Claims
- 1. A kit, comprising:
a housing a plurality of elongated barrels, each elongated barrel characterized by selected different crosswise dimensions along at least a portion of that elongated barrel; a plurality of plungers, each plunger having crosswise dimensions corresponding to the crosswise dimensions by which a separate one of the elongated barrels is characterized; at least one extrusion member adapted to fit at an end of the elongated barrels; wherein
the elongated barrels are selectively attachable to the housing; a rod extends from a rod-moving mechanism within the housing and, when one of the elongated barrels is attached to the housing, at least partially through the attached elongated barrel; the plungers are attachable to the rod to force the food material through the extrusion member; whereby, by virtue of the plurality of elongated barrels having selected different crosswise dimensions, the food material is flexible for working with food material of various viscosities.
- 2. The kit of claim 1, wherein:
the rod-moving mechanism comprises an electric motor.
- 3. A hand-held motorized apparatus to press food product, comprising:
a housing that houses a motor; an elongated barrel to hold the food product; a threaded rod configured for advancement along the elongated barrel as the threaded rod is turned; an extrusion member at an end of the elongated barrel; a plunger coupled to the rod and movable therewith along the elongated barrel to press the food product out the extrusion member; and a coupling mechanism coupling the rotation of the motor to turn the rod.
- 4. The hand-held motorized apparatus of claim 3, wherein:
the coupling mechanism is configured such that the motor rotates at a first speed and the rod rotates at a second speed that is much lower than the first speed.
- 5. The hand-held motorized apparatus of claim 4, wherein:
the coupling mechanism includes a plurality of speed-reducing gears operating in cooperation with each other.
- 6. The hand-held motorized apparatus of claim 3, wherein:
the threaded rod includes a helical thread formed therein; and the coupling mechanism includes a stationary mating thread, wherein the helical thread of the rod engages the stationary mating thread, thereby advancing the threaded rod along the elongated barrel as the threaded rod is turned.
- 7. The hand-held motorized apparatus of claim 6, wherein:
the coupling mechanism is configured such that the helical thread of the rod may be disengaged from the stationary mating thread, thereby inhibiting rotation of the motor from causing the threaded rod to be further advanced along the elongated barrel.
- 8. The hand-held motorized apparatus of claim 7, wherein:
the coupling mechanism includes a member which nominally forces the stationary mating thread to be engaged with the helical thread of the threaded rod and wherein the member is positionable to not force the stationary mating thread to be engaged with the helical thread of the threaded rod.
- 9. The hand-held motorized apparatus of claim 7, wherein:
when the helical thread is disengaged from the stationary mating thread, the threaded rod may be manually retreated along the elongated barrel.
- 10. The hand-held motorized apparatus of claim 8, wherein:
the member includes a spring such that the member nominally forces the stationary mating thread to be engaged with the helical thread of the threaded rod.
- 11. The hand-held motorized apparatus of claim 6, wherein:
the threaded rod includes an axial track that runs in an axial direction along the threaded rod; and the coupling mechanism includes a gear having an inwardly projecting pin that rides in the axial track of the threaded rod as the threaded rod is advanced along the elongated barrel.
- 12. The hand-held motorized apparatus of claim 3, wherein:
the threaded rod is formed of a core rod and a threaded portion is formed over the core rod; the core portion of the rod extends through and out of the housing; and a knob is provided on the core portion of the rod that extends out of the housing, whereby the rod may be manually moved when the coupling mechanism is in a state such that the motor is disengaged from the threaded rod.
- 13. The hand-held motorized apparatus of claim 7, wherein:
the coupling mechanism includes a plurality of speed-reducing gear assemblies operating in cooperation with each other, the speed reducing gear assemblies each including a small diameter pinion and a large diameter gear, a first of the speed reducing gear assemblies having its large diameter gear coupled for rotation by the motor, and the small diameter pinion of each speed reducing gear being coupled to the large diameter gear of a succeeding speed reducing gear assembly, wherein the pinion gear of a last of the speed reducing gear assemblies is coupled to the gear having the inwardly projecting pin.
- 14. The hand-held motorized apparatus of claim 13, wherein:
each of the plurality of speed-reducing gear assemblies is configured to rotate about a corresponding pin, wherein an interface between each speed-reducing gear assembly and the corresponding pin is characterized by a low coefficient of friction.
- 15. The hand-held motorized apparatus of claim 13, wherein:
each of the plurality of speed-reducing gear assemblies is configured to rotate about a corresponding pin, wherein where each speed reducing assembly contacts the corresponding pin, the corresponding pin has a stainless steel fine surface finish.
- 16. The hand-held apparatus of claim 3, further comprising:
a handle that projects from the housing at an acute angle.
- 17. The hand-held apparatus of claim 16, wherein:
the handle is curved, and the acute angle and the curve of the handle are such that the handle is comfortably gripped by the hand of a user.
- 18. The hand-held apparatus of claim 3, wherein:
the housing is symmetric about an axis to facilitate ambidextrous operation by a user.
- 19. The hand-held apparatus of claim 3, wherein:
the extrusion member is a conically shaped filling spout.
- 20. A hand-held apparatus to press food, comprising:
a housing an elongated barrel to hold the food product; a plunger; a plunger moving mechanism coupled to the housing configured to move the plunger along the barrel to move the food material along the barrel and to force the moved food material out of the barrel through an extrusion member; wherein the plunger is comprised of p2 a substantially rigid portion dimensioned to substantially match a crosswise dimension of the barrel; and
a flexible side wall portion that, as the plunger moves the food material along the barrel, tends to seal against the barrel, thereby creating a sliding seal.
- 21. A hand-held apparatus to press food, comprising:
a housing, including a motor housed therein; an elongated barrel to hold the food product; a plunger; a plunger moving mechanism coupled to the motor, configured to move the plunger along the barrel to move the food material along the barrel and to force the moved food material out of the barrel through an extrusion member; wherein the housing includes a battery compartment housed therein, the battery compartment including a door that is removably hinged to the housing, the battery compartment being fully exposed when the battery compartment door is fully removed.
- 22. The hand-held apparatus of claim 21, wherein:
the housing includes a clip that fits into a recess in the housing; and the door is removably hinged via hinge-like details that are across the door from the clip.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of U.S. Provisional Patent Application No. 60/439,421, filed on Jan. 9, 2003, the contents of which are incorporated herein by reference in their entirety.
Provisional Applications (1)
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Number |
Date |
Country |
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60439421 |
Jan 2003 |
US |