An oscillatory power tool that is capable of using various types of cutting tools is disclosed. The power tool includes an output shaft for mounting one of the cutting tools and driving the cutting tool in an oscillating rotary motion. An end of the output shaft has a driving section for engaging with a securing section of the cutting tool. The power tool further includes a fastener connected to the output shaft at the end and connectable to the securing section of the cutting tool for fastening the cutting tool to the end of the output shaft. The driving section has a fitting surface for contacting a surface of the securing section. Through a close fit between the friction surface and the surface of the securing section, the power tool can be connected with different types of cutting tools, which greatly improves the universality and convenience of the power tool.

An apparatus and method for cutting blocks of frozen food into irregular shapes comprises a slicer unit carrying a cutting blade and chutes for feeding logs of frozen food to said blade. The chute extends from a chute inlet to a chute outlet, having a central longitudinal axis extending from the center of the chute inlet to center of chute outlet. The cutting blade is positioned below the chute outlets wherein said elongate blocks of processed food are fed into said chute inlet through the chute to the chute outlet, to said blade, said blade sectioning the blocks into smaller pieces. The chutes are angled greater than 15 degrees and less than 90 degrees from the plane of the cutting blade and the chute is rotated about its longitudinal axis between 0 to 180 degrees from a square orientation to the plane of the blade.

An apparatus and method for cutting blocks of frozen food into irregular shapes comprises a slicer unit carrying a cutting blade and chutes for feeding logs of frozen food to said blade. The chute extends from a chute inlet to a chute outlet, having a central longitudinal axis extending from the center of the chute inlet to center of chute outlet. The cutting blade is positioned below the chute outlets wherein said elongate blocks of processed food are fed into said chute inlet through the chute to the chute outlet, to said blade, said blade sectioning the blocks into smaller pieces. The chutes are angled greater than 15 degrees and less than 90 degrees from the plane of the cutting blade and the chute is rotated about its longitudinal axis between 0 to 180 degrees from a square orientation to the plane of the blade.

The invention relates to an apparatus for a single-track or multitrack provision of web-like interleaved sheet material at a cutting region in which products supplied on one track or on multiple tracks are cut into slices and interleaved sheets are introduced which are cut off from the provided interleaved sheet material in the cutting region, comprising devices for transporting at least one material web from a material store to the cutting region, wherein a connection device is provided which is integrated into the apparatus and which is configured to connect consecutive material webs to one another on the path between the material store and the cutting region.

The invention relates to an apparatus for a multitrack provision of web-like interleaved sheet material at a cutting region in which products supplied on multiple tracks are simultaneously cut into slices and interleaved sheets are introduced which are cut off from the provided interleaved sheet material in the cutting region, having a material store which comprises a rotatably supported material roll for each track; and having a removal device which is configured for a rolling off of material webs individually per track from the material rolls.

A machine (1) for working a ribbon-shaped element (T1, T2, T2) is described, comprising at least one cutting station (2) crossed by the ribbon-shaped element (T1, T2, T2), guiding means (3, 4) adapted to position and drag the ribbon-shaped element (T1, T2, T2) onto at least one fixed plane (PI) of the cutting station (2) keeping an edge of the ribbon-shaped element (T1, T2, T2) tangent to a fixed point (A1) of the fixed plane (Pi); at least one of the guiding means (3, 4) rests onto an arm (31) free of rotating with respect to a fixed axis (33); the fixed axis (33) is at the same distance with respect to the cutting station (2) and the at least one of the guiding means (3, 4).

A machine (1) for working a ribbon-shaped element (T1, T2, T2) is described, comprising at least one cutting station (2) crossed by the ribbon-shaped element (T1, T2, T2), guiding means (3, 4) adapted to position and drag the ribbon-shaped element (T1, T2, T2) onto at least one fixed plane (PI) of the cutting station (2) keeping an edge of the ribbon-shaped element (T1, T2, T2) tangent to a fixed point (A1) of the fixed plane (Pi); at least one of the guiding means (3, 4) rests onto an arm (31) free of rotating with respect to a fixed axis (33); the fixed axis (33) is at the same distance with respect to the cutting station (2) and the at least one of the guiding means (3, 4).

This invention relates to cutting tools used to machine materials to produce new surfaces and chips of removed material. Embodiments of this invention allow round rotating cutting inserts to be used in a more economical way, with improved accuracy, with improved sealing, and with greater ease of use. The rotary support device and cutting inserts may be used in either radial or tangential mounting types of cutters. It also provides a built-in, fully sealed means of fine adjustment of the cutting insert that is useful in some applications.

There is disclosed a cutting mechanism for severing elongate fibre reinforcement material in composite material lay-up equipment, the cutting mechanism comprising a cutting element and a counteracting element which cooperate to sever fibre reinforcement material extending through the nip between them, the cutting element being mounted on an elongate arm which is pivotable about a pivot axis A spaced from the nip, to displace the cutting element relatively to the counteracting element to perform a cutting stroke, the mechanism further comprising guide means arranged to guide the fibre reinforcement material through the nip in a feed direction transverse to the pivot axis A, and an actuation device for driving the elongate arm in a cutting stroke, the actuation device acting on the elongate arm at a position away from the cutting element. There is also provided composite material lay-up equipment comprising the cutting mechanism.

Some examples of a cable cutting system include a first cutting apparatus that includes a recess to receive a cable. The system includes a second cutting apparatus separate from and attached to the first cutting apparatus. The second cutting apparatus includes multiple cutting surfaces arranged to cut the cable received at the recess.