A packaging and container system addresses the different needs for packaging bananas, transporting the bananas, and displaying the bananas for sale, all in the same container. The system uses a box or box frame, and at least one perimeter wall that is an independent piece. A film (e.g. plastic sheet) is used to suspend the bananas inside the box during transport to prevent or reduce friction or rubbing between bananas and between the bananas and the sides of the container. Once packed, the box can rotated to its transport position where the bananas are suspended within the film inside the container. Once at the retail location, the container can again be laid on a side and a perimeter wall removed to expose and display the bananas.

A product stacking system may include an open bag detection subsystem and a product stacking subsystem. The open bag detection subsystem may agitate bags to cause product to be displaced out of open bags and determine if a bag is open by comparing a weight of the bag after the agitation to a target threshold. The product stacking subsystem may include a robotic arm and a controller that moves the robotic arm between posts of a bin based on an orientation of the bin. A turntable rotates the bin and can operate as a an addition axis of movement of the robot.

The present invention provides devices, systems and methods for reliably inserting packing trays into packing crates. Thus, the present invention solves the problems of conventional packaging lines by providing a positioning device for depositing packing trays into packing crates. Particularly, the present invention can be incorporated into existing fruit and vegetable packing lines.

The present invention provides devices, systems and methods for reliably inserting packing trays into packing crates. Thus, the present invention solves the problems of conventional packaging lines by providing a positioning device for depositing packing trays into packing crates. Particularly, the present invention can be incorporated into existing fruit and vegetable packing lines.

An assembly may include a shelf-stable pouch for fruits or vegetables. The assembly may comprise a pouch having a closed condition and an open configuration. The closed configuration may be configured to seal portions of at least one of the fruits and vegetables and brine prior to heating the pouch for pasteurization. The open condition may allow for the removal and serving of the portions after pasteurization from heating.

A system for controlling low temperature injury of cold-sensitive fruit vegetables by combining intelligent pre-cooling and segmented controlled atmosphere storage includes a sensor detection module, a data collection module, a wireless communications module, a terminal, and a control system, where the sensor detection module detects carbon dioxide, ethylene, and the temperature and the humidity within a fresh keeping chamber, then data is collected by using the data collection module connected to the sensor detection module, and then varying data is transmitted to the terminal by using the wireless communications module connected to the data collection module; the sensor detection module is connected to the control system; and after the terminal reads data detected by a sensor, an environment parameter is controlled by using the control system.

Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a movable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

Embodiments of product handling systems facilitate transfer of individual product items from incoming bulk form into dedicated trays for inspection, sorting, selection, and packaging. Inspection may comprise interrogation of product items within a tray by electromagnetic (e.g., optical, hyperspectral) or other (e.g., physical, acoustic, gas sensing, etc.) techniques. Prior to packaging, product items disposed within the tray may be stored in a movable carousel responsible for controlling environmental factors such as temperature, humidity, illumination, ambient gases, product-to-product interactions, and/or others. Movement of product items from a carousel's transfer station to an outside staging position may be accomplished using robots and/or conveyor belts. Embodiments may allow rapid, low-cost consumer selection of specific individual product items based upon their accompanying metadata (e.g., source, identifier), in combination with the results of inspection (e.g., visual appearance). Embodiments may receive product items pre-packaged in tray format to expedite inspection, sorting, selection, and packaging.

A method is provided of making form fill and seal (FFS) bag formed at least in part from an open mesh material that includes filaments that intersect one another. At least some of the filaments are composite filaments having a carrier portion of a relatively high melting point and a bonding portion of a relatively low melting point, the bonding portion of each composite filament being thermally bonded to other filaments at points of intersection. The material may be a non-woven fabric that contains at least two layers of weft filaments that may be bordered on one or both sides by a layer of warp filaments. When compared to other open mesh materials, the open mesh material disclosed herein has a superior combination of some or all of high strength, light weight, high dimensional stability, and openness.

The present disclosure is directed to films. The films can include polyamic acid (PAA). Methods of making and using the film for food product coverings is also included.