US20070210194A1 - Food processing appliance with indicator - Google Patents
Food processing appliance with indicator Download PDFInfo
- Publication number
- US20070210194A1 US20070210194A1 US11/747,787 US74778707A US2007210194A1 US 20070210194 A1 US20070210194 A1 US 20070210194A1 US 74778707 A US74778707 A US 74778707A US 2007210194 A1 US2007210194 A1 US 2007210194A1
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- US
- United States
- Prior art keywords
- bowl
- housing
- food processing
- transparent plate
- processing appliance
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J43/00—Implements for preparing or holding food, not provided for in other groups of this subclass
- A47J43/04—Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven
- A47J43/07—Parts or details, e.g. mixing tools, whipping tools
- A47J43/075—Safety devices
- A47J43/0761—Safety devices for machines with tools driven from the lower side
- A47J43/0772—Safety devices for machines with tools driven from the lower side activated by the proper positioning of the cover
Definitions
- the present application is directed to a food processing appliance and, more particularly, to a food processing appliance with an indicator.
- Food processing appliances may include a ready light that is illuminated when the components of the food processing appliance are assembled in a working position.
- Simatelex Manufactory Co., Ltd. manufactures a chopper including a housing, bowl and bowl lid. A ready light on an external surface of the Simatelex chopper is illuminated when the bowl is mounted to the housing and the lid is mounted to the bowl in a working position. The ready light indicates that the chopper is assembled in the working position and that power may be provided to a chopper motor.
- the preferred embodiment of the food processing appliance with the indicator in accordance with the present application includes an indicator that is mounted around a periphery of a control mechanism. Mounting of the indicator around the control mechanism provides a visual indication to a user that the food processing appliance is assembled in a working position. The indicator highlights to the user that the food processing appliance may begin processing food when the control mechanism is actuated.
- a preferred embodiment of the present application comprises a food processing appliance for processing foodstuff including a housing and an electric motor mounted within the housing.
- a bowl is removably mountable to the housing and a bowl lid is removably mountable over the bowl.
- the bowl is mounted to the housing and the bowl lid is mounted over the bowl in a working position to enable power to be applied to the motor.
- a control mechanism is mounted to the housing and is operatively connected to the electric motor.
- a sensor transmits a signal when the bowl and bowl lid are in the working position.
- An indicator includes a transparent plate mounted around a periphery of the control mechanism. The indicator visually indicates that the bowl and bowl lid are in the working position upon receiving a signal from the sensor.
- FIG. 1 is a top perspective view of a food processing appliance including an indicator in accordance with a first preferred embodiment of the present invention
- FIG. 2 is a partially exploded perspective view of the food processing appliance with indicator shown in FIG. 1 ;
- FIG. 3 is an enlarged cross-sectional view of the indicator of the food processing appliance shown in FIG. 1 , taken along line 3 - 3 of FIG. 1 ;
- FIG. 4 is a cross-sectional view of the food processing appliance shown in FIG. 1 , taken along line 4 - 4 of FIG. 1 ;
- FIG. 5 is a top perspective view of a food processing appliance with an indicator in accordance with a second preferred embodiment of the present invention.
- FIG. 6 is a cross-sectional view of the food processing appliance shown in FIG. 5 , taken along line 6 - 6 of FIG. 5 ;
- FIG. 7 is a cross-sectional view of the food processing appliance shown in FIG. 5 , taken along line 6 - 6 of FIG. 5 with the feed tube cover in a loading position.
- the food processing appliance 10 includes a housing 14 with an electric motor 16 mounted within the housing 14 .
- the housing 14 is comprised of a first shell half 14 a and a second shell half 14 b that are connected at a parting line 14 c .
- the housing 14 is preferably constructed using the first and second shell halves 14 a , 14 b for ease of construction using an injection molding process and to accommodate the electric motor 16 and other components of the food processing appliance 10 therein.
- the housing 14 has a generally cylindrical shape when assembled with generally closed ends.
- the electric motor 16 includes a motor shaft 16 a extending therethrough with a cooling fan 16 b mounted adjacent one end and a drive gear 18 mounted adjacent an opposite end.
- the cooling fan 16 b preferably draws air into the housing 14 through vent holes 20 in the bottom end of the housing 14 to cool the motor 16 .
- a bowl 22 is removably mountable to the housing 14 and a bowl lid 24 is removably mountable over the bowl 22 .
- the bowl 22 includes a central sleeve 22 a having a generally cylindrical shape that extends upwardly from a bottom surface of the bowl 22 .
- the sleeve 22 a accommodates a drive shaft 26 that extends into the bowl 22 when the bowl 22 is mounted to the housing 14 .
- the preferred bowl 22 includes a handle 22 b that may be used to transport the bowl 22 or to provide leverage for mounting the bowl 22 to the housing 14 .
- the bowl 22 includes a lower rim 22 c that extends downwardly from a base of the bowl 22 .
- the lower rim 22 c accommodates mounting of the bowl 22 to the housing 14 using a bayonet connection.
- the preferred bowl lid 24 includes a skirt 24 a that extends downwardly from a periphery of the bowl lid 24 and a top bowl lid wall 24 b .
- the skirt 24 a accommodates mounting of the bowl lid 24 to the bowl 22 using a bayonet-type attachment.
- the bowl 22 is not limited to a bayonet attachment to the housing 14 using the rim 22 c and the bowl lid 24 is not limited to the bayonet attachment to the bowl 22 using the skirt 24 a .
- the bowl 22 may be mounted to the housing 14 and the bowl lid 24 may be mounted to the bowl 22 using nearly any mounting mechanism that would be obvious to one having ordinary skill in the art, for example, clamping, fastening, bolting, riveting or like alternative fastening mechanisms.
- the bowl 22 , bowl lid 24 and their integral or associated components are constructed of a molded styrene acrylonitrile material (SAN).
- SAN molded styrene acrylonitrile material
- the bowl 22 and bowl lid 24 are not limited to constructions using molded SAN material and may be constructed of nearly any polymeric, metal, glass or like material that is able to take on the general shape of the bowl 22 and bowl lid 24 and withstand the normal operating conditions of the bowl 22 and bowl lid 24 .
