The present invention provides a method for tracking food data transactions in a network data processing system comprising the steps of reading a network storage devices a packaged food production data hash tree, receiving a food data transaction from a hardware data processor in a food packaging machine, appending the food data transaction to the packaged food production data hash tree, and causing decentralised storage of identical instances of the appended packaged food production data hash tree in the plurality of network storage devices. The present invention further provides a network data processing system and a computer program for carrying out the method.

The present invention provides a method for tracking food data transactions in a network data processing system comprising the steps of reading a network storage devices a packaged food production data hash tree, receiving a food data transaction from a hardware data processor in a food packaging machine, appending the food data transaction to the packaged food production data hash tree, and causing decentralised storage of identical instances of the appended packaged food production data hash tree in the plurality of network storage devices. The present invention further provides a network data processing system and a computer program for carrying out the method.

The invention relates to a method for producing strapping. A strapping band (4) is first guided about at least one packaging piece, tightened, and equipped with a closure at band ends (4a, 4b) to be connected in a closure unit (1). Furthermore, at least one sensor (7) connected to a control unit (8) is provided in the closure unit (1). One or more closure parameters are detected by means of the control unit (8) using the sensor (7), and the closure unit (1) is correspondingly actuated. According to the invention, the sensor (7) is designed as a load cell (7) which is let into a compression ram (6a, 6b) of the closure unit (1).

The invention relates to a method for producing strapping. A strapping band (4) is first guided about at least one packaging piece, tightened, and equipped with a closure at band ends (4a, 4b) to be connected in a closure unit (1). Furthermore, at least one sensor (7) connected to a control unit (8) is provided in the closure unit (1). One or more closure parameters are detected by means of the control unit (8) using the sensor (7), and the closure unit (1) is correspondingly actuated. According to the invention, the sensor (7) is designed as a load cell (7) which is let into a compression ram (6a, 6b) of the closure unit (1).

An actuator system for fabricating a cavity within thermoplastic material includes a plurality of actuators arranged in an array. When dimensions of an item are determined, the actuator system may be programmed with data regarding such dimensions to fabricate a cavity for the item. A subset of the actuators, and distances by which each of the actuators is to be extended, may be selected based on dimensions of the item, in order to fabricate a cavity within the thermoplastic material that may accommodate the item therein. Additionally, the actuators and the distances may be selected based on intrinsic or extrinsic data regarding the item, and a cavity fabricated within the thermoplastic material may include one or more buffer zones or protective regions that are specifically formed with respect to aspects of the item.

An actuator system for fabricating a cavity within thermoplastic material includes a plurality of actuators arranged in an array. When dimensions of an item are determined, the actuator system may be programmed with data regarding such dimensions to fabricate a cavity for the item. A subset of the actuators, and distances by which each of the actuators is to be extended, may be selected based on dimensions of the item, in order to fabricate a cavity within the thermoplastic material that may accommodate the item therein. Additionally, the actuators and the distances may be selected based on intrinsic or extrinsic data regarding the item, and a cavity fabricated within the thermoplastic material may include one or more buffer zones or protective regions that are specifically formed with respect to aspects of the item.

A monitoring device for condition assessment of a packaging machine for producing packages of liquid food comprises a signal interface for connection to a plurality of vibration sensors in the packaging machine. The monitoring device includes logic to: receive measurement signals from the vibration sensors and obtain an event timing signal, IVIES, indicative of predefined work events of the packaging machine, wherein the respective work event corresponds to a mechanical action by a respective component in the packaging machine when operating to produce the packages. The monitoring device further includes logic to: identify, by use of the IVIES and in the measurement signals, signal values associated with the respective component, and evaluate the signal values for condition assessment of the respective component. The provision and use of the MES thus facilitates condition assessment of individual components in a packaging machine.

An operating station for a machine for filling and capping cartridges for electronic cigarettes is arranged along a feeding path of a conveying fine of the machine and includes: an operating device having operative positions for operating on the cartridges arranged in series along a direction parallel to the feeding path; and a device for transferring cartridges, which includes a first and second series of pick-up members, each having a number of pick-up members corresponding to the number of operative positions, and which is actuatable according to a movement of rotation about a vertical axis, for selectively interchanging positions of the series of pick-up members, between a loading/unloading position at the conveying line, wherein the pick-up members pick up or release the cartridges and a working position at the operative positions of the operating device, wherein the pick-up members pick up or release the cartridges from/into the operative positions.

An operating station for a machine for filling and capping cartridges for electronic cigarettes is arranged along a feeding path of a conveying fine of the machine and includes: an operating device having operative positions for operating on the cartridges arranged in series along a direction parallel to the feeding path; and a device for transferring cartridges, which includes a first and second series of pick-up members, each having a number of pick-up members corresponding to the number of operative positions, and which is actuatable according to a movement of rotation about a vertical axis, for selectively interchanging positions of the series of pick-up members, between a loading/unloading position at the conveying line, wherein the pick-up members pick up or release the cartridges and a working position at the operative positions of the operating device, wherein the pick-up members pick up or release the cartridges from/into the operative positions.

The disclosure provides an automated container resizing apparatus and system, an automated method of resizing a container, and a cutting tool that can be used for the resizing. In one example, the system includes the cutting tool, a controller, a conveyor, and a moveable support that can be a robotic arm. The controller can operate the conveyor to position a container in a cutting zone. The dimensions of the box and product fill height within the container are obtained and translated by the controller into a programmed cutting pattern. The controller then operates the robotic arm to perform the programmed cutting pattern on the box with the cutting tool. The cutting tool can be mounted on the robotic arm that rotates about its axis to cut side walls of the container for resizing.