Track thundering drums in a stairwell. Then add additional tracks and fine-tune the mix in your home studio. Sonic Port VX includes a Lightning cable connection so you can use your iOS device along with Mobile POD®, GarageBand®, and other Core Audio music apps to easily record complete songs, without restrictions. The sonic screwdriver, also called a sonic probe or simply 'the sonic', was a highly versatile tool used by many people throughout the universe, the most prominent of them being the Doctor. While almost always referred to as a sonic screwdriver, this device has on occasion been referred to as a sonic probe by people other than the Doctor, such as Dalek Sec (TV: Doomsday) and a version of Amy. USB connection and drivers 7 Installation of Remote Software 8 Presets 8 The Control Panel Portamento, Noise 9 VCO 1 and VCO 2 9 Modulation 11 LFO 12 Sample/Hold 13 Filter 14 Envelopes 17 Configuration Strip 19 Prodyssey Remote Software General information 23 Panel layout 23 Main page 24 Add page 25 Prefs page, Hardware info 29 MIDI monitor 31. Have questions or need help with your Sonic service? Talk with our knowledgeable & friendly support team to help with any billing or technical questions. Our vast sonic inventory includes drill rods, casing, core barrels, drill bits, crossover subs, drivers, specialized bits, flange adapters, fishing tools, hoisting plugs, sample bags, and much more. Worried about compatibility?
DPI’s Core Barrels are made to exacting dimensions – which is key to maximizing sample recovery. We offer a full range of barrels in all configurations. DPI Core Barrels are manufactured from Premium Quality Alloy Steel Tube. Each Core Barrel is Precision machined on our CNC Machining Centers – operated by our highly skilled and experienced operators. We use the best materials and workmanship to create the finest Core Barrel you can buy.
We offer both one-piece Core Barrels and Split Barrels in a variety of diameters and lengths.
6″ Sonic Core Barrel
4 1/2″ Sonic Split Core Barrel
Sonic Core Barrel Range
available w/Thread Profiles to Spec.
| Size | Pipe Wall | Pipe ID | Lengths | Packaging | Weight |
|---|---|---|---|---|---|
| 3.500' | .375' | 2.750' | 1' 5' 10' | 5 pc Bundles | 12.5#/ft |
| 3.750' | .250' | 3.250' | 1' 5' 10' | 5 pc Bundles | 9.4#/ft |
| 4.500' | .274' | 4.060' | 1' 5' 10' | 5 pc Bundles | 11.4#/ft |
| 4.500' | .375' | 3.750' | 1' 5' 10' | 5 pc Bundles | 16.5#/ft |
| 4.750' | .250' | 4.250' | 1' 5' 10' | 5 pc Bundles | 12.1#/ft |
| 6.000' | .250' | 5.500' | 1' 5' 10' | 5 pc Bundles | 15.4#/ft |
| 6.000' | .375' | 5.250' | 1' 5' 10' | 5 pc Bundles | 25.2#/ft |
| 7.000' | .250' | 6.500' | 1' 5' 10' | 5 pc Bundles | 18.0#/ft |
| 7.625' | .375' | 6.875' | 1' 5' 10' | 5 pc Bundles | 29.0#/ft |
| 8.000' | .250' | 7.500' | 1' 5' 10' | 5 pc Bundles | 20.7#/ft |
| 8.625' | .375' | 7.875' | 1' 5' 10' | 5 pc Bundles | 31.0#/ft |
| 9.250' | .250' | 8.750' | 1' 5' 10' | 5 pc Bundles | 24.0#/ft |
| 9.625' | .375' | 8.875' | 1' 5' 10' | 5 pc Bundles | 40.0#/ft |
| 10.500' | .250' | 10.000' | 1' 5' 10' | 5 pc Bundles | 27.4#/ft |
Sonic Drilling – Sonic drilling is a safe, clean and low-impact drilling technique. Boreholes are drilled, cored and cased by rotating and vibrating the rod, core barrel and casing at resonant sonic frequencies. Sonic drilling generates considerably less drill spoils than auger, mud or air rotary methods, saving additional project resources.