- the SAN material is preferred due to its transparent appearance when molded, its generally smooth finished surface appearance, its relatively light weight and its relatively high impact resistance.
- the bowl 22 In a working position, the bowl 22 is mounted to the housing 14 and the bowl lid 24 is mounted over the bowl 22 .
- a tool 28 is mounted within the bowl 22 in the working position such that it is rotatably engaged with the portion of the drive shaft 26 that extends through sleeve 22 a .
- the bowl lid 24 covers a mouth of the bowl 22 such that a user is unable to gain access to a blade 28 a of the tool 28 . Accordingly, in the working position, a user will not be cut by the rotating blade because access to the blade 28 a is blocked by the housing 14 , bowl 22 and bowl lid 24 .
- a control mechanism 30 is mounted to the housing 14 and is operatively connected to the electric motor 16 in a manner that would be obvious to one having ordinary skill in the art.
- the control mechanism 30 is comprised of a rotary switch 32 with a generally circular dial 34 that is exposed from a surface of the housing 14 .
- the control mechanism 30 is preferably mounted between the first and second shell halves 14 a , 14 b at the parting line 14 c of the housing 14 .
- the control mechanism 30 is not limited to being mounted to housing 14 at the parting line 14 c and may be mounted anywhere on the surface of the housing 14 as long as the control mechanism 30 is exposed from a surface of the housing 14 when the bowl 22 and bowl lid 24 are in the working position.
- the dial 34 preferably includes a fin 34 a that extends from its exposed surface and an engagement mechanism 34 b that extends from an opposite surface to engage a control shaft 32 a of the rotary switch 32 .
- the rotary switch 32 is comprised of an electric dial switch 32 having six positions.
- the preferred switch 32 is in an off position when it is positioned as is shown in FIG. 1 with the fin 34 a oriented generally vertically with respect to the housing 14 . From the off position, the fin 34 a may be rotated in a counterclockwise direction (opposite to the arrow A) in FIG. 1 to a pulse position or the fin 34 a may be rotated in a clockwise direction (the direction of the arrow A) to four separate processing positions that increase the speed of the motor shaft 16 a as the fin 34 a moves further in the direction of the arrow A.
- the preferred switch 32 operates and is constructed in essentially the same manner as the switch disclosed in U.S.
- control mechanism 30 is not limited to configurations including the rotary switch 32 and dial 34 or to the specific rotary switch arrangement described above with the six switch locations.
- control mechanism 30 may be comprised of a single momentary switch that actuates the motor shaft 16 a to rotate only when the control mechanism 30 is depressed or may be comprised of a plurality of separate buttons (not shown) that actuate the food processing appliance 10 to operate when one or more of the buttons is depressed.
- the dial 34 is constructed of an injection molded SAN material.
- the dial 34 is not limited to constructions comprising the injection molded SAN material and may be constructed of nearly any generally rigid material that is able to take on the general shape of the dial 34 and withstand the normal operating conditions of the dial 34 .
- a sensor 36 is positioned within the housing 14 and transmits a signal when the bowl 22 and bowl lid 24 are in the working position.
- the sensor is a momentary switch 36 that is mounted by a bracket 38 within the housing 14 on an underside of the first shell half 14 a adjacent a location where the drive shaft 26 exits the first shell half 14 .
- the sensor is not limited to being mounted by the bracket 38 to the underside of the first shell half 14 a and may be mounted nearly anywhere on the housing 14 using nearly any mounting mechanism that would be obvious to one having ordinary skill in the art.
- the senor is not limited to the momentary switch 36 and may be comprised of nearly any sensor or switch that transmits a signal when the bowl 22 and bowl lid 24 are in the working position.
- the sensor may be comprised of a magnetic switch that is actuated to one of a closed and open position when magnets on the bowl 22 and bowl lid 24 are aligned with the sensor (not shown).
- the momentary switch 36 is closed when the bowl 22 and bowl lid 24 are in the working position and is open when the bowl 22 and bowl lid 24 are in any other position.
- the momentary switch 36 is closed through contact with a switch arm 66 that is attached to a movable portion of the drive shaft 26 .
- the switch 36 is closed, power is able to be provided to the motor 16 .
- the drive shaft 26 is comprised of a hollow drive sleeve 26 a and a movable drive pin 26 b .
- the drive pin 26 b is movable along a drive axis 40 within the drive sleeve 26 a between an extended position and a retracted position.
- the drive pin 26 b is biased toward the extended position by a drive spring 42 located between the housing 14 and an E-clip 44 that is fixed to the drive pin 26 b .
- the drive spring 42 also biases the switch arm 66 away from the momentary switch 36 . That is, the switch arm 66 moves with the drive pin 26 b between the extended and retracted positions. Accordingly, when the drive pin 26 b is not in the retracted position, the switch arm 66 does not contact the momentary switch 36 and the momentary switch 36 is open.
- the bowl lid 24 includes an actuating pin 46 that extends from a position near a center of an inner surface of the top bowl lid wall 42 b .
- the pin 46 extends downwardly along the drive axis 40 . Therefore, when the bowl lid 24 is mounted to the bowl 22 and the bowl 22 is mounted to the housing 14 in the working position, the pin 46 enters a hole in the top of the hollow drive sleeve 26 a to engage and urge the drive pin 26 b downwardly against the force of the drive spring 42 from its biased extended position to its retracted position.
- the switch arm 66 is also moved downwardly and into contact with the momentary switch 36 to close the switch 36 such that power may be provided to the motor 16 .
- an indicator 12 includes a transparent plate 48 that is mounted around a periphery of the control mechanism 30 .
- the transparent plate 48 preferably has a generally annular-shape and is constructed from an injection molded polycarbonate material.
- the annular transparent plate 48 extends around the entire periphery of the dial 34 in the preferred embodiment.
- the transparent plate 48 is not limited to annular-shapes or to constructions using injection molded polycarbonate material.
- the transparent plate 48 may take on nearly any shape such that it is mountable around at least a portion of the periphery of the control mechanism 30 .
- the transparent plate 48 is not limited to polycarbonate materials and may be constructed of nearly any material that is transparent and is able to withstand the normal operating conditions of the transparent plate 48 .
