POWER PRUNER
First Claim
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1. A power pruner, comprising:
- a housing;
a motor arranged in the housing;
a transmission device connected to the motor;
a pair of blades including a fixed blade and a movable blade which is driven by the motor to swing back and forth; and
a trigger which is arranged on the housing for controlling the motor;
wherein the power pruner further comprises a stroke switch which is arranged on the housing, the stroke switch includes at least two statuses and, while the stroke switch is in a first status, the movable blade has a first stroke, and, while the stroke switch is in a second status, the movable blade has a second stroke which is different from the first stroke.
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Abstract
A power pruner includes a housing, a motor arranged in the housing, a transmission device connected to the motor, a pair of blades and a trigger which is arranged on the housing and used to control the motor. The pair of blades include a fixed blade and a movable blade which is driven by the motor to swing back and forth. The power pruner additionally includes a stroke switch which is arranged on the housing and has at least two statuses wherein the movable blade has a first stroke when the stroke switch is in a first status and a second stroke different from the first stroke when the stroke switch is in a second status.
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Citations
11 Claims
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1. A power pruner, comprising:
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a housing; a motor arranged in the housing; a transmission device connected to the motor; a pair of blades including a fixed blade and a movable blade which is driven by the motor to swing back and forth; and a trigger which is arranged on the housing for controlling the motor; wherein the power pruner further comprises a stroke switch which is arranged on the housing, the stroke switch includes at least two statuses and, while the stroke switch is in a first status, the movable blade has a first stroke, and, while the stroke switch is in a second status, the movable blade has a second stroke which is different from the first stroke. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for operating a pruner, wherein the pruner is comprised of a housing;
- a motor arranged in the housing;
a transmission device connected to the motor;
a pair of blades including a fixed blade and a movable blade which is driven by the motor to swing back and forth; and
a trigger which is arranged on the housing for controlling the motor;
wherein the pruner further comprises a stroke switch which is arranged on the housing, the stroke switch includes at least two statuses and, while the stroke switch is in a first status, the movable blade has a first stroke, and, while the stroke switch is in a second status, the movable blade has a second stroke which is different from the first stroke, and wherein the method comprises;setting the stroke switch in a first position for cutting branches of a first diameter; pulling the switch trigger so that the movable blade moves in the first stroke; setting the stroke switch in a second position for cutting branches of a second diameter smaller than the first diameter; and pulling the switch trigger so that the movable blade moves in the second stroke smaller than the first stroke.
- a motor arranged in the housing;
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10. A power pruner comprising
a microprocessor; -
a controlling module for controlling the rotation direction of a motor; a power source module; and a blade position signal acquisition module for acquiring the position of the movable blade; wherein the power pruner further comprises a stroke switch signal acquisition module for acquiring the position of the stroke switch, wherein the stroke switch is switchable between at least two statuses, and wherein the microprocessor detects the signal from the stroke switch signal acquisition module so as to control the stroke of the movable blade.
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11. A method for controlling a power pruner, comprising:
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in response to a switch trigger being activated, causing a microprocessor to send a signal to a controlling module to drive a motor to rotate and to thereby close a movable blade with respect to a stationary blade; in response to the microprocessor receiving from a blade position signal acquisition module a signal indicative of the movable blade being closed with respect to the stationary blade, causing the microprocessor to control the motor to stop rotating; in response to the switch trigger being thereafter unactivated with a stroke switch being in a large stroke position, causing the microprocessor to drive the motor to rotate in an opposite direction to thereby open the movable blade with respect to the stationary blade until a signal indicative of a largest blade opening position is received by the microprocessor from the blade position signal acquisition module; and in response to the switch trigger being thereafter unactivated with a stroke switch being in a small stroke position, causing the microprocessor to drive the motor to rotate in an opposite direction to thereby open the movable blade with respect to the stationary blade until a signal indicative of an intermediate blade opening position is received by the microprocessor from the blade position signal acquisition module.
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Specification