A portable, hand held hydraulic cutting tool having an in-line handle assembly and a working head assembly. The handle assembly has a tool frame portion and a neck portion. The working head assembly has a pair of jaw members joined so that they are movable relative to each other and held in place by a locking pin. Each jaw member has a cutting blade attached thereto. Each jaw member can be tapered and can include weight reducing pockets defined in respective sidewalls. Each jaw member includes a raised tab on an outside edge that mates with a respective tab notch in a yoke of the neck portion of the handle assembly. When the locking pin is in an extended position, the jaw members of the tool can separate and rotate away from one another until their respective locking tabs engage their respective locking tab opening, connecting the jaw members to the yoke of the neck portion of the handle assembly.

A portable, hand held hydraulic cutting tool having an in-line handle assembly and a working head assembly. The handle assembly has a tool frame portion and a neck portion. The working head assembly has a pair of jaw members joined so that they are movable relative to each other and held in place by a locking pin. Each jaw member has a cutting blade attached thereto. Each jaw member can be tapered and can include weight reducing pockets defined in respective sidewalls. Each jaw member includes a raised tab on an outside edge that mates with a respective tab notch in a yoke of the neck portion of the handle assembly. When the locking pin is in an extended position, the jaw members of the tool can separate and rotate away from one another until their respective locking tabs engage their respective locking tab opening, connecting the jaw members to the yoke of the neck portion of the handle assembly.

A cutting apparatus for trimming an article, the apparatus has a manually grasped power element with a reciprocating arm having a removably engagable rotatable couple including a selectable rotational index position lock. Also included is a cutting head assembly that is removable and rotationally indexable relative to the power element, the cutting head having a pair of cutting blades for trimming the article. Wherein operationally, the reciprocating arm drives the cutting blades that have scissor movement with the cutting head selectably rotatable to the power element, user wrist fatigue is reduced, also with the cutting head being removable from the power element, the cutting head assembly is easier to clean.

A cutting apparatus for trimming an article, the apparatus has a manually grasped power element with a reciprocating arm having a removably engagable rotatable couple including a selectable rotational index position lock. Also included is a cutting head assembly that is removable and rotationally indexable relative to the power element, the cutting head having a pair of cutting blades for trimming the article. Wherein operationally, the reciprocating arm drives the cutting blades that have scissor movement with the cutting head selectably rotatable to the power element, user wrist fatigue is reduced, also with the cutting head being removable from the power element, the cutting head assembly is easier to clean.

The present application relates to the technical field of electric scissors, and more specifically to a pair of easy-to-operate electric scissors. The electric scissors comprise a base, wherein the base is fixedly connected to a first blade, the base is rotationally connected to a number of second blades, the second blade is located directly above the first blade, an end of the first blade away from the base is provided with a trapezoidal cut, a movable end of the second blade is arranged in a V shape, and the base is provided with a drive structure for driving the second blade to rotate back and forth within a range of the trapezoidal cut. The present application has the advantages of a small size, light weight, a simple structure, convenient fine cutting, easy operation, etc.

The present application relates to the technical field of electric scissors, and more specifically to a pair of easy-to-operate electric scissors. The electric scissors comprise a base, wherein the base is fixedly connected to a first blade, the base is rotationally connected to a number of second blades, the second blade is located directly above the first blade, an end of the first blade away from the base is provided with a trapezoidal cut, a movable end of the second blade is arranged in a V shape, and the base is provided with a drive structure for driving the second blade to rotate back and forth within a range of the trapezoidal cut. The present application has the advantages of a small size, light weight, a simple structure, convenient fine cutting, easy operation, etc.

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.

A cutting device includes a first cutting element, a second cutting element, a first gripping element, a second gripping element, at least one driving element, a sensor, and a control unit. The cutting elements are configured to move relative to each other. The gripping elements are configured to move relative to each other. The at least one driving element is configured to move the first cutting element relative to the second cutting element when the at least one driving element is activated. The sensor is mounted on the first gripping element or the second gripping element and is configured to detect an object located between the first gripping element and the second gripping element. The control unit is operably connected to the at least one driving element and the sensor. The control unit is configured to deactivate the at least one driving element when the sensor detects the object.

A cutting device includes a first cutting element, a second cutting element, a first gripping element, a second gripping element, at least one driving element, a sensor, and a control unit. The cutting elements are configured to move relative to each other. The gripping elements are configured to move relative to each other. The at least one driving element is configured to move the first cutting element relative to the second cutting element when the at least one driving element is activated. The sensor is mounted on the first gripping element or the second gripping element and is configured to detect an object located between the first gripping element and the second gripping element. The control unit is operably connected to the at least one driving element and the sensor. The control unit is configured to deactivate the at least one driving element when the sensor detects the object.