- the transparent plate 48 may be constructed of a glass, transparent polymeric or other like material that permits the transmission of light from the cylindrical portion to the exposed surface 48 a of the transparent plate 48 .
- the transparent plate 48 surround the control mechanism 30 to provide a visual indication to a user immediately adjacent the control mechanism 30 . The visual indication adjacent the control mechanism 30 is preferred so that a user is aware that actuation of the dial 34 will prompt the food processing appliance 10 to operate when the transparent plate 48 is illuminated but will not begin operation if the transparent plate 48 is not illuminated.
- the indicator 12 preferably includes a light emitting device 50 , a cone-shaped reflector 52 and the transparent plate 48 .
- the light emitting device 50 is preferably mounted to an apex 52 a of the reflector 50 such that the reflector 52 directs light from the light emitting device 50 onto at least the transparent plate 48 .
- the transparent plate 48 is mounted adjacent a mouth 52 b of the reflector 52 . Accordingly, when the light emitting device 50 is illuminated, the general cone-shape of the reflector 52 directs light from the light emitting device 50 onto the transparent plate 48 . Light is transmitted through the transparent plate 48 to provide a visual indication to a user at an exterior of the housing 14 at the periphery of the control mechanism 30 when the light emitting device 50 is illuminated.
- the reflector 52 is constructed of an injection molded ABS material that is chrome plated.
- the injection molded ABS material is preferred for the reflector 52 due to its generally clean surface appearance after molding and its ability to withstand the processing of and adhere to the chrome plating material.
- Chrome plating of the reflector 52 is preferred such that light is readily reflected from the light emitting device 50 and on to the transparent plate 48 .
- the reflector 52 is not limited to being chrome plated and may have nearly any surface finish or appearance that permits light to be directed from the reflector 52 toward the transparent plate 48 .
- the inside of the cone-shaped reflector 52 may be painted with a reflective material or may be constructed of a reflective glass material.
- the reflector 52 may not be coated at all and the finished ABS material may be sufficient to reflect light toward and onto the transparent plate 48 . Further, the reflector 52 may be eliminated altogether and a generally annular or otherwise shaped light emitting device may be mounted around a periphery of the control mechanism 30 (not shown).
- control mechanism 30 and indicator 12 are each mounted to the housing 14 by a support plate 54 that has a generally disk-like shape with a central bore 54 a that accommodates insertion of the control shaft 32 a therethrough and peripheral slots 54 b that permit the transmission of light therethrough and onto the transparent plate 48 .
- the support plate 54 is mounted in an opening 56 formed at the parting line 14 c in the preferred embodiment.
- the support plate 54 is preferably constructed of an injection molded SAN material but is not so limited.
- the support plate 54 may be constructed of any metallic, polymeric, wood or other like, generally rigid material that is able to take on the general shape of the support plate 54 and withstand the normal operating conditions of the support plate 54 .
- the indicator 12 visually indicates that the bowl 22 and bowl lid 24 are in the working position upon receiving the signal from the sensor 36 such that power can be provided to the electric motor 16 .
- the pin 46 moves the drive pin 26 b from its extended position to its retracted position against the biasing force of the drive spring 42 .
- the switch arm 66 contacts and closes the momentary switch 36 which provides a signal to the electric motor 16 and enables power to be provided to the electric motor 16 when the drive pin 26 b is in the retracted position.
- the momentary switch 36 is closed, power is able to be provided to the light emitting device 50 which is illuminated.
- the light emitting device 50 When the light emitting device 50 is illuminated, light is transmitted onto the chrome-plated reflector 52 , which reflects light onto the transparent plate 48 .
- the transparent plate 48 is illuminated by this light, thereby providing a visual indication around a periphery of the dial 34 that the bowl 22 and bowl lid 24 are in the working position and that power may be provided to the electric motor 16 for actuation of the tool 28 .
- the dial 34 When the bowl 22 and bowl lid 24 are in their working position, the dial 34 is pivoted to a selected one of its operating positions using the fin 34 a and the motor 16 is actuated to drive the motor shaft 16 a .
- the motor shaft 16 a transmits rotational motion through the drive gear 18 to a gear reduction mechanism 58 , which transmits the reduced rotational speed to the drive pin 26 b , to the hollow sleeve 26 a and to the tool 28 to process the food within the bowl 22 .
- the bowl lid 24 is removed from the bowl 22 .
- the actuating pin 46 releases the drive pin 26 b , which moves from its retracted position to its extending position under the force of the drive spring 42 .
- the switch arm 66 is not in contact with the momentary switch 36 and the momentary switch 36 is open. Accordingly, power is not provided to the motor 16 or to the light emitting device 50 , when the bowl lid 24 is removed from the bowl 22 .
- a visual indication i.e., no light on
- a second preferred embodiment of the food processing appliance 10 ′ is shown including like reference numerals to indicate like elements and a prime symbol (′) distinguishing the reference numerals of the second preferred embodiment.
- the second preferred embodiment of the food processing appliance 10 ′ includes a feed tube 70 extending from the top bowl lid wall 24 b ′ of the bowl lid 24 ′.
- the feed tube 70 includes a feed mouth 72 and is preferably, integrally molded with the bowl lid 24 ′.
- the feed tube 70 is preferably constructed of the same SAN material as the bowl lid 24 ′.
- the feed tube 70 is not limited to constructions using the same SAN material or to being integrally molded with the bowl lid 24 ′.
- the feed tube 70 may be constructed of nearly any material that is able to take on the general shape of the feed tube 70 and withstand the normal operating conditions of the feed tube 70 .
- the feed tube 70 construction and operation will be generally well know to one having ordinary skill in the art.
- a feed tube cover 78 at least partially covers the feed mouth 72 in a closed position in the second preferred embodiment.
- the feed tube cover 78 is movable between a loading position ( FIG. 7 ) and the closed position ( FIG. 6 ).
- the feed tube cover 78 has a generally planar top surface 78 a with a peripheral shape that generally covers the feed mouth 72 and further includes a peripheral skirt 78 b extending downwardly therefrom.
- the feed tube cover 78 is preferably constructed of the same SAN material as the feed tube 70 , bowl lid 24 ′ and bowl 22 ′.
- the feed tube cover 78 is not limited to SAN material constructions and may be constructed of nearly any material that is able to take on the general shape of the feed tube cover 78 and withstand the normal operating conditions of the feed tube cover 78 .
