A funnel bucket apparatus is configured to be mountable to typical loader machinery for depositing flowable material at a deposit site. The apparatus includes a bucket and a funnel cover connected by hinges, a discharge chute attachment, a bucket vibrator, and a hydraulic actuator system. An operator controls the actuator system to move the bucket and funnel cover between open and closed positions such that the bucket retains typical loading functions while the apparatus is in the open position. When the bucket is loaded with material, the operator controls the actuator system to move the apparatus into the closed position and positions the apparatus over the deposit site. Material flows through a discharge opening in the funnel cover, through the discharge chute attachment, and down to the deposit site. Efficient and controllable flow rate of material may be facilitated by the bucket vibrator.

A funnel bucket apparatus is configured to be mountable to typical loader machinery for depositing flowable material at a deposit site. The apparatus includes a bucket and a funnel cover connected by hinges, a discharge chute attachment, a bucket vibrator, and a hydraulic actuator system. An operator controls the actuator system to move the bucket and funnel cover between open and closed positions such that the bucket retains typical loading functions while the apparatus is in the open position. When the bucket is loaded with material, the operator controls the actuator system to move the apparatus into the closed position and positions the apparatus over the deposit site. Material flows through a discharge opening in the funnel cover, through the discharge chute attachment, and down to the deposit site. Efficient and controllable flow rate of material may be facilitated by the bucket vibrator.

A tipping hopper includes a hopper body, hopper rotating supports and a tipping mechanism. The tipping mechanism comprises a connecting rod and a crank. One end of the connecting rod is hinged on the hopper body, and the other end is hinged with one end of the crank; and the other end of the crank is hinged on a crank rotating support through a crank rotating shaft. By optimizing a crank starting point and a crank end point, ensure hopper's position of receiving and discharging material is arranged at or near a dead point of the tipping mechanism so that the working condition of an impact force borne by a speed reducer device is optimized when the tipping hopper is charged and discharged. The mechanism also optimizes the position of the center of gravity of the hopper body and the position of the center of gravity of a charged hopper, so that the center of gravity of the hopper body is located between a hopper rotating hinge point and the connecting rod support hinge point near the hopper rotating hinge point. A force amplification effect of the connecting rod is used to greatly reduce the requirement for the output moment of the speed reducer, thereby greatly reducing the weight of the speed reducer device and the power of a tipping motor and saving motor power and energy consumption of a hoisting system.

A tipping hopper includes a hopper body, hopper rotating supports and a tipping mechanism. The tipping mechanism comprises a connecting rod and a crank. One end of the connecting rod is hinged on the hopper body, and the other end is hinged with one end of the crank; and the other end of the crank is hinged on a crank rotating support through a crank rotating shaft. By optimizing a crank starting point and a crank end point, ensure hopper's position of receiving and discharging material is arranged at or near a dead point of the tipping mechanism so that the working condition of an impact force borne by a speed reducer device is optimized when the tipping hopper is charged and discharged. The mechanism also optimizes the position of the center of gravity of the hopper body and the position of the center of gravity of a charged hopper, so that the center of gravity of the hopper body is located between a hopper rotating hinge point and the connecting rod support hinge point near the hopper rotating hinge point. A force amplification effect of the connecting rod is used to greatly reduce the requirement for the output moment of the speed reducer, thereby greatly reducing the weight of the speed reducer device and the power of a tipping motor and saving motor power and energy consumption of a hoisting system.

A barrel is capable of vacuum loading and unloading, gravity unloading and loading, and pneumatic unloading. A roll-off skid is coupled to the barrel.

An extendable bag roller for supporting a bag of material during removal of the material from the bag includes a bag support having a curved surface configured to support the bag of material on the curved surface and a roller that rolls along the curved surface of the bag support to squeeze the material out of the bag. The bag support includes a base defining a first portion of the curved surface of the bag support and an extension defining a second portion of the curved surface of the bag support, the extension being moveable to selectively increase and decrease the area of the curved surface of the bag support to accommodate different bag sizes.

