A feeding system for feeding a powder material to a moving powder mass includes a moving device structured to move the powder mass along a movement direction and a feeding reservoir that is structured to provide the powder material to be fed to the moving mass. The feeding reservoir includes a plurality of feeding openings dimensioned for feeding the powder material to the moving powder mass. At least some of the plurality of feeding openings being arranged along the movement direction of the moving powder mass.

A feeding system for feeding a powder material to a moving powder mass includes a moving device structured to move the powder mass along a movement direction and a feeding reservoir that is structured to provide the powder material to be fed to the moving mass. The feeding reservoir includes a plurality of feeding openings dimensioned for feeding the powder material to the moving powder mass. At least some of the plurality of feeding openings being arranged along the movement direction of the moving powder mass.

A hopper having a passage through which a medicine can be passed downward is provided. The hopper is configured to cause rippling vibration on an inner surface thereof by an external force applied to the hopper. According to this configuration, the rippling vibration applies a force to the medicine to separate the medicine away from the inner surface of the hopper. This prevents the medicine from easily adhering to the hopper.

A hopper having a passage through which a medicine can be passed downward is provided. The hopper is configured to cause rippling vibration on an inner surface thereof by an external force applied to the hopper. According to this configuration, the rippling vibration applies a force to the medicine to separate the medicine away from the inner surface of the hopper. This prevents the medicine from easily adhering to the hopper.

A tilt-less liner apparatus and system for unloading bulk cargo from a container liner using a first layer on the container liner floor having a friction reducing top layer and a friction enhancing bottom layer to secure first layer against movement. A second layer of flexible high strength material folded in over lapping multiple pre-folded sections from at least two to eight folded stacked layers are used to cover the friction reducing top first layer. The second layer is connected to a coiling means and motor for coiling up and removing the second layer from the container over the friction reducing top layer of the first layer and the bulk cargo comes out with the second layer into a hopper provided with means for bulk product distribution. Vibrators, depth measuring devices and speed controls are provided to control bulk cargo unloading and prevent blockage build up.

A tilt-less liner apparatus and system for unloading bulk cargo from a container liner using a first layer on the container liner floor having a friction reducing top layer and a friction enhancing bottom layer to secure first layer against movement. A second layer of flexible high strength material folded in over lapping multiple pre-folded sections from at least two to eight folded stacked layers are used to cover the friction reducing top first layer. The second layer is connected to a coiling means and motor for coiling up and removing the second layer from the container over the friction reducing top layer of the first layer and the bulk cargo comes out with the second layer into a hopper provided with means for bulk product distribution. Vibrators, depth measuring devices and speed controls are provided to control bulk cargo unloading and prevent blockage build up.

Dosing heads for apparatus for dispensing a defined amount of dry powder concurrently to a plurality of spaced apart dose receiving containers include a plurality of spaced apart elongate channels having a channel length with an upper end defining an entry orifice and a lower end defining an exit port. In use, the dosing heads are aligned with a dry powder bed residing above and in communication with the dosing head and at least one vibration source in communication with the dosing head channels configured to controllably apply a vibration flow signal. When the vibration flow signal is applied to the dosing head channels, dry powder from the dry powder bed flows through the elongate channels and out the exit port and when the flow signal is removed, dry powder does not flow through the dosing head elongate channels.

Dosing heads for apparatus for dispensing a defined amount of dry powder concurrently to a plurality of spaced apart dose receiving containers include a plurality of spaced apart elongate channels having a channel length with an upper end defining an entry orifice and a lower end defining an exit port. In use, the dosing heads are aligned with a dry powder bed residing above and in communication with the dosing head and at least one vibration source in communication with the dosing head channels configured to controllably apply a vibration flow signal. When the vibration flow signal is applied to the dosing head channels, dry powder from the dry powder bed flows through the elongate channels and out the exit port and when the flow signal is removed, dry powder does not flow through the dosing head elongate channels.

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.