The present invention relates to a fruit pruning and collecting device. The device features a telescoping pole having a basket at the top end and an ergonomic grip at the bottom end. The pole has a plurality of telescoping sections for adjusting a length of the pole and enabling a user to reach elevated fruits without climbing on a ladder. The basket has pruning blades that are actuated by a manual trigger or an electric power button for pruning a stem positioned between the blades to remove one or more fruits. The basket does not allow the fruits to drop onto ground. In use, the device is positioned with the basket under the fruits on the tree with the stem in between the blades such that the blades when actuated prune the stem and enable the fruit to fall into the basket.

The present invention relates to a fruit pruning and collecting device. The device features a telescoping pole having a basket at the top end and an ergonomic grip at the bottom end. The pole has a plurality of telescoping sections for adjusting a length of the pole and enabling a user to reach elevated fruits without climbing on a ladder. The basket has pruning blades that are actuated by a manual trigger or an electric power button for pruning a stem positioned between the blades to remove one or more fruits. The basket does not allow the fruits to drop onto ground. In use, the device is positioned with the basket under the fruits on the tree with the stem in between the blades such that the blades when actuated prune the stem and enable the fruit to fall into the basket.

A garden shears has an anvil portion, a driving arm, a blade portion and a plurality of pivot shafts. The anvil portion sandwiched an anvil, and the anvil portion and the driving arm are pivoted together by a pivot shaft. A gear and the blade portion are disposed between the driving arm. The blade portion has a straight groove and a rack portion. A pivot shaft is used to pivot the gear and the driving together is engaged and another pivot shaft passes through the straight groove and the driving arm with the pivot shaft capable of sliding in the straight groove and the gear being engaged with the rack portion to achieve the effect of a stable speed.

A cutting device includes a base plate, a motor attached to the base plate, a driving cord including a first end and a second end, the first end being attached to the motor, and a cutting assembly. The cutting assembly includes a fixed blade that is fixed to the base plate, and a driven blade that moves with respect to the fixed blade. The second end of the driving cord is attached to the driven blade to move the driven blade with respect to the fixed blade when the motor rotates.

A cutting device includes a base plate, a motor attached to the base plate, a driving cord including a first end and a second end, the first end being attached to the motor, and a cutting assembly. The cutting assembly includes a fixed blade that is fixed to the base plate, and a driven blade that moves with respect to the fixed blade. The second end of the driving cord is attached to the driven blade to move the driven blade with respect to the fixed blade when the motor rotates.

A electric power tool, comprising a control system electrically coupled to a power supply and a motor to supply current to the motor, where the motor may be coupled to a driven element of a tool so as to drive the driven element. The control system may have a continuous power mode and a boost power mode to supply current to the motor at a greater amount than in continuous power mode, and may be configured to switch between the continuous power mode and the boost power mode based upon a sensed load on the electric motor. In some embodiments, the control system may switch to a cutback power mode to supply current to the motor at a lower amount than in continuous power mode is the load does not decrease before a predetermined time elapses.

A electric power tool, comprising a control system electrically coupled to a power supply and a motor to supply current to the motor, where the motor may be coupled to a driven element of a tool so as to drive the driven element. The control system may have a continuous power mode and a boost power mode to supply current to the motor at a greater amount than in continuous power mode, and may be configured to switch between the continuous power mode and the boost power mode based upon a sensed load on the electric motor. In some embodiments, the control system may switch to a cutback power mode to supply current to the motor at a lower amount than in continuous power mode is the load does not decrease before a predetermined time elapses.

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.

A breeding robot including a base and a support being movably connected to the base. The support is of a hollow cylindrical structure, a telescopic arm movably passes through the support, a first motor is mounted to an end of the telescopic arm away from the support, a transmission shaft of the first motor is connected to a rotating bracket, a saw blade is mounted to the bottom side of the rotating bracket, and the saw blade is used for cutting maize tassel. The end of the rotating bracket is mounted with a CCD detector, and the CCD detector is used for detecting the position of the maize tassel. A blower is further mounted to the base, an air outlet of the blower is connected to a first end of an air duct, and a second end of the air duct is connected to the air blowing portion.