IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0386873
(2009-04-26)
|
등록번호 |
US-8371199
(2013-02-12)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
3 |
초록
▼
A smart food chopping or slicing device comprising at least two moveable blade sets arranged in a grid like configuration wherein the blade sets are configured orthogonally such that the cutting edges of both the blade sets remain substantially in the same plane. The movement of one set of blades is
A smart food chopping or slicing device comprising at least two moveable blade sets arranged in a grid like configuration wherein the blade sets are configured orthogonally such that the cutting edges of both the blade sets remain substantially in the same plane. The movement of one set of blades is independent of the movement of another set of blades and can be independently controlled. The moveable blade sets are configured for lateral reciprocal movement. The plane of the lateral reciprocal movement of the cutting edges of the blade sets and the plane of the cutting edges of the blade sets are substantially the same or the same parallel planes. The blade sets are removeably mounted on a means capable of providing lateral reciprocal movement to the blade sets.
대표청구항
▼
1. A food processing device, comprising: a lid, a first blade set, a second blade set, a first means configured to provide a lateral reciprocal motion to the first blade set, a second means configured to provide a lateral reciprocal motion to the second blade set, whereinthe blade sets include an ar
1. A food processing device, comprising: a lid, a first blade set, a second blade set, a first means configured to provide a lateral reciprocal motion to the first blade set, a second means configured to provide a lateral reciprocal motion to the second blade set, whereinthe blade sets include an array of substantially parallel blades supported by two supporting frames from opposing sides, wherein all the blades of each blade set include uniform and periodic slots which extend along the transverse direction of the blade and open to the edge of the blade whereby the two blade sets can be configured in a grid or mesh like configuration when brought close to each other to be received in the slots,the lid is pivotally attached to the device for a movement between a first position relatively distant from the blade sets and a second position adjacent to the blade sets, the lid having an array of projections sized and configured to be accommodated between the plurality of blades when the lid is adjacent to the blade sets,the first blade set and the second blade set are configured for the lateral reciprocal movement,the first blade set and second blade set are configured to form a grid or mesh like configuration,the first blade set and second blade set are configured such that the movement of the first blade set and the second blade set are independent,the first blade set is mounted to the first means that is configured to provide the lateral reciprocal motion to the first blade set, andthe second blade set is mounted to the second means that is configured to provide the lateral reciprocal motion to the second blade set. 2. A food processing device as set forth in claim 1, wherein the said blade sets are coupled to the said means that is configured to provide the lateral reciprocal motion via a low friction guided linear rail. 3. A food processing device, comprising: a lid, a first blade set, a second blade set, a first means configured to provide a lateral reciprocal motion to the first blade set, a second means configured to provide a lateral reciprocal motion to the second blade set, and a controller, whereinthe blade sets include an array of substantially parallel blades supported by two supporting frames from opposing sides, wherein all the blades of each blade set include uniform and periodic slots which extend along the transverse direction of the blade and open to the edge of the blade whereby the two blade sets can be configured in a grid or mesh line configuration when brought close to each other to be received in the slots,the lid is pivotally attached to the device for a movement between a first position relatively distant from the blade sets and a second position adjacent to the blade sets, the lid having an array of projections sized and configured to be accommodated between the plurality of blades when the lid is adjacent to the blade sets,the first blade set and the second blade set are configured for the lateral reciprocal movement,the first blade set and the second blade set are configured to form the grid or mesh like configuration,the first blade set and the second blade set are configured such that the movements of the first blade set and the second blade set are independent,the first blade set is mounted to the first means that is configured to provide the lateral reciprocal motion to the first blade set, andthe second blade set is mounted to the second means that is configured to provide the lateral reciprocal motion to the second blade set, andthe controller is configured to control the lateral reciprocal motion of the blade sets. 4. A food processing device as set forth in claim 3, wherein the controller is configured to control the lateral reciprocal motion of said blade sets by switching the reciprocal motion pattern of the blade sets according to a user selected setting. 