A proppant container facilitates the transportation of wet sand for use in a hydraulic fracturing operation. A metering conveyor is positioned between a blender tub and a proppant motive mechanism, such as a conveyor or wash system that receives discharge direct from proppant containers of the type normally used to transport sand in support of a hydraulic fracturing operation. The metering conveyor is fitted with equipment including a knife-edge gate that may be used to facilitate flow control operations.

A proppant container facilitates the transportation of wet sand for use in a hydraulic fracturing operation. A metering conveyor is positioned between a blender tub and a proppant motive mechanism, such as a conveyor or wash system that receives discharge direct from proppant containers of the type normally used to transport sand in support of a hydraulic fracturing operation. The metering conveyor is fitted with equipment including an intermediate surge hopper with a vibration system and a knife-edge gate that may be used to facilitate the operational movement of sand.

A proppant container facilitates the transportation of wet sand for use in a hydraulic fracturing operation. The proppant container is part of an overall system that is used to move sand for use as proppant, and is fitted with a vibration system that facilitates the discharge of sand from the container.

A proppant container facilitates the transportation of wet sand for use in a hydraulic fracturing operation. The proppant container is provided with a system for dislodging the wet sand for subsequent use. This may be done by use of a vibrator or an umbrella valve. In another aspect, the proppant container may be used in combination with a rack having a wash system that slurries the proppant for delivery to a blender tub without necessarily resorting to use of a conveyor belt.

A lifting mechanism for operably attaching to one of the plurality of support legs on a bin is provided where the lifting mechanism is configured to sequentially lift and drop the support leg by a predetermined amount, whereby an impact shock generated by the drop is transmitted to the bin through the support leg and promote dislodging of any of the particulate material that may be in a non-flowable state to enhance dispensing of the particulate material from the bin. A bin assembly incorporating such lifting mechanism on at least one of its plurality of support legs is also disclosed.

A lifting mechanism for operably attaching to one of the plurality of support legs on a bin is provided where the lifting mechanism is configured to sequentially lift and drop the support leg by a predetermined amount, whereby an impact shock generated by the drop is transmitted to the bin through the support leg and promote dislodging of any of the particulate material that may be in a non-flowable state to enhance dispensing of the particulate material from the bin. A bin assembly incorporating such lifting mechanism on at least one of its plurality of support legs is also disclosed.

The invention relates to a vibratory floor made up of shaker modules protected against the entry of dust, and capable of emptying cohesive products. The inner volume (10) of each module is connected by means of a pipe (14) to an air or clean gas volume (19). Each module past the first row is provided with an anti-pressure device (46) made up of an anti-pressure plate (47) situated above the motor cover (44), supported by two flanges (48) and (49) resting on stationary parts (36) on either side of the module. The modules thus formed are protected against the entry of dust, and effectively emptying any cohesive product from silos, vessels, railroad cars or any other containers, without human or mechanized intervention.

The invention relates to a vibratory floor made up of shaker modules protected against the entry of dust, and capable of emptying cohesive products. The inner volume (10) of each module is connected by means of a pipe (14) to an air or clean gas volume (19). Each module past the first row is provided with an anti-pressure device (46) made up of an anti-pressure plate (47) situated above the motor cover (44), supported by two flanges (48) and (49) resting on stationary parts (36) on either side of the module. The modules thus formed are protected against the entry of dust, and effectively emptying any cohesive product from silos, vessels, railroad cars or any other containers, without human or mechanized intervention.

A method of dislodging entrapped particulate material from an assembly of a bin and a hopper for dispensing the particulate material is disclosed. The method includes lifting at least one of a plurality of support legs off of the foundation by a predetermined amount by using at least one lifting mechanism that is resting on the foundation and operatively attached to one of the plurality of support legs; and dropping the at least one support leg into a free fall down on to the foundation using the lifting mechanism, whereby an impact shock thus produced is transmitted to the assembly of the bin and the hopper through the support leg and promote dislodging of any of the particulate material that may be in a non-flowable state to enhance dispensing of the particulate material from the assembly of the bin and the hopper.

A method of dislodging entrapped particulate material from an assembly of a bin and a hopper for dispensing the particulate material is disclosed. The method includes lifting at least one of a plurality of support legs off of the foundation by a predetermined amount by using at least one lifting mechanism that is resting on the foundation and operatively attached to one of the plurality of support legs; and dropping the at least one support leg into a free fall down on to the foundation using the lifting mechanism, whereby an impact shock thus produced is transmitted to the assembly of the bin and the hopper through the support leg and promote dislodging of any of the particulate material that may be in a non-flowable state to enhance dispensing of the particulate material from the assembly of the bin and the hopper.