A filling device for a metering of a given weight and/or volume of a filling material (14) that is to be metered, including a collecting container (20) which is configured for the filling material (14) that is to be metered to be collected therein, and further including a metering element which is configured, for a metering of the filling material (14), to remove a defined volume of the filling material (14) out of the collecting container (20), and including a support module (26) movably supporting the metering element (24, 28).

There is provided a lifting apparatus (16) comprising a lifting frame (16a) configured to be mechanically coupled to a packaging machine (12), and configured to couple with a feed device (14), wherein the lifting frame (16a) is configured to translate, raise and lower the feed device (14) relative to the packaging machine (12), and a packaging system comprising a packaging machine (12) with said lifting apparatus (16) wherein said packaging machine (12) is configured to detachably couple to a feed device (14), wherein the mass of the packaging machine (12) acts to counterbalance at least a portion of the mass of the feed device (14) whilst the feed device (14) is being translated, raised or lowered relative to the packaging machine (12). There is further provided methods of operating said packaging system for installing to and removing from the packaging machine (12) the feed device (14).

There is provided a lifting apparatus (16) comprising a lifting frame (16a) configured to be mechanically coupled to a packaging machine (12), and configured to couple with a feed device (14), wherein the lifting frame (16a) is configured to translate, raise and lower the feed device (14) relative to the packaging machine (12), and a packaging system comprising a packaging machine (12) with said lifting apparatus (16) wherein said packaging machine (12) is configured to detachably couple to a feed device (14), wherein the mass of the packaging machine (12) acts to counterbalance at least a portion of the mass of the feed device (14) whilst the feed device (14) is being translated, raised or lowered relative to the packaging machine (12). There is further provided methods of operating said packaging system for installing to and removing from the packaging machine (12) the feed device (14).

A tubular bag machine having a longitudinal sealing element having two transverse sealing jaws which are moveable against each other to transversely seal a film tube, having a mechanism which moves the transverse sealing jaws, a filling device for filling the unsealed tubular bags with a filling material, a separating element for separating individual filled tubular bags, a dosing device disposed upstream of the filling device, and a transfer element having several transfer containers between the filling device of the tubular bag machine and the dosing device. The filling material is transferred from the dosing device to the transfer containers, and the transfer containers are transported to a dispensing station along a transfer line, and the filling material is transferred to the filling device, and the transfer containers are transported back along a return transfer line.

A tubular bag machine having a longitudinal sealing element having two transverse sealing jaws which are moveable against each other to transversely seal a film tube, having a mechanism which moves the transverse sealing jaws, a filling device for filling the unsealed tubular bags with a filling material, a separating element for separating individual filled tubular bags, a dosing device disposed upstream of the filling device, and a transfer element having several transfer containers between the filling device of the tubular bag machine and the dosing device. The filling material is transferred from the dosing device to the transfer containers, and the transfer containers are transported to a dispensing station along a transfer line, and the filling material is transferred to the filling device, and the transfer containers are transported back along a return transfer line.

The present invention belongs to the technical field of food processing, and in particular, relates to an adaptive quantitative sub-packaging method for fried rice with multiple side dishes in a central kitchen and an apparatus therefor. The present invention mainly includes self-construction of a key side dish recognition model, self-evaluation of the key side dish recognition model, adaptive quantification of batch fried rice, and the apparatus matched with the three-step operation.

The present invention belongs to the technical field of food processing, and in particular, relates to an adaptive quantitative sub-packaging method for fried rice with multiple side dishes in a central kitchen and an apparatus therefor. The present invention mainly includes self-construction of a key side dish recognition model, self-evaluation of the key side dish recognition model, adaptive quantification of batch fried rice, and the apparatus matched with the three-step operation.

An apparatus configured to provide portioned instances of a compressible material includes a channel assembly, a gas source, a cutting assembly, and a discharge assembly. The channel assembly holds a bulk instance of the material extending through upper and lower channels of a continuous channel. The gas source supplies gas to compress the bulk instance. The cutting assembly moves in relation to the channel assembly to isolate the upper and lower channels, severing upper and lower material portions of the bulk instance. The discharge assembly directs gas to impinge on a lower face of the cutting assembly to discharge the lower material portion as a portioned instance. The channel assembly may be moveable, where operation of the gas source, cutting assembly, and/or discharge assembly are based on moving the channel assembly between various positions. The gas supply may be controlled based on a determined property of the portioned instance.

An apparatus configured to provide portioned instances of a compressible material includes a channel assembly, a gas source, a cutting assembly, and a discharge assembly. The channel assembly holds a bulk instance of the material extending through upper and lower channels of a continuous channel. The gas source supplies gas to compress the bulk instance. The cutting assembly moves in relation to the channel assembly to isolate the upper and lower channels, severing upper and lower material portions of the bulk instance. The discharge assembly directs gas to impinge on a lower face of the cutting assembly to discharge the lower material portion as a portioned instance. The channel assembly may be moveable, where operation of the gas source, cutting assembly, and/or discharge assembly are based on moving the channel assembly between various positions. The gas supply may be controlled based on a determined property of the portioned instance.

The technology described herein generally relates to an automated packaging apparatus and system that packages loose particles into a conical container as well as the final folded packages. More specifically, loose plant matter, such as crumbled dried leaves, are supplied to successive paper cones. The apparatus packs the crumbled leaves into the cones, applies air bursts to pack the material within the cone, closes the wide top portion of the cone, and then runs a quality control check to ensure that the final filled cone meets preset specifications.