- the mouth 72 In the loading position, the mouth 72 is exposed and foodstuff may be inserted into the feed cavity 76 through the feed mouth 72 .
- the peripheral skirt 78 b In the closed position, the peripheral skirt 78 b extends about a periphery of the feed tube below the feed mouth 72 and along sides of the feed tube 70 to reduce the likelihood that foodstuff may escape the feed cavity 76 and that a user may insert a hand or at least one finger into the feed cavity 76 when the feed tube cover 78 is in the closed position or nearly in the closed position.
- the top surface 78 a of the feed tube cover 78 has a hole 80 therein that slideably accommodates a food pusher 82 .
- the food pusher 82 is preferably constructed of the same SAN material as the feed tube cover 78 and is likewise not limited to the SAN material. The construction and operation of the food pusher 82 and hole 80 are generally well known to those having ordinary skill in the art.
- a feed tube shaft 84 is movably mounted within the feed tube 78 between an operating position ( FIG. 6 ) and a safety position ( FIG. 7 ) along the drive axis 40 ′.
- the feed tube shaft 84 is preferably biased toward the safety position by a tube spring 86 .
- the feed tube shaft 84 preferably has a generally cylindrical shape that is tiered to provide abutment surfaces 84 a for the application of a biasing spring force from the tube spring 86 between the bowl lid 24 and the feed tube shaft 84 and to provide a stop surface when the upper abutment surface 84 a comes into contact with the feed tube 70 .
- the upper abutment surface 84 a of the feed tube shaft 84 come into contact with the feed tube 70 and the tube spring 86 is at its fully extended position.
- the feed tube cover 78 includes a feed tube pin 88 attached thereto.
- the feed tube pin 88 preferably enters a hole in the feed tube 70 when the feed tube cover 78 is in the closed position.
- the pin 88 engages and urges the feed tube shaft 84 from its safety position to its operating position.
- the feed tube shaft 84 contacts the drive pin 26 b ′ and urges it to its retracted position and the switch arm 66 ′ closes the momentary switch 36 ′ when the feed tube shaft 84 is in it operating position and the bowl 22 ′ and bowl lid 24 ′ are in the working position.
- the second preferred embodiment of the food processing appliance 10 ′ is not limited to the inclusion of the movable drive pin 26 b ′, movable feed tube shaft 84 and feed tube pin 88 to actuate the momentary switch 36 ′.
- the movable feed tube shaft 84 may be positioned along an outer edge of the feed tube 70 and a movable shaft would also be located adjacent a periphery of the bowl 22 ′ (not shown).
- the movable shaft at the periphery of the feed tube 70 would move to its operating position and the bowl shaft at the periphery of the bowl would move to its retracted position where it would close the momentary switch 36 ′.
- the momentary switch 36 ′ was closed, power would be provided to the motor 16 ′ and the light emitting device 50 ′.
- the bowl 22 ′ is mounted to the housing 14 ′, the tool 28 ′ is rotatably mounted to the drive shaft 26 ′, the bowl lid 24 ′ is mounted to the bowl 22 ′ and the feed tube cover 78 is positioned in its closed position over the mouth of the feed tube 70 .
- the feed tube pin 88 urges the feed tube shaft 84 to it operating position and the feed tube shaft 84 urges the drive pin 26 b ′ to its retracted position.
- the switch arm 66 ′ contacts and closes the momentary switch 36 ′, thereby permitting power to be provided to the motor 16 ′ and the light emitting device 50 ′.
- a visual indication is provided at the exposed surface 48 a ′ to indicate that the food processing appliance 10 ′ is prepared for operation when the bowl 22 ′ and bowl lid 24 ′ are positioned in their working position and the feed tube cover 78 is positioned in its closed position.
- the feed tube cover 78 is rotated to its loading position.
- the feed tube pin 88 is moved out of contact with the feed tube shaft 84 , which moves out of contact with the drive pin 26 b ′ when the feed tube cover 78 is moved to its loading position.
- the drive pin 26 b ′ moves to its extended position and the momentary switch 36 ′ is open. Therefore, power will not be provided to the motor 16 ′ and the exposed surface 48 a ′ will not be illuminated because the switch 36 ′ is open.
Abstract
A food processing appliance for processing food stuff including a housing and an electric motor mounted within the housing. A bowl lid is removably mountable over the bowl. The bowl is mounted to the housing and the bowl lid is mounted over the bowl in a working position. A control mechanism is mounted to the housing and is operatively connected to the motor. A sensor is positioned on the housing and transmits a signal when the bowl and bowl lid are in the working position. An indicator includes a transparent plate mounted around a periphery of the control mechanism. The indicator visually indicates that the bowl and bowl lid are in the working position upon receiving the signal from the sensor such that power can be provided to the electric motor.
Description
- The present application is a division of pending U.S. patent application Ser. No. 10/780,975, filed Feb. 18, 2004.
- The present application is directed to a food processing appliance and, more particularly, to a food processing appliance with an indicator.
- Food processing appliances may include a ready light that is illuminated when the components of the food processing appliance are assembled in a working position. For example, Simatelex Manufactory Co., Ltd. manufactures a chopper including a housing, bowl and bowl lid. A ready light on an external surface of the Simatelex chopper is illuminated when the bowl is mounted to the housing and the lid is mounted to the bowl in a working position. The ready light indicates that the chopper is assembled in the working position and that power may be provided to a chopper motor.
- The preferred embodiment of the food processing appliance with the indicator in accordance with the present application includes an indicator that is mounted around a periphery of a control mechanism. Mounting of the indicator around the control mechanism provides a visual indication to a user that the food processing appliance is assembled in a working position. The indicator highlights to the user that the food processing appliance may begin processing food when the control mechanism is actuated.
- A preferred embodiment of the present application comprises a food processing appliance for processing foodstuff including a housing and an electric motor mounted within the housing. A bowl is removably mountable to the housing and a bowl lid is removably mountable over the bowl. The bowl is mounted to the housing and the bowl lid is mounted over the bowl in a working position to enable power to be applied to the motor. A control mechanism is mounted to the housing and is operatively connected to the electric motor. A sensor transmits a signal when the bowl and bowl lid are in the working position. An indicator includes a transparent plate mounted around a periphery of the control mechanism. The indicator visually indicates that the bowl and bowl lid are in the working position upon receiving a signal from the sensor.
