A garden shears structure includes a first grip, a second grip, and an elastic component. The garden shears structure uses the elastic component to push open the first and second grips and reach the purpose of opening and closing the blade part and the blade jaw part for shearing. When the upper and lower seats of the elastic component are stretched and pushed by the spring, the upper and lower seats can move along the shaft column to achieve a linear displacement effect, so that the elastic component can provide the first and second grips with opening and closing actions in the compressed and stretched state along the axis, thereby making the use of the shears smoother.

A hand tool includes a first handle forming a channel, and a second handle including a cutting member. A linkage is attached in pivotal arrangement to the first handle at the channel and to a cutting blade. The cutting blade is attached in pivotal arrangement to the second handle. The first handle is pivotally attached to the second handle via a fastener. The first handle includes a first portion, and a second portion includes a handle grip. The first portion extends substantially along a first reference axis, and the second portion extends substantially along a second reference axis. The first reference axis and the second reference axis extend at an acute angle relative to one another. The channel extends substantially along the first reference axis at the first portion.

The invention relates to a cutting tool (1), comprising a jaw (2) with a first jaw member (3) and a second jaw member (4) pivotably connected to each other at a first pivot point (5). A first handle (6) has a first end (8) attached to the first jaw member (3) and a first gear section (9) extends from the first handle (6) towards a second handle (7). The second handle (7) is rotatably connected to the second jaw member (4). To obtain a cutting tool which is well suited for efficient cutting of both large and small objects, a second gear section (11) is provided between the second handle (7) to engage the first gear section (9). The second handle (7) is provided with an actuator (12) which in a first position locks the second gear section (11) to rotate with the second handle (7) and forces the second gear section (11) to rotate along the first gear section (9) to change a distance between the first (6) and second handle (7) when the second handle (7) is rotated, and which in a second position releases the second gear section (11) from the second handle (7), so that mutual rotation between the the second gear section (11) and the second handle (7) is possible.

The invention relates to a cutting tool (1), comprising a jaw (2) with a first jaw member (3) and a second jaw member (4) pivotably connected to each other at a first pivot point (5). A first handle (6) has a first end (8) attached to the first jaw member (3) and a first gear section (9) extends from the first handle (6) towards a second handle (7). The second handle (7) is rotatably connected to the second jaw member (4). To obtain a cutting tool which is well suited for efficient cutting of both large and small objects, a second gear section (11) is provided between the second handle (7) to engage the first gear section (9). The second handle (7) is provided with an actuator (12) which in a first position locks the second gear section (11) to rotate with the second handle (7) and forces the second gear section (11) to rotate along the first gear section (9) to change a distance between the first (6) and second handle (7) when the second handle (7) is rotated, and which in a second position releases the second gear section (11) from the second handle (7), so that mutual rotation between the the second gear section (11) and the second handle (7) is possible.

A garden shears structure has a first cutting member, an anvil, a second cutting member, a bolt, and a plurality of pivoting members. The second cutting member has a blade base, a driving member, the two connecting bar and two positioning plates. The first cutting member has two anvil bases with an arced long aperture, a first anvil base aperture and a second anvil base aperture. An opening is formed on the lower side of the blade base which has a first blade base aperture and a second blade base aperture. The driving member has two protrusions. Aa first driving member aperture and a second driving member aperture are disposed through the two protrusion respectively. A first connecting bar aperture and a second connecting bar aperture are disposed on the connecting bar. The positioning plate has a first positioning plate aperture and a second positioning plate.

A pruner includes a stationary unit, a movable unit, and a driving unit, wherein the stationary unit is pivotally connected to the movable unit, and the movable unit is pivotally connected to the driving unit. The pruner is operated by a geared mechanism wherein movement of a second handle on the driving unit drives movement of a second blade on the movable unit towards a first blade on the stationary unit through engagement of a second transmission gear on the driving unit with a first transmission gear on the stationary unit. The pruner further includes a first sliding groove on the stationary unit, a second sliding groove on the movable unit, and a variable gate opening button penetrating the sliding grooves. The configuration allows for adjustment of the span between the handles by setting the variable gate opening button at different positions of the first sliding groove.

A pruner includes a stationary unit, a movable unit, and a driving unit, wherein the stationary unit is pivotally connected to the movable unit, and the movable unit is pivotally connected to the driving unit. The pruner is operated by a geared mechanism wherein movement of a second handle on the driving unit drives movement of a second blade on the movable unit towards a first blade on the stationary unit through engagement of a second transmission gear on the driving unit with a first transmission gear on the stationary unit. The pruner further includes a first sliding groove on the stationary unit, a second sliding groove on the movable unit, and a variable gate opening button penetrating the sliding grooves. The configuration allows for adjustment of the span between the handles by setting the variable gate opening button at different positions of the first sliding groove.

A finger-mounted garden trimmer assembly includes first and second pairs of scissors, each including a first blade and a second blade connected together by a scissor axle, first, second, and third finger support sleeves, each designed to fit onto a human finger, and first, second, and third blade-mounting structures, one each attached to the first, second, and third finger support sleeves. The first blade-mounting structure is pivotably connected to a pivot end of the first blade of the first pair of scissors. The second blade-mounting structure is pivotably connected to a pivot end of the second blade of the second pair of scissors. The third blade-mounting structure is positioned between the first and second blade-mounting structures and is pivotably connected to a pivot end of the second blade of the first pair of scissors and to a pivot end of the first blade of the second pair of scissors.

Recycling-friendly gardening shears include a metallic unit and a nonmetallic unit. The metallic unit has metallic components. At least one of the metallic components has an engagement space. The nonmetallic unit has engaging portions. The metallic components are smoothly coupled to the nonmetallic unit as soon as the engagement spaces engage with the engaging portions. When the gardening shears are no longer usable and thus are suitable for recycling, a user only needs to exert a simple pull to separate the engaging portions quickly from the engagement spaces and thus conveniently detach the nonmetallic unit from the metallic components. The gardening shears include a metallic unit and a nonmetallic unit. The metallic unit has metallic components, such as a gardening shear body, resilient element, block, spring, and positioning pin. The nonmetallic unit has two pads, a buffer and a knob which are mounted on the gardening shear body.

Recycling-friendly gardening shears include a metallic unit and a nonmetallic unit. The metallic unit has metallic components. At least one of the metallic components has an engagement space. The nonmetallic unit has engaging portions. The metallic components are smoothly coupled to the nonmetallic unit as soon as the engagement spaces engage with the engaging portions. When the gardening shears are no longer usable and thus are suitable for recycling, a user only needs to exert a simple pull to separate the engaging portions quickly from the engagement spaces and thus conveniently detach the nonmetallic unit from the metallic components. The gardening shears include a metallic unit and a nonmetallic unit. The metallic unit has metallic components, such as a gardening shear body, resilient element, block, spring, and positioning pin. The nonmetallic unit has two pads, a buffer and a knob which are mounted on the gardening shear body.