Electronic food processor
First Claim
1. An electronic food processor comprising:
- a drive motor for conversion of electrical energy to rotational force;
programmable motor control means for controlling the electrical energy delivered to said drive motor, said programmable motor control means comprising;
energy delivery means for delivering electrical energy to said drive motor, said energy delivery means responsive to a plurality of signals to initiate, terminate or vary the quantity of electrical energy delivered to said drive motor; and
microprocessor means for storing and carrying out programmed instructions, said microprocessor means providing said plurality of signals to said energy delivery means, wherein said programmed instructions comprise sets of instructions defining patterns of said plurality of signals that result in a plurality of corresponding rotational force patterns being produced by said drive motor.
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Accused Products
Abstract
A food processor incorporates an electronic motor control and display. Times relevant to the operation of the food processor are displayed for reference by the user. A user can select a food processing cycle duration, in which case the display is operated in a count-down mode. If no duration is selected, the display is operated in a count-up mode. Measured motor speed is used by a microprocessor based motor control circuit to regulate power delivered to the drive motor. A programmed auto pulse function delivers power to the drive motor in an on off pattern, freeing the user'"'"'s hands. A safety switch is arranged to sense the presence or absence of the food pusher in the chute. Operation of the food processor drive motor is paused until the food pusher is replaced in the chute. The food processor is provided with a high-speed function.
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Citations
18 Claims
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1. An electronic food processor comprising:
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a drive motor for conversion of electrical energy to rotational force;
programmable motor control means for controlling the electrical energy delivered to said drive motor, said programmable motor control means comprising;
energy delivery means for delivering electrical energy to said drive motor, said energy delivery means responsive to a plurality of signals to initiate, terminate or vary the quantity of electrical energy delivered to said drive motor; and
microprocessor means for storing and carrying out programmed instructions, said microprocessor means providing said plurality of signals to said energy delivery means, wherein said programmed instructions comprise sets of instructions defining patterns of said plurality of signals that result in a plurality of corresponding rotational force patterns being produced by said drive motor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
a normal speed pattern in which said drive motor provides rotational force sufficient to induce rotation of said drive motor at a pre-determined normal rotational frequency.
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3. The electronic food processor of claim 2, wherein said plurality of rotational force patterns comprise:
a high-speed pattern in which said drive motor provides rotational force sufficient to induce rotation of said drive motor at a pre-determined maximum rotational frequency, said maximum rotational frequency being greater than said normal rotational frequency.
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4. The electronic food processor of claim 1, wherein said plurality of rotational force patterns comprise:
an auto-pulse pattern in which said drive motor provides rotational force for a pre-determined time period ti followed by a pre-determined period t2 wherein said drive motor does not provide rotational force, wherein said time periods t1 and t2 repeat.
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5. The electronic food processor of claim 1, further comprising:
display means for display of time values related to said patterns of said plurality of signals, said display means responsive to said programmable motor control means to display a time elapsed from initiation of each said pattern or a remainder of a pre-determined duration for each said pattern if a pre-determined duration for said pattern is selected prior to said initiation.
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6. The electronic food processor of claim 5, wherein said time elapsed is displayed in a count-up format and said remainder is displayed in a count down format.
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7. The electronic food processor of claim 1, further comprising a plurality of switches, each of said switches arranged such that a change of state of said switch provides an input to said programmable motor control means, each said input causing said programmable motor control means to carry out a particular subset of said programmed instructions.
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8. The electronic food processor of claim 1, wherein said programmable motor control means comprises:
sensor means for sensing a rotational speed of said drive motor means and transmitting a signal (Fin) corresponding to said rotational speed to said programmable motor control means, said programmable motor control means responsive to said signal (Fin) to alter said patterns of said plurality of signals in accordance with said programmed instructions.
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9. The electronic food processor of claim 1, wherein said food processor comprises:
safety switch means for providing a safety signal to said programmable motor control means, said programmable motor control means responsive to the presence or absence of said safety signal to permit or prevent energization of said drive motor means.
