This invention discloses a production device for green ecological hemp fiber integrated decoration wallboard, including a machine body and an operation cavity with an upward opening arranged in the machine body, and a feeding hole communicated with the outside is formed in the operation cavity, and a roller cavity with an opening is formed in the feeding hole, and a roller is arranged in the roller cavity and the end wall of the roller cavity in a rotatable mode, and the feeding device drives the decoration plate to move towards the operation cavity through the rolling wheels; the device is able to perform equal-length cutting on the decoration plate during production of the green ecological hemp fiber integrated wall decoration plate, meanwhile, the equipment can automatically push the stacked decoration plates out of the equipment, the operation is convenient, the automation degree is high, and production and popularization are convenient.

A vacuum rotary knife is fluidly connectable to a vacuum source conduit. The rotary knife includes an annular blade and a knife head. The knife head supports the blade for rotation about a rotational axis. The knife head presents a vacuum port fluidly connectable to the conduit. The vacuum port is spaced from the blade such that the knife head defines a suction pathway extending between the blade and the vacuum port.

A cutting apparatus includes: a stage on which is disposed a preliminary stacked body from which a cut stacked body having an edge is formed; a cutting unit movable along a first direction corresponding to an extension direction of the edge of the cut stacked body and with which the preliminary stacked body is cut to form the cut stacked body; a first detaching unit movable in a direction forming an acute angle with the first direction and including a first detaching tool which contacts the cut stacked body in detaching of the cut stacked body from the carrier substrate; and a second detaching unit movable in a direction parallel to the first direction and including a second detaching tool which is inserted between the cut stacked body and the carrier substrate in the detaching of the cut stacked body from the carrier substrate.

A vacuum assist anvil cutting die set includes a cutting cylinder and an anvil cylinder. The cutting cylinder has an outer diameter surface with a cutting blade and a blade cavity adjacent to the cutting blade. The cutting cylinder has a vacuum port in communication with the blade cavity and is adapted and configured to be connected to a vacuum source to apply a vacuum to the blade cavity via the vacuum port. The anvil cylinder has an outer diameter surface with an anvil pin projecting from the outer diameter surface of the anvil cylinder. The anvil pin having a diameter and shape that closely approximates the blade cavity such that when a level of vacuum is applied to the cutting cylinder and the anvil cylinder is in rotational and linear register with the cutting cylinder, the anvil pin is insertable into the corresponding blade cavity in a manner to increase the level of vacuum of the blade cavity.

A conveyor system 24 carries work items, such as flexible, pliable, food products 22, through a scanning system 28 which generates data pertaining to various physical parameters of the food products. Thereafter, the food products are transported through a processing station which may be in the form of a portioning system 30. Next, the portioned food products are transported to a harvesting system 32 utilizing a actuator 34 to unload the food product portions 36 by vacuuming the portions into a nozzle 90. Such food products are transported to one or more desired locations through a hose/tube connected to a nozzle or may be launched through the air in a trajectory aimed at the desired placement location.

A print finishing machine has a die and a drive mechanism. The drive mechanism is driven by a motor and the drive mechanism is configured to drive a stack of sheets of material through the die in order to cut the stack according to the shape of the die.

A cutting apparatus according to the present disclosure includes a cutting roller including a cutting body having a cylindrical shape and configured to rotate about an axis defined in a leftward/rightward direction, and cutting blades protruding outward in a radial direction of the cutting body further than a surface of the cutting body to cut an edible food product provided in a forward/rearward direction, and a cutting base part disposed at a position facing the cutting roller based on the edible food product to support the edible food product to be cut by the cutting roller.

A cutting and dust or slurry collecting assembly that comprises: a) a circular saw blade (4) b) a blade guard (5) c) a cover device (6), and the cover device (6) has a front end (31), a rear end (32), a top surface (34), a bottom surface (36), elongated sidewalls (35), and a longitudinal passage (45,46) for the saw blade, d) the blade guard (5) and the cover device (6) being pivotally connected or connectable to one another via a hinge (40) in or adjacent to a lower rear corner of the blade guard (5), such that the cover device and the blade guard can be turned in relation to each other, e) a discharge member (52) is provided at the rear of said hinge and has an outlet (58) which can be connected to a vacuum source, f) a connection member (12) connects the discharge member (52) with at least one of the longitudinal passage (45, 46) and the cut created rear of the longitudinal passage, g) that the direction of rotation of the saw blade (4) is such that a circumferential part of the blade which has passed beyond the bottom surface of the cover device will move in a direction upwards-rearward towards the bottom surface In particular a rear arm distance (LR) between the hinge (40) and the rear end (32) is bigger than 0.2 R and preferably bigger than 0.25 R, thereby enabling a turning of the cover device (6) by pressing the rear end (32) towards the structure to be cut.

Cutting equipment for a metal strip includes a frame, and a feeding device, a fetching device and a cutting device. The cutting device includes a first pressing mechanism, a support platform, and a vacuum generating device, the first pressing mechanism is configured to press the strip, the support platform is provided with a through hole connected to the vacuum generating device. The vacuum generating device is configured to position the strip on the support platform, the first pressing mechanism and the support platform are movable up and down respectively to form a height difference between a first strip section located on the first pressing mechanism and a second strip section located on the support platform for cutting. The equipment can automatically cut metal strips, and is more reliable in the cutting operation and has a high cutting success rate.

A dust collection assembly for a computer numerical control (CNC) cutting machine includes an adapter configured to couple to an arm of the CNC cutting machine and a head telescopically coupled to the adapter by a plurality of nested members. The CNC cutting machine includes the arm supporting a spindle and a tool holder coupled for co-rotation with the spindle. Each of the plurality of nested members are collapsible relative to each other. The head is movable between an extended position in which the nested members are configured to surround the tool holder and a tool bit, and a retracted position in which at least some of the nested members are telescopically received in the adapter. The head defines an inlet fluidly connected to the plurality of nested members when the head is at least in the extended position. The inlet is configured to fluidly connect to a vacuum.