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.

A shears upper finger grip has a lower substantially flat inner surface arranged in a transverse plane substantially normal to a cutting plane and dimensioned and configured to enable substantially full insertion of a thumb metacarpal bone from a right lateral side and for receiving the ball of the thumb to enable the thumb to be moved to a position on a left lateral side to an orientation substantially parallel to the cutting plane and to position the hand's thenar eminence into abutment against the flat inner surface while positioning at least exterior right lateral portions of the upper finger grip in abutment against the palm beyond the hand's thenar crease and into the region of at least one of the hand's palmar creases to enable the thenar eminence and palm of the hand to oppose the forces applied by the fingers acting on the lower finger grip.

A shears upper finger grip has a lower substantially flat inner surface arranged in a transverse plane substantially normal to a cutting plane and dimensioned and configured to enable substantially full insertion of a thumb metacarpal bone from a right lateral side and for receiving the ball of the thumb to enable the thumb to be moved to a position on a left lateral side to an orientation substantially parallel to the cutting plane and to position the hand's thenar eminence into abutment against the flat inner surface while positioning at least exterior right lateral portions of the upper finger grip in abutment against the palm beyond the hand's thenar crease and into the region of at least one of the hand's palmar creases to enable the thenar eminence and palm of the hand to oppose the forces applied by the fingers acting on the lower finger grip.

Disclosed is a blade replacement apparatus of an electric instrument, which is used to replace blades connected by a bolt, the bolt extending along a first axis, the blade replacement apparatus comprising a nut that fits the bolt to fix the blade, a nut loosening/tightening member, a locking member, and an operating member, one of the nut loosening/tightening member and the operating member having a first matching portion, the locking member having a second matching portion, wherein the operating member is movable between an operating position and a non-operating position, the operating member allowing a user to perform an operation by hand without using any instruments; when the operating member is in the non-operating position, the first matching portion engages with the second matching portion, and the rotation of the nut loosening/tightening member around the first axis is obstructed by the locking member; when the operating member is in the operating position, the first matching portion is disengaged from the second matching portion, and the rotation of the nut loosening/tightening member around the first axis tightens or loosens the nut.

Disclosed is a blade replacement apparatus of an electric instrument, which is used to replace blades connected by a bolt, the bolt extending along a first axis, the blade replacement apparatus comprising a nut that fits the bolt to fix the blade, a nut loosening/tightening member, a locking member, and an operating member, one of the nut loosening/tightening member and the operating member having a first matching portion, the locking member having a second matching portion, wherein the operating member is movable between an operating position and a non-operating position, the operating member allowing a user to perform an operation by hand without using any instruments; when the operating member is in the non-operating position, the first matching portion engages with the second matching portion, and the rotation of the nut loosening/tightening member around the first axis is obstructed by the locking member; when the operating member is in the operating position, the first matching portion is disengaged from the second matching portion, and the rotation of the nut loosening/tightening member around the first axis tightens or loosens the nut.

The present disclosure relates to the technical field of electric scissors, and in particular relates to a bidirectional driving mechanism for electric scissors blades and electric scissors. The bidirectional driving mechanism for electric scissors blade includes a fixed seat, a driving gear, a rotating shaft member, an upper blade group and a lower blade. The driving gear and the rotating shaft member are arranged on fixed seat, the lower blade and the upper blade group rotate around the rotating shaft member, an outer rack is arranged at a rear part of the lower blade, a front part of the upper blade group is an upper blade, a rear part of the upper blade group is a meshing block, and an inner rack is arranged at a rear part of the meshing block; and the inner rack and the outer rack are respectively meshed with both sides of the driving gear.

The present disclosure relates to the technical field of electric scissors, and in particular relates to a bidirectional driving mechanism for electric scissors blades and electric scissors. The bidirectional driving mechanism for electric scissors blade includes a fixed seat, a driving gear, a rotating shaft member, an upper blade group and a lower blade. The driving gear and the rotating shaft member are arranged on fixed seat, the lower blade and the upper blade group rotate around the rotating shaft member, an outer rack is arranged at a rear part of the lower blade, a front part of the upper blade group is an upper blade, a rear part of the upper blade group is a meshing block, and an inner rack is arranged at a rear part of the meshing block; and the inner rack and the outer rack are respectively meshed with both sides of the driving gear.

Hairdressing scissors include a pair of blade bodies each having a blade portion, a middle portion, and a handle portion in turn from a tip side. The handle portion includes first and second press-formed bodies each in the shape of a flat plate and facing each other along an axial center of a pivot to extend parallel to each other along a longitudinal direction of the blade body; and cylindrical collars and first and second resin materials configured to bridge the first and second press-formed bodies. The first press-formed body includes an extension portion extending toward an associated middle portion further than the second press-formed body to be connected to the associated middle portion, and the second press-formed body is spaced apart from the associated middle portion.

Hairdressing scissors include a pair of blade bodies each having a blade portion, a middle portion, and a handle portion in turn from a tip side. The handle portion includes first and second press-formed bodies each in the shape of a flat plate and facing each other along an axial center of a pivot to extend parallel to each other along a longitudinal direction of the blade body; and cylindrical collars and first and second resin materials configured to bridge the first and second press-formed bodies. The first press-formed body includes an extension portion extending toward an associated middle portion further than the second press-formed body to be connected to the associated middle portion, and the second press-formed body is spaced apart from the associated middle portion.

A hand operated shearing tool, comprising a first unit (1) comprising a first blade (11), the first blade (11) comprising a first cutting edge (112); and a second unit (2) comprising a second blade (21) and a second handle (22) connected to the second blade (21) at a proximal end (211) of the second blade (21), the second blade (21) comprising a second cutting edge (212), wherein the second unit (2) is connected rotatably to the first unit (1) about a first rotational axis (Ri) defined by a first pivot (3), the first pivot (3) comprising a first pin (31) penetrating the first blade (11) and the second blade (21); the first pin (31) is connected to the first blade (11) so that displacement of the first blade (11) in relation to the first pin (31) in a direction parallel with the first rotational axis (Ri) is prevented; the second handle (22) is connected to the second blade (21) so that rotational movement of the second handle (22) in relation to the second blade (21) about a second rotational axis (R2) is allowed; the second rotational axis (R2) is defined by a second pivot (4) interacting with the second blade (21) and the second handle (22) and being arranged at a distance (D) from the first rotational axis (Ri) in a direction away from the cutting edge contact point (P); the first pin (31) is arranged to penetrate the second handle (22) through a through hole (221) arranged in the second handle (22); the diameter of the through hole (221) is greater than the diameter of the first pin (31) for allowing movement of the second handle (22) in relation to the second blade (21) in a direction transversal to the first rotational axis (Ri); the through hole (221) has afrusto-conical shape at the end of the through hole (221) opening in the direction away from the second blade (21); the first pivot (3) comprises a frusto-conical shape arranged coaxially with the first pin for interacting with the frusto-conical shape of the through hole (221); as a result, the second handle (22) is arranged to exert a compressive force (F.sub.2) to the second blade (21) due to a shearing force (Fi) between the second handle (22) and the second blade (21) when the shearing tool is moved from the open position towards the closed position; and due to the compressive force (Fi), the second blade (21) is driven towards the first blade (1