Packaging for liquid food, where the packaging has an outer casing (2) of cardboard, an inner bag (8) of plastic foil which consists of e.g. completely recyclable bio-polyethylene plastic, where the inner bag is arranged inside the outer casing (2) and completely fills it when the inner bag is filled with the food, and an opening module, here called MF module (12), which contains an emptying device and a filling device arranged on a plastic disc (14), wherein the emptying device comprises an emptying channel (13) and a stopper (19) and where the filling device comprises a filling channel (25) and a filling plug (26) and wherein the MF module (12) is connected to the inner bag (8) by that the underside of the plastic disc (14) is welded to the outside of the inner bag so that the emptying channel (13) connected to a hole (11) in the inner bag (8) where the filling channel (25) opens into the emptying channel (13) is connected to the outer cover (2) in that top flaps (6a-6d) of the outer casing are attached to a slot (17) in the plastic disc (14) along the side edges thereof. The application also includes a method for filling the packaging and a method for producing an inner bag for the packaging.

Packaging for liquid food, where the packaging has an outer casing (2) of cardboard, an inner bag (8) of plastic foil which consists of e.g. completely recyclable bio-polyethylene plastic, where the inner bag is arranged inside the outer casing (2) and completely fills it when the inner bag is filled with the food, and an opening module, here called MF module (12), which contains an emptying device and a filling device arranged on a plastic disc (14), wherein the emptying device comprises an emptying channel (13) and a stopper (19) and where the filling device comprises a filling channel (25) and a filling plug (26) and wherein the MF module (12) is connected to the inner bag (8) by that the underside of the plastic disc (14) is welded to the outside of the inner bag so that the emptying channel (13) connected to a hole (11) in the inner bag (8) where the filling channel (25) opens into the emptying channel (13) is connected to the outer cover (2) in that top flaps (6a-6d) of the outer casing are attached to a slot (17) in the plastic disc (14) along the side edges thereof. The application also includes a method for filling the packaging and a method for producing an inner bag for the packaging.

A container lid is provided herein having structurally reinforcing ribs therein. The ribs increase the strength of the lid across a central region thereof. Specifically, the lid can have an outer perimeter and the ribs can be spaced inwardly from the outer perimeter. The inwardly spaced ribs can provide a distinct look for consumer differentiation. Additionally, the ribs can be arcuate so that they generally follow a curvature of the outer perimeter of the lid. As such, a label region within the lid central region is preserved, while the lid is still strengthened by the ribs.

A robotic automated filling and capping system is made up of a cartridge infeed conveyor, a cap infeed conveyor, an outfeed conveyor, a six-axis robot, and a selective compliance articulated robot arm, all of which are configured to work together to automatically, and sanitarily, fill and cap vape oil cartridges.

A robotic automated filling and capping system is made up of a cartridge infeed conveyor, a cap infeed conveyor, an outfeed conveyor, a six-axis robot, and a selective compliance articulated robot arm, all of which are configured to work together to automatically, and sanitarily, fill and cap vape oil cartridges.

Systems and methods for aseptically filling pharmaceutical containers with pharmaceutical fluid are disclosed. In one general aspect, these are based on an aseptically sealable chamber that includes a transfer wall to which pre-sealed pharmaceutical source and receiving containers are mounted aseptically. A robotic arm and a syringe store are disposed within the chamber along with a sterilizing facility for establishing in the chamber an aseptic condition. The robotic arm can grip and operate syringes to inject and/or extract pharmaceutical products from the containers by piercing their closures with the needles of the syringes.

A method for preparing semi-finished products in a package with the possibility of their further automated heating and/or cooking, according to which the components of semi-finished products are preliminarily prepared, they are accelerated cooling and placed in a portioned container. Sealing a container with a semi-finished product, treating it with ultraviolet radiation and applying a barcode to the container with a program for warming up and/or cooking in a microwave oven, which contains an indication of the power level of the microwave source, which is sufficient for uniform and complete heating and/or cooking of all components that make up the semi-finished product, as well as time. Shock freezing of a semi-finished product is carried out and its storage and/or transportation is carried out. Before eating a semi finished product, it is heated and/or cooked in a microwave oven equipped with a barcode reader.

A method for preparing semi-finished products in a package with the possibility of their further automated heating and/or cooking, according to which the components of semi-finished products are preliminarily prepared, they are accelerated cooling and placed in a portioned container. Sealing a container with a semi-finished product, treating it with ultraviolet radiation and applying a barcode to the container with a program for warming up and/or cooking in a microwave oven, which contains an indication of the power level of the microwave source, which is sufficient for uniform and complete heating and/or cooking of all components that make up the semi-finished product, as well as time. Shock freezing of a semi-finished product is carried out and its storage and/or transportation is carried out. Before eating a semi finished product, it is heated and/or cooked in a microwave oven equipped with a barcode reader.

A device for closing a chamber of a container having an opening for accessing the chamber comprises a plunger, a plunger seat, a container carrier and a spacer. The plunger seat releasably holds the plunger in a predefined alignment. The container carrier is arranged to be connected to the container in a predefined position and alignment in relation to the opening of the container. The spacer is arranged to position and align the plunger seat adjacent to and distant from the container carrier such that the opening of the container is open when the container is connected to the container carrier.

A flexible, sterilizable pouch includes a first gas-impermeable web, a second gas-permeable web, and the third gas-impermeable web. The webs are arranged and sealed to form a cavity portion of the pouch and a header portion of the pouch. The header portion of the pouch is gas-permeable through the second gas-permeable web. The cavity portion of the pouch is configured to hold a medical device for sterilization and is configured to be sealed from the header portion after sterilization, thereby making the cavity portion gas-impermeable. The header is also configured to be removed from the pouch, leaving the cavity portion.