An extendable bag roller for supporting a bag of material during removal of the material from the bag includes a bag support having a curved surface configured to support the bag of material on the curved surface and a roller that rolls along the curved surface of the bag support to squeeze the material out of the bag. The bag support includes a base defining a first portion of the curved surface of the bag support and an extension defining a second portion of the curved surface of the bag support, the extension being moveable to selectively increase and decrease the area of the curved surface of the bag support to accommodate different bag sizes.

A method of delivering proppant to a well site has the steps of transporting a load of proppant in a vessel to a desired location, moving the load of proppant from the vessel into a container so as to create a proppant-loaded container, unloading the proppant-loaded container into a pneumatic bulk trailer, and transporting the unloaded proppant in the pneumatic bulk trailer to well site. The container is placed onto a bed of a truck and moved in proximity to the vessel. The proppant-loaded container is placed onto a tilting mechanism and then tilted so that the proppant is discharged through a flow gate of a container into a hopper. The proppant in the hopper can then be conveyed to the pneumatic bulk trailer.

CONSTRUCTION DEVICE INTRODUCED INTO AN ELECTRICAL POWER PLANT MODULE, more specifically relating to an electrical power plant module (1) of the type used for accessibility to electrical energy, primarily in remote areas such as isolated rural communities, mining camps, oil platforms, areas recently affected by storms, areas affected by earthquakes, offshore platforms, etc., or areas undergoing conflict; the said power plant module (1) is supplied in the form of enclosures or containers (2) of the ISO maritime type and includes a structural container (2A) having a flat base (2b) upon which are installed structural columns (C1) and crossmembers (T2) for the mounting of plates (cp) that form the peripheral walls (2C) and the upper wall (2D) of the container (2A), with the end walls (2C1) of the container (2A) providing at least one cut-out area (2c2) for the installation of a tilting door (3) designed for the superolateral expulsion of hot air (AR) from the radiator (R); the said tilting door (3) is installed in the respective cut-out area (2c2) by means of hinged closures (4) or other articulated and/or tilting closures, which closures (4) in turn are secured to the lower edge (3a) of the door (3) in such a way that when the door (3) is tilted outward from the container, with an angulation (?), it forms a gas conduit (CG) in order to direct the air (AR) toward the superolateral portion of the structural container (2A): the tilting doors (3) that are installed in the extreme lateral portions (2C1) of the container (2A) are arranged in the substations (SB) of the power plant module (1) in such a way that they are aligned longitudinally with corresponding cooling units (UR) that are located on the inside and at the end in relation to the transformer/distribution unit (UT).

CONSTRUCTION DEVICE INTRODUCED INTO AN ELECTRICAL POWER PLANT MODULE, more specifically relating to an electrical power plant module (1) of the type used for accessibility to electrical energy, primarily in remote areas such as isolated rural communities, mining camps, oil platforms, areas recently affected by storms, areas affected by earthquakes, offshore platforms, etc., or areas undergoing conflict; the said power plant module (1) is supplied in the form of enclosures or containers (2) of the ISO maritime type and includes a structural container (2A) having a flat base (2b) upon which are installed structural columns (C1) and crossmembers (T2) for the mounting of plates (cp) that form the peripheral walls (2C) and the upper wall (2D) of the container (2A), with the end walls (2C1) of the container (2A) providing at least one cut-out area (2c2) for the installation of a tilting door (3) designed for the superolateral expulsion of hot air (AR) from the radiator (R); the said tilting door (3) is installed in the respective cut-out area (2c2) by means of hinged closures (4) or other articulated and/or tilting closures, which closures (4) in turn are secured to the lower edge (3a) of the door (3) in such a way that when the door (3) is tilted outward from the container, with an angulation (?), it forms a gas conduit (CG) in order to direct the air (AR) toward the superolateral portion of the structural container (2A): the tilting doors (3) that are installed in the extreme lateral portions (2C1) of the container (2A) are arranged in the substations (SB) of the power plant module (1) in such a way that they are aligned longitudinally with corresponding cooling units (UR) that are located on the inside and at the end in relation to the transformer/distribution unit (UT).