and is applied to the reclaimer 24.
The reclaimer 24 comprises a plurality of desilter cones 50, a vibrator 52, a screen assembly 54, and a reclaimed fluid tank 55. Spent mud is processed through the plurality of desilter cones 50 to remove fluid from the courser particulates. One skilled in the art will appreciate that desilter cones 50 accept the spent mud tangentially into its body. The centrifugal force induced by the flow causes the heavier solids and slurries to separate from lighter material. The heaviest solids are deposited out the bottom of the cones 50 to the screen assembly 54 and the lighter liquid removed out the top for reuse. The desilter cones 50 are located above the screen assembly 54 and deposit spent mud thereon.
The vibrator 52 is attached to the screen assembly 54. Spent mud is processed on the screen assembly 54 by vibration of the vibrator 52. The vibrator 52 may vibrate the entire screen assembly 54 at the same frequency, or may alternatively comprise a first vibrator and a second vibrator to vibrate different parts of the screen assembly at different frequencies.
The reclaimer 24 processes the spent mud to cause particulate matter to be separated from the drilling fluid, or slurry portion, as will be described in greater detail with reference to
The mixer 26 allows the particulate matter removed from the reclaimer 24 to dry, or for drying agents to be added to the particulate matter to aid in drying. Dry particulate matter may be left on the ground, or removed to a secondary site for further drying and processing.
With reference now to
The chute 56 allows filtered particulate matter falling off the first screen 64 and second screen 66 at the second end 62 of the reclaimer 24 to drop to the ground or into a mixer 26 (
The leveling assembly 58 adjusts the orientation of the screen assembly 54 and may comprise at least one cylinder 80. As shown, the cylinder 80 is proximate the second end 62 of the reclaimer. As shown, the cylinder 80 adjusts an orientation of the screen assembly 54 relative to the reclaimed fluid tank 55. The leveling assembly 58 may comprise more than one cylinder to enable a tilt adjustment of the first screen 64 and second screen 66 front-to-back and right-to-left. The leveling assembly 58 may alternatively comprise a pinned or slotted connection (not shown) between the screen assembly 54 and the reclaimed fluid tank 55. It is generally desirable for the leveling assembly 58 to position the first screen 64 and second screen 66 higher at the front end than at a back end of the screen assembly, while maintaining a level orientation from side-to-side. Thus, if the trailer 12 is on uneven terrain, the screen assembly 54 can maintain a flat orientation. Further, moisture content and flowrate of the spent mud may make it advantageous for the spent mud to spend more or less time on the screen assembly 54, which can be modified through front-to-back tilt of the screen assembly. A level sensor (not shown) may be provided to determine the front-to-back and side-to-side tilt of the screen assembly 54. The first screen 64 may be locked with the second screen 66 in orientation. Alternatively, in some applications it may be advantageous to provide the first screen 64 and second screen 66 with different or variable front-to-back tilt to maximize the reclamation of drilling fluid due to differing composition of material at the first screen and at the second screen.
Fluid passing through both the first screen 64 and the second screen 66 is collected in the reclaimed fluid tank 55, returned to the fluid tank 22, and thus “reclaimed” by the system 10 for use in excavation operations. Fluid is then provided through the excavation operations as described above, either alone or combined with unused fluid.
With reference now to
As previously discussed, the fluid return channel 42 transports used fluid from the jobsite to the air lock 32 at an inlet port. Used fluid enters the airlock 32 from the fluid return channel 42 at the upper tank 90. Air present in the fluid return channel 42 is removed from the airlock 32 through vacuum channel 96 located at the top of the upper tank. The vacuum channel 96 also provides maintenance of a vacuum pressure within the airlock 32 so that a vacuum pressure is delivered to the soft excavation unit 30 as will be described in more detail with reference to
With reference now to
The lower tank 92 comprises a mechanical flow regulator, such as an impeller 108. The impeller 108 comprises a plurality of arms 112, each with a flap 114 that contacts an inner surface 115 of the lower tank 92. The motor 95 drives the sprocket 94 (
With reference now to
One skilled in the art will appreciate that a vacuum pressure may be provided proximate the opening 119 so that spent mud can be removed from the site of soft excavation. This vacuum pressure may be provided between the shaft 122 and the body 118 such that spent mud is removed by the soft excavation unit 30 itself. Alternatively, a separate fluid return channel 42 (
With reference to
While most of the figures above have shown the system 10 in use with a soft excavation unit 30, the configuration shown in
One skilled in the art will appreciate the variations that may be effective in this invention. For example, auger boring, rock boring and vertical drilling operations which make use of drilling fluid may be adapted for the present invention such that drilling fluid can be reclaimed for repeated use.
Number | Name | Date | Kind |
---|---|---|---|
3766997 | Heilhecker | Oct 1973 | A |
4634535 | Lott | Jan 1987 | A |
4882054 | Derrick et al. | Nov 1989 | A |
6470605 | Gilman et al. | Oct 2002 | B1 |
6517733 | Carlson | Feb 2003 | B1 |
7523570 | Pobihushchy | Apr 2009 | B2 |
20050242003 | Scott et al. | Nov 2005 | A1 |
20070163927 | Eia | Jul 2007 | A1 |
20080078699 | Carr | Apr 2008 | A1 |
20090120846 | Burnett | May 2009 | A1 |
20100196129 | Buckner | Aug 2010 | A1 |
Number | Date | Country | |
---|---|---|---|
20200179841 A1 | Jun 2020 | US |
Number | Date | Country | |
---|---|---|---|
61833084 | Jun 2013 | US | |
61750149 | Jan 2013 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 16521372 | Jul 2019 | US |
Child | 16795228 | US | |
Parent | 15602189 | May 2017 | US |
Child | 16521372 | US | |
Parent | 14150441 | Jan 2014 | US |
Child | 15602189 | US |