Vibratory material classifiers are disclosed. Some embodiments include eccentric shaft assemblies having removable eccentric weights. Some embodiments include oil access and indicator conduit extending from the interior to the exterior of a classifier.

Invention refers to quality control system for detection and identification of insects, pests and the like in such product like cereals, seed, grains and the like. The Quality control system comprises a sample collecting device (1) for collecting a sample in pre-determined amount from a product (P) to be tested, a self-cleaning cyclone filter (2) for cleaning the sample, a vibro separator (3) for separation of the sample in pre-determined sizes or grades, a heating chamber (4) for heating the sample separated in the vibro separator. The system further comprises an identification device (5) for detection and identification of live insects, pests and the like in said sample.

Invention refers to quality control system for detection and identification of insects, pests and the like in such product like cereals, seed, grains and the like. The Quality control system comprises a sample collecting device (1) for collecting a sample in pre-determined amount from a product (P) to be tested, a self-cleaning cyclone filter (2) for cleaning the sample, a vibro separator (3) for separation of the sample in pre-determined sizes or grades, a heating chamber (4) for heating the sample separated in the vibro separator. The system further comprises an identification device (5) for detection and identification of live insects, pests and the like in said sample.

A vibratory separator includes a screen frame having an upper screen surface and a plurality of openings and a first screen insert disposed in a first opening of the plurality of openings of the screen frame, the screen insert having a screen surface positioned at a first height above the supper screen surface. The vibratory separator also includes a second screen insert disposed in a second opening of the plurality of openings of the second screen frame, wherein a screen surface of the second screen insert is positioned at a second height. The second height may be different from the first height. A method of processing fluid includes providing a flow of fluid to a vibratory separator, and flowing the fluid over a screen having a first screen insert positioned at a first height.

A vibratory separator includes a screen frame having an upper screen surface and a plurality of openings and a first screen insert disposed in a first opening of the plurality of openings of the screen frame, the screen insert having a screen surface positioned at a first height above the supper screen surface. The vibratory separator also includes a second screen insert disposed in a second opening of the plurality of openings of the second screen frame, wherein a screen surface of the second screen insert is positioned at a second height. The second height may be different from the first height. A method of processing fluid includes providing a flow of fluid to a vibratory separator, and flowing the fluid over a screen having a first screen insert positioned at a first height.

A system for recycling drilling fluid. The system has a washer coupled to a drilling rig. The washer receives drill cuttings with entrained drilling fluid. The drilling fluid has a base, and the washing fluid has the same base fluid. The washer fluid is used to remove drilling fluid from the drill cuttings. The washed drill cuttings are sent to a shaker to separate the solids. The spent washing fluid is sent to a filter which separates solids and recovers the base fluid. The base fluid can then be used for drilling or washing.

A system for recycling drilling fluid. The system has a washer coupled to a drilling rig. The washer receives drill cuttings with entrained drilling fluid. The drilling fluid has a base, and the washing fluid has the same base fluid. The washer fluid is used to remove drilling fluid from the drill cuttings. The washed drill cuttings are sent to a shaker to separate the solids. The spent washing fluid is sent to a filter which separates solids and recovers the base fluid. The base fluid can then be used for drilling or washing.

A system and method for a vacuum driven separating device is disclosed.

A system and method for a vacuum driven separating device is disclosed.

An object-sorting apparatus includes a housing that extends from a top end to a bottom end, at least one vibration element, and a plurality of stages arranged in a vertical sequence in the housing between the top end and the bottom end. At least one of the stages includes a sorting base that at least partially defines a floor of the at least one stage. The sorting base is coupled to the at least one vibration element, and is configured to receive thereon a mixture of objects having different sizes, including a target size associated with the at least one stage. The stage also includes apertures defined in and extending through the sorting base and into flow communication with a next lower stage. The apertures are sized to receive therethrough, from the mixture, objects having a size smaller than the target size associated with the at least one stage.