5. A food processing device as set forth in claim 3, wherein the said blade sets are removeably mounted to the said means that is configured to provide the lateral reciprocal motion to the blade sets. 6. A food processing device as set forth in claim 3, wherein the said blade sets are removely mounted to the said means that is configured to provide the lateral reciprocal motion via a low friction guided linear rail. 7. A food processing device, comprising: a lid, a first blade set, a second blade set, a receptacle for collecting processed food, a first means configured to provide a lateral reciprocal motion to the first blade set, a second means configured to provide a lateral reciprocal motion to the second blade set, a first low friction guided linear rail, a second low friction guided linear rail, at least a sensor and a controller, whereinthe blade sets include an array of substantially parallel blades supported by two supporting frames from opposing sides, wherein all the blades of each blade set include uniform and periodic slots which extend along the transverse direction of the blade and open to the edge of the blade whereby the two blade sets can be configured in a grid or mesh line configuration when brought close to each other to be received in the slots,the lid is pivotally attached to the device for a movement between a first position relatively distant from the blade sets and a second position adjacent to the blade sets, the lid having an array of projections sized and configured to be accommodated between the plurality of blades when the lid is adjacent the blade sets,the first blade set and the second blade set are configured for the lateral reciprocal movement,the first blade set and the second blade set are configured to form the grid or mesh like configuration,the first blade set and the second blade set are configured such that the movements of the first blade set and the second blade set are independent,the first blade set is removeably mounted to the first means that is configured to provide the lateral reciprocal motion to the first blade set via the first low friction guided linear rail,the second blade set is removeably mounted to the second means that is configured to provide the lateral reciprocal motion to the second blade set via the second low friction guided linear rail,at least a sensor is configured to detect the pressure exerted on the said blade sets and provide the pressure information to the controllerthe controller is configured to control the lateral reciprocal motion or oscillation pattern of the blade sets. 8. A food processing device as set forth in claim 7, wherein the controller is configured to automatically control the lateral reciprocal motion or oscillation pattern of the blade sets according to the pressure information received from the sensors. 9. A food processing device as set forth in claim 7, wherein the controller controls the lateral reciprocal motion or oscillation pattern of the blade sets by first receiving a lateral reciprocal motion or oscillation pattern signal from a first look up table corresponding to the pressure signal received from the pressure sensor, and then by setting the oscillation pattern of the blade sets to a lateral reciprocal motion or oscillation pattern corresponding to the pressure signal received from the pressure sensor, and wherein the look up table stores predetermined motion or oscillation pattern signals corresponding to the various pressure information received from the pressure sensors. 10. A food processing device as set forth in claim 7, wherein the controller controls the lateral reciprocal motion or oscillation pattern of the blade sets by obtaining oscillation pattern signal from a second look up table that has stored predetermined lateral reciprocal motion or oscillation pattern signals corresponding a user selection, and by setting the lateral reciprocal motion or oscillation pattern of the blade sets according to that predetermined signal. 11. A food processing device as set forth in claim 7, wherein said pressure sensors are mounted on the lower side of the low friction guided linear rail. 12. A food processing device as set forth in claim 7, wherein said sensors are mounted on the lower side of the low friction guided linear rail via a spring mechanism. 13. A food processing device as set forth in claim 7, wherein said sensor are mounted on the lid via spring mechanism. 14. A food processing device as set forth in claim 7, wherein said sensors are selected from the group consisting of piezoelectric pressure sensor, capacitive pressure sensor, quartz pressure sensor, and ferroelectric pressure sensor. 15. A food processing device as set forth in claim 7, wherein the lid, the first blade set, the second blade set, the receptacle, the first means configured to provide a lateral reciprocal motion to the first blades, the second means configured to provide a lateral reciprocal motion to the second blades, the low friction guided linear rail, the sensors and the controllers are housed in a housing to form a small type food processor. 16. A food processing device as set forth in claim 7, wherein the lid is removably mounted to the device. 17. A food processing device as set forth in claim 8, wherein the lateral reciprocal motion or oscillation patterns of the blade sets is characterized by the amplitude of the oscillation/motion of the blade sets. 18. A food processing device as set forth in claim 8, wherein the lateral reciprocal motion or oscillation pattern of the blade sets is characterized by the frequency of the oscillation/motion of the blade sets. 19. A food processing device as set forth in claim 7, wherein the amplitude of oscillation/motion of the blade sets is characterized by the inequality 0
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