A convertible cutting device (1, 1) comprises a first handle (2, 2) with a first blade (8, 8) and a second handle (5, 5) with a second blade (11, 11), and a conversion device (14, 14) being configured to adapt at least a scissor position and a knife position. The conversion device (14, 14) and the second handle (5, 5) comprise in each case at least one abutment section (15, 15′; 18, 18) being configured to abut against one another when the conversion device (14, 14) is in the knife position and when the first handle (2, 2) and the second handle (5, 5) are in the closed position, whereby the conversion device (14, 14) is retained in the knife position.

A cutter comprises one or more blades, a hinge coupled to the blades, and one or more adjustable handles pivotally coupled to the hinge. When being adjusted, the one or more adjustable handles permit adjusting their positions with respect to the opposing handle without concurrently actuating the blades.

A cutter comprises one or more blades, a hinge coupled to the blades, and one or more adjustable handles pivotally coupled to the hinge. When being adjusted, the one or more adjustable handles permit adjusting their positions with respect to the opposing handle without concurrently actuating the blades.

A convertible cutting device (1, 1′) comprises a first handle (2, 2′) with a first blade (8, 8′) and a second handle (5, 5′) with a second blade (11, 11′), and a conversion device (14, 14′) being configured to adapt at least a scissor position and a knife position. The conversion device (14, 14′) and the second handle (5, 5′) comprise in each case at least one abutment section (15, 15′; 18, 18′) being configured to abut against one another when the conversion device (14, 14′) is in the knife position and when the first handle (2, 2′) and the second handle (5, 5′) are in the closed position, whereby the conversion device (14, 14′) is retained in the knife position.

A convertible cutting device (1, 1′) comprises a first handle (2, 2′) with a first blade (8, 8′) and a second handle (5, 5′) with a second blade (11, 11′), and a conversion device (14, 14′) being configured to adapt at least a scissor position and a knife position. The conversion device (14, 14′) and the second handle (5, 5′) comprise in each case at least one abutment section (15, 15′; 18, 18′) being configured to abut against one another when the conversion device (14, 14′) is in the knife position and when the first handle (2, 2′) and the second handle (5, 5′) are in the closed position, whereby the conversion device (14, 14′) is retained in the knife position.

Manufacturing pairs of scissors, each pair including a first blade and a second blade, which are rotatably connected to one another by a fastening element, where each blade includes a front end, a rear end opposite the front end, a front portion extending towards the front end and forming a cutting element, and a rear portion extending towards the rear end and provided to support a handle, where the front portion of the first blade of at least one first pair of scissors and the front portion of the first blade of at least one second pair of scissors are designed differently, whereas the rear portion of the first blade of the first pair of scissors and the rear portion of the first blade of the second pair of scissors are designed identically.

Manufacturing pairs of scissors, each pair including a first blade and a second blade, which are rotatably connected to one another by a fastening element, where each blade includes a front end, a rear end opposite the front end, a front portion extending towards the front end and forming a cutting element, and a rear portion extending towards the rear end and provided to support a handle, where the front portion of the first blade of at least one first pair of scissors and the front portion of the first blade of at least one second pair of scissors are designed differently, whereas the rear portion of the first blade of the first pair of scissors and the rear portion of the first blade of the second pair of scissors are designed identically.

A cutting device for the chipless cutting of a material comprises a cutting part and a supporting part. The cutting part and the supporting part are designed to be rotated with respect to one another about an axis of rotation between an open position and a closed position. A hand lever is articulated to the supporting part for pivoting about a pivot axis. A ratchet mechanism converts a back-and-forth motion of the hand lever into a continuous rotational motion of the cutting part toward the closed position. The ratchet mechanism includes a toothing and a drive pawl, which can be brought into an effective position with respect to the toothing. Furthermore, the cutting device comprises a coupling mechanism, which converts a one-time pivoting motion of the hand lever into a rotational motion of the cutting part. A separate coupling element transmits force from the hand lever to the cutting part.

A cutting device for the chipless cutting of a material comprises a cutting part and a supporting part. The cutting part and the supporting part are designed to be rotated with respect to one another about an axis of rotation between an open position and a closed position. A hand lever is articulated to the supporting part for pivoting about a pivot axis. A ratchet mechanism converts a back-and-forth motion of the hand lever into a continuous rotational motion of the cutting part toward the closed position. The ratchet mechanism includes a toothing and a drive pawl, which can be brought into an effective position with respect to the toothing. Furthermore, the cutting device comprises a coupling mechanism, which converts a one-time pivoting motion of the hand lever into a rotational motion of the cutting part. A separate coupling element transmits force from the hand lever to the cutting part.

A garden shears has a first cutting member, a second cutting member and a protecting member. The first cutting member and the second cutting member are combined adjacent to each other, and the first cutting member and the second cutting member respectively have a blade portion facing the blade portion of the other cutting member. The blades of the first cutting member and the second cutting member are used for opposite positioning cutting, instead of staggered cutting after closing, which can avoid the formation of two different cut surfaces on both sides of the branches. The protecting member has a securing aperture and an arced slot, and the securing aperture is a polygonal aperture with multiple engaging edges.