- The foregoing summary, as well as the following detailed description of preferred embodiments of the invention, will be better understood when read in conjunction with the appended drawings. For the purpose of illustrating a food processing appliance with an indicator of the present invention, there is shown in the drawings preferred embodiments. It should be understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown. In the drawings:
-
FIG. 1 is a top perspective view of a food processing appliance including an indicator in accordance with a first preferred embodiment of the present invention; -
FIG. 2 is a partially exploded perspective view of the food processing appliance with indicator shown inFIG. 1 ; -
FIG. 3 is an enlarged cross-sectional view of the indicator of the food processing appliance shown inFIG. 1 , taken along line 3-3 ofFIG. 1 ; -
FIG. 4 is a cross-sectional view of the food processing appliance shown inFIG. 1 , taken along line 4-4 ofFIG. 1 ; -
FIG. 5 is a top perspective view of a food processing appliance with an indicator in accordance with a second preferred embodiment of the present invention; -
FIG. 6 is a cross-sectional view of the food processing appliance shown inFIG. 5 , taken along line 6-6 ofFIG. 5 ; and -
FIG. 7 is a cross-sectional view of the food processing appliance shown inFIG. 5 , taken along line 6-6 ofFIG. 5 with the feed tube cover in a loading position. - Certain terminology is used in the following description for convenience only and is not limiting. The words “inwardly” and “outwardly” refer to directions toward and away from, respectively, the geometric center of the food processing appliance, indicator and designated parts thereof. The terminology includes the above-listed words, derivatives thereof and words of similar import.
- Referring to the drawings in detail, wherein like numerals indicate like elements throughout, there is shown in
FIGS. 1-4 , a first preferred embodiment of afood processing appliance 10 for processing foodstuff, in accordance with the present invention. In the preferred embodiment, thefood processing appliance 10 includes ahousing 14 with anelectric motor 16 mounted within thehousing 14. Thehousing 14 is comprised of afirst shell half 14 a and asecond shell half 14 b that are connected at aparting line 14 c. Thehousing 14 is preferably constructed using the first andsecond shell halves electric motor 16 and other components of thefood processing appliance 10 therein. Thehousing 14 has a generally cylindrical shape when assembled with generally closed ends. - In the preferred embodiment, the
electric motor 16 includes amotor shaft 16 a extending therethrough with acooling fan 16 b mounted adjacent one end and adrive gear 18 mounted adjacent an opposite end. Thecooling fan 16 b preferably draws air into thehousing 14 throughvent holes 20 in the bottom end of thehousing 14 to cool themotor 16. - Referring to
FIGS. 1, 2 and 4, abowl 22 is removably mountable to thehousing 14 and abowl lid 24 is removably mountable over thebowl 22. In the preferred embodiment, thebowl 22 includes acentral sleeve 22 a having a generally cylindrical shape that extends upwardly from a bottom surface of thebowl 22. Thesleeve 22 a accommodates adrive shaft 26 that extends into thebowl 22 when thebowl 22 is mounted to thehousing 14. Thepreferred bowl 22 includes ahandle 22 b that may be used to transport thebowl 22 or to provide leverage for mounting thebowl 22 to thehousing 14. In addition, thebowl 22 includes alower rim 22 c that extends downwardly from a base of thebowl 22. Thelower rim 22 c accommodates mounting of thebowl 22 to thehousing 14 using a bayonet connection. - The
preferred bowl lid 24 includes askirt 24 a that extends downwardly from a periphery of thebowl lid 24 and a topbowl lid wall 24 b. Theskirt 24 a accommodates mounting of thebowl lid 24 to thebowl 22 using a bayonet-type attachment. Thebowl 22 is not limited to a bayonet attachment to thehousing 14 using therim 22 c and thebowl lid 24 is not limited to the bayonet attachment to thebowl 22 using theskirt 24 a. Thebowl 22 may be mounted to thehousing 14 and thebowl lid 24 may be mounted to thebowl 22 using nearly any mounting mechanism that would be obvious to one having ordinary skill in the art, for example, clamping, fastening, bolting, riveting or like alternative fastening mechanisms. - In the preferred embodiment, the
bowl 22,bowl lid 24 and their integral or associated components are constructed of a molded styrene acrylonitrile material (SAN). Thebowl 22 andbowl lid 24 are not limited to constructions using molded SAN material and may be constructed of nearly any polymeric, metal, glass or like material that is able to take on the general shape of thebowl 22 andbowl lid 24 and withstand the normal operating conditions of thebowl 22 andbowl lid 24. However, the SAN material is preferred due to its transparent appearance when molded, its generally smooth finished surface appearance, its relatively light weight and its relatively high impact resistance. - In a working position, the
bowl 22 is mounted to thehousing 14 and thebowl lid 24 is mounted over thebowl 22. In addition, in the preferred embodiment, atool 28 is mounted within thebowl 22 in the working position such that it is rotatably engaged with the portion of thedrive shaft 26 that extends throughsleeve 22 a. In the working position, thebowl lid 24 covers a mouth of thebowl 22 such that a user is unable to gain access to ablade 28 a of thetool 28. Accordingly, in the working position, a user will not be cut by the rotating blade because access to theblade 28 a is blocked by thehousing 14,bowl 22 andbowl lid 24. - Referring to
FIGS. 1-4 , acontrol mechanism 30 is mounted to thehousing 14 and is operatively connected to theelectric motor 16 in a manner that would be obvious to one having ordinary skill in the art. In the preferred embodiment, thecontrol mechanism 30 is comprised of arotary switch 32 with a generallycircular dial 34 that is exposed from a surface of thehousing 14. Thecontrol mechanism 30 is preferably mounted between the first andsecond shell halves parting line 14 c of thehousing 14. However, thecontrol mechanism 30 is not limited to being mounted tohousing 14 at theparting line 14 c and may be mounted anywhere on the surface of thehousing 14 as long as thecontrol mechanism 30 is exposed from a surface of thehousing 14 when thebowl 22 andbowl lid 24 are in the working position. Thedial 34 preferably includes afin 34 a that extends from its exposed surface and anengagement mechanism 34 b that extends from an opposite surface to engage acontrol shaft 32 a of therotary switch 32. - Referring to
