A conveyor and carriage assembly are synchronized to increase the speed of operation and eliminate any dwell periods to improve the rate at which a linear container filler is able to fill containers with a material. The fill rate approaches or exceeds that of prior art linear and rotary filling machines.

A makeup foundation filling machine includes: container supplying means for supplying at least one container in which a puff is contained to a fixed position on a stage; elevating means having a flow pipe which is elevated above the container arranged at the fixed position by the container supplying means and pressing and transforming the puff in a state where the flow pipe gets in contact with the puff during a lowering action of the flow pipe; and foundation supplying means for supplying foundation of a fixed volume to the puff through the inside of the flow pipe in the state where the flow pipe directly gets in contact with the puff pressed and transformed while the flow pipe lowers by the elevating means.

A makeup foundation filling machine includes: container supplying means for supplying at least one container in which a puff is contained to a fixed position on a stage; elevating means having a flow pipe which is elevated above the container arranged at the fixed position by the container supplying means and pressing and transforming the puff in a state where the flow pipe gets in contact with the puff during a lowering action of the flow pipe; and foundation supplying means for supplying foundation of a fixed volume to the puff through the inside of the flow pipe in the state where the flow pipe directly gets in contact with the puff pressed and transformed while the flow pipe lowers by the elevating means.

The present invention relates to a method for filling a container with a dairy product having a viscosity comprised between 1400 and 3800 mPa.Math.s comprising the steps of: (a) filling the container with the dairy product by means of a dispenser equipped with a nozzle comprising at least one opening, at a flow rate by surface of the nozzle opening(s) between 0.5 and 1.2 kg/(h×mm.sup.2) and at a temperature comprised between 4 and 30° C., and (b) if the temperature of the dairy product in step (a) is above 10° C., cooling the dairy product in the container to a temperature comprised between 2 and 10° C.

The present invention relates to a method for filling a container with a dairy product having a viscosity comprised between 1400 and 3800 mPa.Math.s comprising the steps of: (a) filling the container with the dairy product by means of a dispenser equipped with a nozzle comprising at least one opening, at a flow rate by surface of the nozzle opening(s) between 0.5 and 1.2 kg/(h×mm.sup.2) and at a temperature comprised between 4 and 30° C., and (b) if the temperature of the dairy product in step (a) is above 10° C., cooling the dairy product in the container to a temperature comprised between 2 and 10° C.

Systems and methods for distributing a filling fluid are discussed. More particularly an exemplary filling system may include a reservoir holding a filling fluid for distribution. The filling system may also include a pump and filling nozzle fluidly coupled to the reservoir. A processor executes a filling module that when executed receives at least one input fluid property of the filling fluid and generates at least one set of operating parameters for controlling operation of the pump during a filling operation based at least in part on the fluid property. The generated set of operating parameters enable control of the pump to distribute the filling fluid through the filling nozzle, such that a fluid interface with a stable resting profile forms in the filling fluid in the filling nozzle adjacent to the nozzle opening after the filling fluid is distributed from the filling nozzle.

Systems and methods for distributing a filling fluid are discussed. More particularly an exemplary filling system may include a reservoir holding a filling fluid for distribution. The filling system may also include a pump and filling nozzle fluidly coupled to the reservoir. A processor executes a filling module that when executed receives at least one input fluid property of the filling fluid and generates at least one set of operating parameters for controlling operation of the pump during a filling operation based at least in part on the fluid property. The generated set of operating parameters enable control of the pump to distribute the filling fluid through the filling nozzle, such that a fluid interface with a stable resting profile forms in the filling fluid in the filling nozzle adjacent to the nozzle opening after the filling fluid is distributed from the filling nozzle.

Systems and methods for distributing a filling fluid are discussed. More particularly an exemplary filling system may include a reservoir holding a filling fluid for distribution. The filling system may also include a pump and filling nozzle fluidly coupled to the reservoir. A processor executes a filling module that when executed receives at least one input fluid property of the filling fluid and generates at least one set of operating parameters for controlling operation of the pump during a filling operation based at least in part on the fluid property. The generated set of operating parameters enable control of the pump to distribute the filling fluid through the filling nozzle, such that a fluid interface with a stable resting profile forms in the filling fluid in the filling nozzle adjacent to the nozzle opening after the filling fluid is distributed from the filling nozzle.

Systems and methods for distributing a filling fluid are discussed. More particularly an exemplary filling system may include a reservoir holding a filling fluid for distribution. The filling system may also include a pump and filling nozzle fluidly coupled to the reservoir. A processor executes a filling module that when executed receives at least one input fluid property of the filling fluid and generates at least one set of operating parameters for controlling operation of the pump during a filling operation based at least in part on the fluid property. The generated set of operating parameters enable control of the pump to distribute the filling fluid through the filling nozzle, such that a fluid interface with a stable resting profile forms in the filling fluid in the filling nozzle adjacent to the nozzle opening after the filling fluid is distributed from the filling nozzle.

A filler head apparatus 20 for hygienically filling and emptying containers 22 through a fitment 24 incorporated with the container 22 includes a cylindrical outer housing 30 for receiving a hollow bore inner cylinder 32 which is actuated to simultaneously reciprocate and rotate about a central axis 33 within the outer housing. A transfer tube assembly 34 is mounted to the inner cylinder 32 to travel with the inner cylinder between an extended position engaged with the fitment 24 and a retracted position disengage from the fitment. When the transfer tube assembly is engaged with the fitment, flowable content or product may be transferred to or from the container 22. A fitment cap assembly 36 is also mounted to the inner cylinder 22 to travel with the inner cylinder to remove the cap 38 of the fitment 24 prior to either filling or emptying the container 22, and then to retract to a standby position while the container is filled/emptied, and thereafter replacing the fitment cap after filling/emptying has been completed.