A system for dispensing toppings onto a topping vehicle may include a hopper platform, hoppers, a retaining plate, a blade, and a hopper-advancing pin. The hoppers each include a hopper bracket slidably engaging the hopper platform. The blade is mounted on the retaining plate and may reciprocate relative to the retaining plate. The hopper-advancing pin is movable relative to the hoppers between deployed and stowed positions. The hopper-advancing pin may engage one of the hopper brackets in the deployed position such that movement of the retaining plate between retracted and extended positions causes movement of the hopper bracket and a respective hopper along a length of the hopper platform. The hopper-advancing pin may be disengaged from the hopper brackets in the deployed stowed position to allow movement of the retaining plate between the retracted and extended positions without causing movement of the hopper brackets.

A system for dispensing toppings onto a topping vehicle may include a hopper platform, hoppers, a retaining plate, a blade, and a hopper-advancing pin. The hoppers each include a hopper bracket slidably engaging the hopper platform. The blade is mounted on the retaining plate and may reciprocate relative to the retaining plate. The hopper-advancing pin is movable relative to the hoppers between deployed and stowed positions. The hopper-advancing pin may engage one of the hopper brackets in the deployed position such that movement of the retaining plate between retracted and extended positions causes movement of the hopper bracket and a respective hopper along a length of the hopper platform. The hopper-advancing pin may be disengaged from the hopper brackets in the deployed stowed position to allow movement of the retaining plate between the retracted and extended positions without causing movement of the hopper brackets.

Embodiments of the disclosure provide a liner structure adapted for insertion within a discharge spout of a container. The liner structure may include a neck formed of a liner material and enclosing a cross-sectional area substantially equal to a cross-sectional area of the discharge spout. A collar formed of the liner material may be coupled circumferentially to an end of the neck, wherein the collar has a cross-sectional area greater than the cross-sectional area of the discharge spout. A constrictable sidewall is on the neck proximate the collar. Constricting the constrictable sidewall compresses the collar such that it is within the cross-sectional area.

Embodiments of the disclosure provide a liner structure adapted for insertion within a discharge spout of a container. The liner structure may include a neck formed of a liner material and enclosing a cross-sectional area substantially equal to a cross-sectional area of the discharge spout. A collar formed of the liner material may be coupled circumferentially to an end of the neck, wherein the collar has a cross-sectional area greater than the cross-sectional area of the discharge spout. A constrictable sidewall is on the neck proximate the collar. Constricting the constrictable sidewall compresses the collar such that it is within the cross-sectional area.

A modular hopper assembly is provided and includes a plurality of pre-fabricated upper hopper modular units, a plurality of pre-fabricated middle hopper modular units, a plurality of pre-fabricated lower hopper modular units and a plurality of support members configured as a base, where the upper hopper modular units, the middle hopper modular units and the lower hopper modular units are each assembled, and then the assembled upper hopper modular units, the assembled middle hopper modular units and the assembled lower hopper modular units are connected together to form a hopper, where the hopper is mounted on the base.

A modular hopper assembly is provided and includes a plurality of pre-fabricated upper hopper modular units, a plurality of pre-fabricated middle hopper modular units, a plurality of pre-fabricated lower hopper modular units and a plurality of support members configured as a base, where the upper hopper modular units, the middle hopper modular units and the lower hopper modular units are each assembled, and then the assembled upper hopper modular units, the assembled middle hopper modular units and the assembled lower hopper modular units are connected together to form a hopper, where the hopper is mounted on the base.

Systems and methods for efficiently managing bulk material are provided. The disclosure is directed to a portable support structure used to receive one or more portable containers of bulk material and output bulk material from the containers directly into the blender hopper. The portable support structure may include a frame for receiving and holding the one or more portable bulk material containers in an elevated position proximate the blender hopper, as well as one or more gravity feed outlets for routing the bulk material from the containers directly into the blender hopper. In some embodiments, the portable support structure may be transported to the well site on a trailer, unloaded from the trailer, and positioned proximate the blender unit. In other embodiments, the portable support structure may be a mobile support structure that is integrated into a trailer unit.

Systems and methods for efficiently managing bulk material are provided. The disclosure is directed to a portable support structure used to receive one or more portable containers of bulk material and output bulk material from the containers directly into the blender hopper. The portable support structure may include a frame for receiving and holding the one or more portable bulk material containers in an elevated position proximate the blender hopper, as well as one or more gravity feed outlets for routing the bulk material from the containers directly into the blender hopper. In some embodiments, the portable support structure may be transported to the well site on a trailer, unloaded from the trailer, and positioned proximate the blender unit. In other embodiments, the portable support structure may be a mobile support structure that is integrated into a trailer unit.

A hopper and method for transferring raw material, which can prevent segregation due to the impact caused by falling of the raw material powder when different types of raw material powders are transferred. The hopper for a raw material powder according to one embodiment of the present disclosure includes: a hopper body having an inner space in which the raw material powder is stored and including an outlet which is formed through the lower end thereof and through which the raw material powder is discharged; a transfer pipe to which the raw material powder discharged through the outlet is transferred and which has a region, through which the raw material powder is transferred, divided into a plurality of regions; and a slide gate unit disposed between the outlet and the transfer pipe to open or close the transfer pipe while adjusting a degree of opening of the transfer pipe.

A hopper and method for transferring raw material, which can prevent segregation due to the impact caused by falling of the raw material powder when different types of raw material powders are transferred. The hopper for a raw material powder according to one embodiment of the present disclosure includes: a hopper body having an inner space in which the raw material powder is stored and including an outlet which is formed through the lower end thereof and through which the raw material powder is discharged; a transfer pipe to which the raw material powder discharged through the outlet is transferred and which has a region, through which the raw material powder is transferred, divided into a plurality of regions; and a slide gate unit disposed between the outlet and the transfer pipe to open or close the transfer pipe while adjusting a degree of opening of the transfer pipe.