A method for displaying a key parameter of a food treatment machine, a food processing machine, or a food packaging machine, the method includes displaying a time history of the key parameter from a first time in the past to a current time on a first display region of a display equipment, and for at least one event that has occurred between the first time and the current time, an event position is determined in the first display region, and an event symbol is displayed at the determined event position in the first display region.

A method for displaying a key parameter of a food treatment machine, a food processing machine, or a food packaging machine, the method includes displaying a time history of the key parameter from a first time in the past to a current time on a first display region of a display equipment, and for at least one event that has occurred between the first time and the current time, an event position is determined in the first display region, and an event symbol is displayed at the determined event position in the first display region.

The present invention provides a wrapping robot with enhanced safety and reliability, the wrapping robot being able to prevent a safety accident that occurs when a worker or another object hits against a handle protruding outward from a robot body while the robot revolving around a product to perform wrapping by biasing the handle toward the product to be wrapped; and being able to improve reliability of wrapping by stopping operation of the wrapping robot when a wrap is loosened or cut during wrapping, using a sensor that senses loosening or cutting of a wrap.

The present invention provides a wrapping robot with enhanced safety and reliability, the wrapping robot being able to prevent a safety accident that occurs when a worker or another object hits against a handle protruding outward from a robot body while the robot revolving around a product to perform wrapping by biasing the handle toward the product to be wrapped; and being able to improve reliability of wrapping by stopping operation of the wrapping robot when a wrap is loosened or cut during wrapping, using a sensor that senses loosening or cutting of a wrap.

A structure for supporting and transporting a plurality of pieces in operations of assembling/disassembling and/or change of configuration in a manufacturing line includes at least one support surface; a plurality of areas defined on the at least one support surface, each of the areas includes a respective piece of the plurality of pieces or being configured to house a respective piece of the plurality of pieces; and a plurality of warning devices selectively actuatable automatically, each warning device being associated to a respective area of the plurality of areas.

A structure for supporting and transporting a plurality of pieces in operations of assembling/disassembling and/or change of configuration in a manufacturing line includes at least one support surface; a plurality of areas defined on the at least one support surface, each of the areas includes a respective piece of the plurality of pieces or being configured to house a respective piece of the plurality of pieces; and a plurality of warning devices selectively actuatable automatically, each warning device being associated to a respective area of the plurality of areas.

A system includes a tool for installing a cable material around a set of elongate members. The tool includes a housing; a cartridge detachably connected to the housing; and a jaw detachably connected to the housing. The cartridge has a length of cable material. The jaw is configured to extend around the set of elongate members to install the length of cable around the set of elongate members. A welding horn is detachably connected to the housing. At least one processor is configured to read a programmable chip. The programmable chip stores a set of parameters for at least one of the cartridge, the jaw, or the welding horn.

A system includes a tool for installing a cable material around a set of elongate members. The tool includes a housing; a cartridge detachably connected to the housing; and a jaw detachably connected to the housing. The cartridge has a length of cable material. The jaw is configured to extend around the set of elongate members to install the length of cable around the set of elongate members. A welding horn is detachably connected to the housing. At least one processor is configured to read a programmable chip. The programmable chip stores a set of parameters for at least one of the cartridge, the jaw, or the welding horn.

An air extracting device (2) at least includes a processor (21), a motor (23), an air-extracting unit (24), and a wireless transmitting unit (25), and a method of the air extracting device (2) for calculating remaining time required for extracting action includes following steps: activating the motor (23) after the air extracting device (2) and a sealed bag (1) are jointed together; driving the air-extracting unit (24) to execute an extracting action by the activated motor (23) for extracting air from the sealed bag (1); monitoring load current of the motor (23) by the processor (21) while executing the extracting action; calculating a remaining time required for the extracting action by the processor (21) according to a variation of the load current; and, transmitting the remaining time required for the extracting action to a mobile device (4) through the wireless transmitting unit (25) for displaying thereon.

An air extracting device (2) at least includes a processor (21), a motor (23), an air-extracting unit (24), and a wireless transmitting unit (25), and a method of the air extracting device (2) for calculating remaining time required for extracting action includes following steps: activating the motor (23) after the air extracting device (2) and a sealed bag (1) are jointed together; driving the air-extracting unit (24) to execute an extracting action by the activated motor (23) for extracting air from the sealed bag (1); monitoring load current of the motor (23) by the processor (21) while executing the extracting action; calculating a remaining time required for the extracting action by the processor (21) according to a variation of the load current; and, transmitting the remaining time required for the extracting action to a mobile device (4) through the wireless transmitting unit (25) for displaying thereon.