Sonic Core Driver Update
Scenarios of Use
Sonic drilling is outstanding in its ability to provide continuous, undisturbed core samples through any geological formation.
Air Rotary – High-flow air is injected through the drill string, cooling the bit, evacuating rock cuttings from the borehole and stabilizing the borehole during drilling. The air-rotary technique is much more efficient than other rock drilling techniques (i.e. cable tool) because the high-flow air constantly cleans the bottom of the borehole, which allows for consistent contact between the drill bit and intact bedrock. The size of the air compressor and borehole determine the achievable depth, since the compressor must maintain an uphole velocity of approximately 3,000 feet per minute to effectively remove the drill cuttings. In bedrock formations where cuttings removal is more difficult, foam can be added to the injected air to increase the viscosity and help lift cuttings from the borehole.
Scenarios of Use
Air rotary drilling is the ideal method for advancing boreholes in consolidated bedrock formations.
Hollow Stem Auger – For normal hole advancement, a pilot bit is inserted through the cutter head to drill the center of the hole. The drill rod is bolted to the inside of the drive cap with a rod-to-cap adapter so that the pilot bit can turn in tandem with the augers. This method allows for split spoon sampling, Shelby tube sampling, Dennison sampling, Hydropunch discrete water sampling, and rock coring to be performed while leaving the augers in place.
Drill rods are normally added each time an auger is added. In soft formations (dirt and sand), a tapered wooden plug may be inserted into the end of the cutter head to prevent material from going up inside the augers and eliminates the use of drill rod. When the hole is completed, the plug may be knocked out the bottom of the auger string. The next step is to insert the monitoring screen and casing, which is then grouted into place to prevent contamination from the top of the hole.
Scenarios of Use
Hollow stem auger drilling is the ideal method for advancing shallow boreholes in unconsolidated formations especially when soil sampling is required during the advancement of the borehole.
Mud Rotary – Drilling mud is injected through the drill string, cooling and lubricating the bit, carrying the cuttings to the surface to be deposited in either a mud tub or pit, permitting the removal of the cuttings from the mud at the surface. The drilling mud will clean out the bottom of the borehole, deposit an impermeable wall cake, overcome formation fluid pressures, and prevent caving of the borehole walls. The drilling mud will avoid damage to productive water zones, allow for interpretable electric well logs to be obtained, and protect the drill pipe against corrosion.
Scenarios of Use
Mud rotary drilling is the ideal method for advancing deep boreholes in unconsolidated formations.
Geoprobe/Direct Push – Direct push technology includes several types of drilling rigs and drilling equipment which advances a drill string by pushing and/or hammering without rotating the drill string. While this does not meet the proper definition of drilling, it does achieve the same result – a borehole. Direct push rigs include both cone penetration test (CPT) rigs and direct push sampling rigs such as Geoprobe. Direct push rigs typically are limited to drilling in unconsolidated soil materials and very soft rock.
Sonic Core Drivers
Direct push drilling rigs use hydraulic cylinders and a hydraulic hammer (with a nitrogen load) to advance a hollow core sampler to gather soil and groundwater samples. The speed and depth of penetration is largely dependent on the soil type, the size of the sampler, and the weight and power the rig. Direct push techniques are generally limited to shallow soil sample recovery in unconsolidated soil materials. The advantage of direct push technology is that in the right soil type it can produce a large number of high quality samples quickly and cheaply, generally from 150 to 300 feet per day. Rather than hammering, direct push can also be combined with sonic (vibratory) methods to increase drill efficiency.
Sonic Core Drilling Method
Scenarios of Use
Direct Push is widely used for less intrusive activities, often collecting vast amounts of soil and groundwater data with minimal time and intrusion on properties and soil/groundwater conditions. Direct push is also used to inject a wide variety of remediation chemicals into soils and groundwater.
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