An electromechanical double-bladed fruit and vegetable peeling and cutting machine comprising a holding mechanism (1), a peeling mechanism (2), and a cutting mechanism (3) sequentially provided in a direction of fruit and vegetable processing. The holding mechanism receives and holds a fruit or vegetable, and pushes the fruit or vegetable toward the peeling mechanism for positioning. The peeling mechanism performs positioning, measures actual cutting height of the fruit or vegetable, and adaptively peels the fruit or vegetable by means of two peeling blades. The cutting mechanism removes a top and a bottom portion of the peeled fruit or vegetable, and cuts the fruit or vegetable into pieces. A processing method for the electromechanical double-bladed fruit and vegetable peeling and cutting machine is also disclosed, and comprises: using a holding mechanism to hold and fix a fruit or vegetable in a processing position; using a peeling structure to accurately measure the height of the fruit or vegetable to be processed; using two peeling blades to efficiently and adaptively peel the fruit or vegetable; and finally engaging a pushing cylinder (27), to sequentially push multiple fruits and vegetables toward a cutting blade (37) such that the fruits and vegetables are cut into pieces. A third telescopic cylinder participates in the processing steps by pushing cutting blades such that the bottoms and the tops of the fruits and vegetables are removed. The invention reduces processing time, and improves productivity.

Provided are a hole machining apparatus for an optical film, comprising: a clamping part for fixing a plurality of optical films in stacked laminated state; and a machining part for performing a hole operation on a predetermined region of the plurality of optical films so as to sequentially pass through the optical films along the laminated direction in a state where the optical films are fixed to the clamping part, wherein upon the hole operation, the machining part comprises a drill part provided to perform a primary hole machining operation and a bite unit provided to perform a secondary hole operation in the primary hole operation region. Also provided is a hole machining method for an optical film, comprising clamping a plurality of laminated optical films at a predetermined pressure in the hole machining apparatus.

Provided are a hole machining apparatus for an optical film, comprising: a clamping part for fixing a plurality of optical films in stacked laminated state; and a machining part for performing a hole operation on a predetermined region of the plurality of optical films so as to sequentially pass through the optical films along the laminated direction in a state where the optical films are fixed to the clamping part, wherein upon the hole operation, the machining part comprises a drill part provided to perform a primary hole machining operation and a bite unit provided to perform a secondary hole operation in the primary hole operation region. Also provided is a hole machining method for an optical film, comprising clamping a plurality of laminated optical films at a predetermined pressure in the hole machining apparatus.

An article of manufacture for an all-in-one beauty product extraction device is disclosed. The extraction device comprises a device frame, a soft tube capture slot, a locking and sealing arm, and a cutting handle. A safely-contained cutting blade is coupled to an underside of the cutting handle. The cutting handle wraps around the locking and sealing arm such that the cutting handle may slide up and down the length of the locking and sealing arm to cut the soft tube. Leaving the locking and sealing arm in a closed position seals the soft tube by pinching the opened end shut between an edge of the soft tube capture slot and the locking and sealing arm.

A cutting machine with improved log feed channels includes a plurality of feed channels of logs, a blade assembly for cutting logs, and a discharge assembly of final rolls and head and end trims, wherein every feed channel includes a clamp and a plurality of pushers, chain-moved, for feeding the logs in the clamp, wherein every feed channel includes a pair of chains and every pusher is jointly connected to both the chains of the pair of chains, wherein every chain of the pair of chains has a closed-loop extension defined by four pinions, describing an upper feed branch, a descent branch, a lower return branch and an ascent branch of the pusher.

A cutting machine with improved log feed channels includes a plurality of feed channels of logs, a blade assembly for cutting logs, and a discharge assembly of final rolls and head and end trims, wherein every feed channel includes a clamp and a plurality of pushers, chain-moved, for feeding the logs in the clamp, wherein every feed channel includes a pair of chains and every pusher is jointly connected to both the chains of the pair of chains, wherein every chain of the pair of chains has a closed-loop extension defined by four pinions, describing an upper feed branch, a descent branch, a lower return branch and an ascent branch of the pusher.

A processing device includes a mounting portion, a holding member configured to hold the target object, a first mover configured to move a mounting portion, a second mover configured to move the mounting portion and the holding member, a processor, and a memory. The processing device performs processing on a target object by penetrating the target object using a processing tool mounted to the mounting portion. The processor acquires processing data representing control conditions of the first mover and the second mover for causing the processing tool to penetrate the target object and perform processing on the target object. The processor controls the first mover and the second mover, on the basis of the acquired processing data, in a state in which the target object is held by the first holder, to cause the processing tool to penetrate the target object and perform the processing on the target object.

A processing device includes a mounting portion, a holding member configured to hold the target object, a first mover configured to move a mounting portion, a second mover configured to move the mounting portion and the holding member, a processor, and a memory. The processing device performs processing on a target object by penetrating the target object using a processing tool mounted to the mounting portion. The processor acquires processing data representing control conditions of the first mover and the second mover for causing the processing tool to penetrate the target object and perform processing on the target object. The processor controls the first mover and the second mover, on the basis of the acquired processing data, in a state in which the target object is held by the first holder, to cause the processing tool to penetrate the target object and perform the processing on the target object.

The present invention relates to a graft element (1) for joining together plant stem sections. The graft element is made of a resilient material and takes the form of a tubular structure having a hollow center that extends in a longitudinal direction so as to form a cylinder (2). The graft element further comprises a side opening (3) along its length and two elongated members. The side opening is connected to the hollow center over the entire length of the graft element. The two elongated members are located at opposite sides of the side opening and oriented substantially parallel thereto. The elongated members are provided with cutouts for receiving a gripping unit. The invention further relates to systems and methods for joining plant stem sections using the graft element. Finally, the invention relates to a system and a method for preparing the graft element.

A material handling apparatus and method is disclosed, including a grabber clamp apparatus and method for handling, such as grabbing and pulling, elongate binding material. The grabber clamp is capable of gripping one or more elongate binding material strands securely enough to pull it from the bale but without cutting the elongate binding material strand(s). The current invention also provides an elongate binding material puller for removing elongate binding material from a bale. The elongate binding material puller should be capable of automatically, mechanically removing elongate binding material from a bale. The method uses a grabber clamp to grip a strand of elongate binding material between two blunt points such that a portion of the elongate binding material is free from clamping pressure between the two blunt points.