A spout assembly (10) for one or a plurality of food or beverage containers, each container comprising at least one ingredient for the preparation of a single or multiple product, the spout assembly (10) comprising at least one primary fluid inlet (11) and at least one secondary fluid inlet (12) through which a fluid can be supplied into one or a plurality of food or beverage containers, the fluid inlets (11, 12) being either connected to the same single container or each one of the fluid inlets (11, 12) being connected to one of the plurality of containers; at least one dispensing outlet (13) through which the single or multiple product is dispensed; the spout assembly (10) being configured in such a way that the fluid can be supplied into a single container or into a function of the single or multiple product to be dispensed.

A container for feeding a patient includes a deformable receptacle having a cavity for holding a flowable food product and a rigid cover attachable to the upper end of the deformable receptacle. The rigid cover may have a male feeding tube connector that is uniquely connectable to a female feeding tube connector of a feeding tube or may have a female feeding tube connector that is uniquely connectable to a male feeding tube connector of a syringe. With the male and female feeding tube connectors connected, the deformable receptacle and the feeding tube or syringe are in fluid tight fluid communication to allow the flowable food product to be forced out of the opening of the deformable receptacle and into the feeding tube or syringe when the deformable receptacle is squeezed.

Method for packaging a particulate material, paste or gel, said method involving the steps of: (i) providing a rigid package, having a bottom, a top, and a vertical wall, said rigid package being opened at the top and containing an adhering layer on at least part of the inside bottom or inside vertical wall, (ii) filling a flexible package with particulate material, paste or gel, (iii) contacting the filled flexible package with the adhering layer, thereby adhering the flexible package to the rigid package, (iv) closing the rigid package.

Provided is a filling apparatus including: a conveyor line configured to intermittently convey spout-equipped bags, which are suspended so that spouts protruding from one side of the spout-equipped bags, the bags being flat, are located on an upper side and the bags are located on a lower side, in a width direction of the suspended spout-equipped bags on a movement straight line; a printing apparatus disposed in the middle of the conveyor line and configured to print manufacturing information on the suspended spout-equipped bags; and nozzles configured to fill the suspended spout-equipped bags with a liquid material through the spouts. The conveyor line is further configured to convey the spout-equipped bags so that fronts of the spout-equipped bags directly face the printing apparatus.

The present disclosure relates to a content charging device for a container apparatus in which a liquid is stored, and a content charging method using the same. In the content charging device of the preset disclosure, the container apparatus includes an external container in which a storage space is formed and which includes a container-side opening communicating with the storage space; and a pouch assembly installed on the external container. The pouch assembly includes a pouch unit which is formed of an elastic material and has a charging space formed to be charged with a liquid, wherein the pouch unit is partly inserted into the storage space through the container-side opening. The content charging device includes a charging means that is inserted into the charging space of the pouch unit, has flow holes which are formed on one side thereof and through which air or a content is caused to flow, and is slidable toward an end of the pouch unit from a pouch-side opening of the pouch unit.

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.

The present invention is an automated electromechanical gripper for handling a container. In one embodiment, the gripper is used in an automated liquid dispenser. The gripper can grab a single container, remove the container from a nested stack of containers, and move the container in three directions (horizontally, laterally, and vertically).

The present disclosure relates to a container device capable of storing and discharging liquid. A container device according to the present disclosure includes a pouch having the elastic property; a rigid container having a rigid outer case compared to the pouch and having a container opening at one side thereof; a coupling unit coupled to the container opening and for coupling an opening of the pouch with the container opening; and an air passage formed at the rigid container or the coupling unit. When the pressure is applied to the inside of the pouch and the volume of the pouch is increased, the volume of a space between the pouch and the rigid container is reduced by an increase in the volume of the pouch, such that the air in the space is discharged to the outside of the rigid container through the air passage to perform the depressurization of the space.

A process of producing hydrogen water includes the steps of: providing a source of spring water; cooling the water to a temperature of from 33 to 38 degrees F.; providing a source of hydrogen gas; contacting the cooled water with the hydrogen gas in a venturi injector forming micro-sized hydrogen bubbles in the water and diffusing hydrogen gas into the cooled water; recirculating the water through the venturi injector until a predetermined hydrogen content in the water is realized forming hydrogen water having a hydrogen content of from 3 to 10 parts per million.

A table top appliance rapidly fills a pouch through some mechanical actuation or automation by inserting the pouch into the appliance and the machine fills the pouch. One embodiment of the food pouch filling station may be a mechanical version that includes a method to pump or push the contents of the container into the pouch. A second embodiment of the food pouch filling station may be an electric pump version that fills pouches and may have the option of controlling the amount of food dispensed. The food pouch filling station may also include a valve that connects to the pouch to control the flow to the pouch.