FIG. 1 , in the preferred embodiment, therotary switch 32 is comprised of anelectric dial switch 32 having six positions. Thepreferred switch 32 is in an off position when it is positioned as is shown inFIG. 1 with thefin 34 a oriented generally vertically with respect to thehousing 14. From the off position, thefin 34 a may be rotated in a counterclockwise direction (opposite to the arrow A) inFIG. 1 to a pulse position or thefin 34 a may be rotated in a clockwise direction (the direction of the arrow A) to four separate processing positions that increase the speed of themotor shaft 16 a as thefin 34 a moves further in the direction of the arrow A. Thepreferred switch 32 operates and is constructed in essentially the same manner as the switch disclosed in U.S. Pat. No. 5,967,304, which is incorporated herein by reference. Thecontrol mechanism 30 is not limited to configurations including therotary switch 32 and dial 34 or to the specific rotary switch arrangement described above with the six switch locations. For example, thecontrol mechanism 30 may be comprised of a single momentary switch that actuates themotor shaft 16 a to rotate only when thecontrol mechanism 30 is depressed or may be comprised of a plurality of separate buttons (not shown) that actuate thefood processing appliance 10 to operate when one or more of the buttons is depressed. - In the preferred embodiment, the
dial 34 is constructed of an injection molded SAN material. Thedial 34 is not limited to constructions comprising the injection molded SAN material and may be constructed of nearly any generally rigid material that is able to take on the general shape of thedial 34 and withstand the normal operating conditions of thedial 34. - Referring to
FIGS. 3 and 4 , asensor 36 is positioned within thehousing 14 and transmits a signal when thebowl 22 andbowl lid 24 are in the working position. In the preferred embodiment, the sensor is amomentary switch 36 that is mounted by abracket 38 within thehousing 14 on an underside of thefirst shell half 14 a adjacent a location where thedrive shaft 26 exits thefirst shell half 14. The sensor is not limited to being mounted by thebracket 38 to the underside of thefirst shell half 14 a and may be mounted nearly anywhere on thehousing 14 using nearly any mounting mechanism that would be obvious to one having ordinary skill in the art. In addition, the sensor is not limited to themomentary switch 36 and may be comprised of nearly any sensor or switch that transmits a signal when thebowl 22 andbowl lid 24 are in the working position. For example, the sensor may be comprised of a magnetic switch that is actuated to one of a closed and open position when magnets on thebowl 22 andbowl lid 24 are aligned with the sensor (not shown). - In the preferred embodiment, the
momentary switch 36 is closed when thebowl 22 andbowl lid 24 are in the working position and is open when thebowl 22 andbowl lid 24 are in any other position. Referring to specifically, toFIG. 4 , in the preferred embodiment, themomentary switch 36 is closed through contact with aswitch arm 66 that is attached to a movable portion of thedrive shaft 26. When theswitch 36 is closed, power is able to be provided to themotor 16. - Referring to
FIG. 4 , in the preferred embodiment, thedrive shaft 26 is comprised of ahollow drive sleeve 26 a and amovable drive pin 26 b. Thedrive pin 26 b is movable along adrive axis 40 within thedrive sleeve 26 a between an extended position and a retracted position. Thedrive pin 26 b is biased toward the extended position by adrive spring 42 located between thehousing 14 and an E-clip 44 that is fixed to thedrive pin 26 b. Thedrive spring 42 also biases theswitch arm 66 away from themomentary switch 36. That is, theswitch arm 66 moves with thedrive pin 26 b between the extended and retracted positions. Accordingly, when thedrive pin 26 b is not in the retracted position, theswitch arm 66 does not contact themomentary switch 36 and themomentary switch 36 is open. - In the preferred embodiment, the
bowl lid 24 includes anactuating pin 46 that extends from a position near a center of an inner surface of the top bowl lid wall 42 b. Preferably, thepin 46 extends downwardly along thedrive axis 40. Therefore, when thebowl lid 24 is mounted to thebowl 22 and thebowl 22 is mounted to thehousing 14 in the working position, thepin 46 enters a hole in the top of thehollow drive sleeve 26 a to engage and urge thedrive pin 26 b downwardly against the force of thedrive spring 42 from its biased extended position to its retracted position. When thedrive pin 26 b moves to the retracted position, theswitch arm 66 is also moved downwardly and into contact with themomentary switch 36 to close theswitch 36 such that power may be provided to themotor 16. - Referring to
FIGS. 1-4 , anindicator 12 includes atransparent plate 48 that is mounted around a periphery of thecontrol mechanism 30. Thetransparent plate 48 preferably has a generally annular-shape and is constructed from an injection molded polycarbonate material. The annulartransparent plate 48 extends around the entire periphery of thedial 34 in the preferred embodiment. Thetransparent plate 48 is not limited to annular-shapes or to constructions using injection molded polycarbonate material. Thetransparent plate 48 may take on nearly any shape such that it is mountable around at least a portion of the periphery of thecontrol mechanism 30. In addition, thetransparent plate 48 is not limited to polycarbonate materials and may be constructed of nearly any material that is transparent and is able to withstand the normal operating conditions of thetransparent plate 48. For example, thetransparent plate 48 may be constructed of a glass, transparent polymeric or other like material that permits the transmission of light from the cylindrical portion to the exposedsurface 48 a of thetransparent plate 48. However, it is preferred that thetransparent plate 48 surround thecontrol mechanism 30 to provide a visual indication to a user immediately adjacent thecontrol mechanism 30. The visual indication adjacent thecontrol mechanism 30 is preferred so that a user is aware that actuation of thedial 34 will prompt thefood processing appliance 10 to operate when thetransparent plate 48 is illuminated but will not begin operation if thetransparent plate 48 is not illuminated. - The
indicator 12 preferably includes alight emitting device 50, a cone-shapedreflector 52 and thetransparent plate 48. Thelight emitting device 50 is preferably mounted to an apex 52 a of thereflector 50 such that thereflector 52 directs light from thelight emitting device 50 onto at least thetransparent plate 48. In addition, in the preferred embodiment, thetransparent plate 48 is mounted adjacent amouth 52 b of thereflector 52. Accordingly, when thelight emitting device 50 is illuminated, the general cone-shape of thereflector 52 directs light from thelight emitting device 50 onto thetransparent plate 48. Light is transmitted through thetransparent plate 48 to provide a visual indication to a user at an exterior of thehousing 14 at the periphery of thecontrol mechanism 30 when thelight emitting device 50 is illuminated. - In the preferred embodiment, the