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10. The electronic food processor of claim 7, wherein a change of state of at least one of said plurality of switches provides a pause signal to said programmable motor control means,
wherein said programmable motor control means is responsive to said pause signal to carry out programmed instructions that interrupt whichever of said patterns of said plurality of signals being produced, thereby removing electrical energy from said drive motor, and a second change of state of said at least one of said plurality of switches removes said pause signal and said programmable motor control means is responsive to removal of said pause signal to restore said interrupted pattern of said plurality of signals, thereby restoring said corresponding rotational force pattern.
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11. An electronic food processor comprising:
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drive motor means for converting electrical energy into rotational motion;
energy delivery means for transmitting said electrical energy to said drive motor means;
programmable motor control means for controlling the electrical energy delivered to said drive motor means through said energy delivery means, said programmable motor control means comprising;
programmed instructions;
memory means for storing said programmed instructions; and
processing means for carrying out said programmed instructions;
display means for displaying a time relevant to delivery of electrical energy to said drive motor means, said time provided by said programmable motor control means; and
a plurality of switches for providing inputs to said programmable motor control means, wherein said programmable motor control means is responsive to said inputs to carry out portions of said programmed instructions, at least one of said inputs defining a pre-determined processing cycle duration, said defining a pre-determined processing cycle duration causing said programmable motor control means to carry out a portion of said programmed instructions that operates said display in a count down mode by displaying a remainder of said pre-determined processing cycle duration. - View Dependent Claims (12, 13, 14, 15)
sensing means for sensing a rotational frequency of said drive motor means and providing a signal (Fin) corresponding to said rotational frequency to said programmable motor control means, wherein said programmable motor control means compares said signal (Fin) to minimum (Fson) and maximum (Fsoff) rotational frequency values contained in said programmed instructions and utilizes these comparisons to maintain the rotational speed of said drive motor means substantially constant.
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14. The electronic food processor of claim 11, wherein
said programmable motor controller is responsive to at least one of said inputs to carry out a first portion of said programmed instructions which causes said energy delivery means to deliver a first amount of electrical energy to said drive motor means, and said programmable motor controller is responsive to at least one of said inputs to carry out a second portion of said programmed instructions which causes said energy delivery means to deliver an intermittent supply of said electrical energy to said drive motor means, and said programmable motor controller is responsive to at least one of said inputs to carry out a third portion of said programmed instructions which causes said energy delivery means to deliver a second amount of electrical energy to said drive motor means, wherein said second amount is greater than said first amount and results in a faster rotational frequency of said drive motor means. -
15. The electronic food processor of claim 11, wherein at least one of said switches provide a pause input to said programmable motor control means and said programmable motor control means is responsive to the appearance of said pause input to carry out a portion of said programmed instructions which freezes said timer and interrupts delivery of electrical energy to said drive motor means and said programmable motor control means is responsive to disappearance of said pause input to carry out a second portion of said programmed instructions which restores timer operation and the delivery of electrical energy at the point at which the appearance of the pause signal caused them to be frozen and interrupted, respectively.
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16. An electronic food processor comprising:
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a drive motor;
programmable motor control means for controlling the delivery of electrical energy to said drive motor;
wherein said programmable motor control means includes a program for an auto-pulse pattern in which electrical energy is delivered to said drive motor for a pre-determined period of time t1 followed by a pre-determined period t2 during which no electrical energy is delivered to said drive motor, wherein said periods t1 and t2 repeat. - View Dependent Claims (17, 18)
wherein at least one of said switches provides a pause input to said programmable motor control means, the presence of said pause input causing said programmable motor control means to interrupt delivery of electrical energy to said drive motor and the absence of said pause signal causing said programmable motor control means to permit delivery of electrical energy to said drive motor. -
18. The electronic food processor of claim 17, further comprising a timer display on which said programmable motor control displays elapsed or remaining times relevant to the delivery of electrical energy to said drive motor,
wherein the presence of said pause signal causes said programmable motor control means to freeze the time on said display and the removal of said pause signal causes said programmable motor control means to resume counting at the frozen time on said display.
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Specification