reflector 52 is constructed of an injection molded ABS material that is chrome plated. The injection molded ABS material is preferred for thereflector 52 due to its generally clean surface appearance after molding and its ability to withstand the processing of and adhere to the chrome plating material. Chrome plating of thereflector 52 is preferred such that light is readily reflected from thelight emitting device 50 and on to thetransparent plate 48. Thereflector 52 is not limited to being chrome plated and may have nearly any surface finish or appearance that permits light to be directed from thereflector 52 toward thetransparent plate 48. For example, the inside of the cone-shapedreflector 52 may be painted with a reflective material or may be constructed of a reflective glass material. In addition, thereflector 52 may not be coated at all and the finished ABS material may be sufficient to reflect light toward and onto thetransparent plate 48. Further, thereflector 52 may be eliminated altogether and a generally annular or otherwise shaped light emitting device may be mounted around a periphery of the control mechanism 30 (not shown). - In the preferred embodiment, the
control mechanism 30 andindicator 12 are each mounted to thehousing 14 by asupport plate 54 that has a generally disk-like shape with acentral bore 54 a that accommodates insertion of thecontrol shaft 32 a therethrough andperipheral slots 54 b that permit the transmission of light therethrough and onto thetransparent plate 48. Thesupport plate 54 is mounted in anopening 56 formed at theparting line 14 c in the preferred embodiment. Thesupport plate 54 is preferably constructed of an injection molded SAN material but is not so limited. For example, thesupport plate 54 may be constructed of any metallic, polymeric, wood or other like, generally rigid material that is able to take on the general shape of thesupport plate 54 and withstand the normal operating conditions of thesupport plate 54. - Referring to
FIGS. 1-4 , theindicator 12 visually indicates that thebowl 22 andbowl lid 24 are in the working position upon receiving the signal from thesensor 36 such that power can be provided to theelectric motor 16. Specifically, when thebowl lid 24 is mounted to thebowl 22 and thebowl 22 is mounted to thehousing 14 in the working position, thepin 46 moves thedrive pin 26 b from its extended position to its retracted position against the biasing force of thedrive spring 42. Theswitch arm 66 contacts and closes themomentary switch 36 which provides a signal to theelectric motor 16 and enables power to be provided to theelectric motor 16 when thedrive pin 26 b is in the retracted position. In addition, when themomentary switch 36 is closed, power is able to be provided to thelight emitting device 50 which is illuminated. When thelight emitting device 50 is illuminated, light is transmitted onto the chrome-platedreflector 52, which reflects light onto thetransparent plate 48. Thetransparent plate 48 is illuminated by this light, thereby providing a visual indication around a periphery of thedial 34 that thebowl 22 andbowl lid 24 are in the working position and that power may be provided to theelectric motor 16 for actuation of thetool 28. - When the
bowl 22 andbowl lid 24 are in their working position, thedial 34 is pivoted to a selected one of its operating positions using thefin 34 a and themotor 16 is actuated to drive themotor shaft 16 a. Themotor shaft 16 a transmits rotational motion through thedrive gear 18 to agear reduction mechanism 58, which transmits the reduced rotational speed to thedrive pin 26 b, to thehollow sleeve 26 a and to thetool 28 to process the food within thebowl 22. - At the conclusion of processing or to insert additional foodstuff into the
bowl 22, thebowl lid 24 is removed from thebowl 22. When thebowl lid 24 is removed from thebowl 22, theactuating pin 46 releases thedrive pin 26 b, which moves from its retracted position to its extending position under the force of thedrive spring 42. In the extended position of thedrive pin 26 b, theswitch arm 66 is not in contact with themomentary switch 36 and themomentary switch 36 is open. Accordingly, power is not provided to themotor 16 or to thelight emitting device 50, when thebowl lid 24 is removed from thebowl 22. In addition, a visual indication (i.e., no light on) is provided at the exposedsurface 48 a that the food processing appliance is not able to be operated because thetransparent plate 48 is not illuminated. - Referring to
FIGS. 5-7 , a second preferred embodiment of thefood processing appliance 10′ is shown including like reference numerals to indicate like elements and a prime symbol (′) distinguishing the reference numerals of the second preferred embodiment. - The second preferred embodiment of the
food processing appliance 10′ includes afeed tube 70 extending from the topbowl lid wall 24 b′ of thebowl lid 24′. Thefeed tube 70 includes afeed mouth 72 and is preferably, integrally molded with thebowl lid 24′. Thefeed tube 70 is preferably constructed of the same SAN material as thebowl lid 24′. However, thefeed tube 70 is not limited to constructions using the same SAN material or to being integrally molded with thebowl lid 24′. Thefeed tube 70 may be constructed of nearly any material that is able to take on the general shape of thefeed tube 70 and withstand the normal operating conditions of thefeed tube 70. Thefeed tube 70 construction and operation will be generally well know to one having ordinary skill in the art. - A
feed tube cover 78 at least partially covers thefeed mouth 72 in a closed position in the second preferred embodiment. Thefeed tube cover 78 is movable between a loading position (FIG. 7 ) and the closed position (FIG. 6 ). In the preferred embodiment, thefeed tube cover 78 has a generally planartop surface 78 a with a peripheral shape that generally covers thefeed mouth 72 and further includes aperipheral skirt 78 b extending downwardly therefrom. Thefeed tube cover 78 is preferably constructed of the same SAN material as thefeed tube 70,bowl lid 24′ andbowl 22′. However, thefeed tube cover 78 is not limited to SAN material constructions and may be constructed of nearly any material that is able to take on the general shape of thefeed tube cover 78 and withstand the normal operating conditions of thefeed tube cover 78. - In the loading position, the
mouth 72 is exposed and foodstuff may be inserted into thefeed cavity 76 through thefeed mouth 72. In the closed position, theperipheral skirt 78 b extends about a periphery of the feed tube below thefeed mouth 72 and along sides of thefeed tube 70 to reduce the likelihood that foodstuff may escape thefeed cavity 76 and that a user may insert a hand or at least one finger into thefeed cavity 76 when thefeed tube cover 78 is in the closed position or nearly in the closed position. - In the second preferred embodiment, the
top surface 78 a of thefeed tube cover 78 has ahole 80 therein that slideably accommodates afood pusher 82. Thefood pusher 82 is preferably constructed of the same SAN material as thefeed tube cover 78 and is likewise not limited to the SAN material. The construction and operation of thefood pusher 82 andhole 80 are generally well known to those having ordinary skill in the art. - A
feed tube shaft 84 is movably mounted within thefeed tube 78 between an operating position (FIG. 6 ) and a safety position (FIG. 7 ) along thedrive axis 40′. Thefeed tube shaft 84 is preferably biased toward the safety position by atube spring 86. Thefeed tube shaft 84 preferably has a generally cylindrical shape that is tiered to provideabutment surfaces 84 a for the application of a biasing spring force from thetube spring 86 between thebowl lid 24 and thefeed tube shaft 84 and to provide a stop surface when theupper abutment surface 84 a comes into contact with thefeed tube 70. In the safety position, theupper abutment surface 84 a of thefeed tube shaft 84 come into contact with thefeed tube 70 and thetube spring 86 is at its fully extended position. - The
feed tube cover 78 includes afeed tube pin 88 attached thereto. Thefeed tube pin 88 preferably enters a hole in thefeed tube 70 when thefeed tube cover 78 is in the closed position. When thefeed tube cover 78 is in the closed position, thepin 88 engages and urges thefeed tube shaft 84 from its safety position to its operating position. Thefeed tube shaft 84 contacts thedrive pin 26 b′ and urges it to its retracted position and theswitch arm 66′ closes themomentary switch 36′ when thefeed tube shaft 84 is in it operating position and thebowl 22′ andbowl lid 24′ are in the working position. - The second preferred embodiment of the
food processing appliance 10′ is not limited to the inclusion of themovable drive pin 26 b′, movablefeed tube shaft 84 andfeed tube pin 88 to actuate themomentary switch 36′. For example, the movablefeed tube shaft 84 may be positioned along an outer edge of thefeed tube 70 and a movable shaft would also be located adjacent a periphery of thebowl 22′ (not shown). In such an arrangement, when thefeed tube cover 78 was positioned in its closed position, the movable shaft at the periphery of thefeed tube 70 would move to its operating position and the bowl shaft at the periphery of the bowl would move to its retracted position where it would close themomentary switch 36′. When themomentary switch 36′ was closed, power would be provided to themotor 16′ and thelight emitting device 50′. - In operation of the second preferred embodiment of the
food processing appliance 10′, thebowl 22′ is mounted to thehousing 14′, thetool 28′ is rotatably mounted to thedrive shaft 26′, thebowl lid 24′ is mounted to thebowl 22′ and thefeed tube cover 78 is positioned in its closed position over the mouth of thefeed tube 70. In this position, thefeed tube pin 88 urges thefeed tube shaft 84 to it operating position and thefeed tube shaft 84 urges thedrive pin 26 b′ to its retracted position. When thedrive pin 26 b′ is in the retracted position, theswitch arm 66′ contacts and closes themomentary switch 36′, thereby permitting power to be provided to themotor 16′ and thelight emitting device 50′. Therefore, a visual indication is provided at the exposedsurface 48 a′ to indicate that thefood processing appliance 10′ is prepared for operation when thebowl 22′ andbowl lid 24′ are positioned in their working position and thefeed tube cover 78 is positioned in its closed position. - To insert additional foodstuff into the
feed cavity 76 orbowl 22′ without moving thebowl 22′ orbowl lid 24′ out of the working position, thefeed tube cover 78 is rotated to its loading position. Thefeed tube pin 88 is moved out of contact with thefeed tube shaft 84, which moves out of contact with thedrive pin 26 b′ when thefeed tube cover 78 is moved to its loading position. When thefeed tube shaft 84 is moved out of contact with thedrive pin 26 b′, thedrive pin 26 b′ moves to its extended position and themomentary switch 36′ is open. Therefore, power will not be provided to themotor 16′ and the exposedsurface 48 a′ will not be illuminated because theswitch 36′ is open. - It will be appreciated by those skilled in the art that changes could be made to the embodiments described above without departing from the broad inventive concept thereof. It is understood, therefore, that this invention is not limited to the particular embodiments disclosed, but it is intended to cover modifications within the spirit and scope of the present invention as defined by the appended claims.
Claims (7)
1. A food processing appliance for processing foodstuff comprising:
a housing;
an electric motor mounted within the housing
a bowl removably mountable to the housing;
a bowl lid removably mountable over the bowl, the bowl being mounted to the housing and the bowl lid being mounted over the bowl in a working position to enable power to be applied to the motor;
a control mechanism mounted to the housing and operatively connected to the electric motor;
a sensor transmitting a signal when the bowl and bowl lid are in the working position; and
an indicator including a transparent plate mounted around a periphery of the control mechanism, the indicator visually indicating that the bowl and bowl lid are in the working position upon receiving the signal from the sensor.
2. The food processing appliance of claim 1 wherein the control mechanism is comprised of a rotary switch including a dial exposed from a surface of the housing.
3. The food processing appliance of claim 1 wherein the indicator includes a light emitting device, a reflector and the transparent plate, the light emitting device mounted such that the reflector directs light from the light emitting device onto at least the transparent plate.
4. The food processing appliance of claim 3 wherein the transparent plate is generally annular.
5. The food processing appliance of claim 4 wherein the control mechanism is surrounded by the transparent plate.
6. The food processing appliance of claim 1 wherein the sensor is a momentary switch that is mounted within the housing, the momentary switch being closed only when the bowl and bowl lid are in the working position.
7. The food processing appliance of claim 1 wherein the control mechanism includes a generally disc-shaped dial exposed from a surface of the housing, the transparent plate being generally annular and being mounted to the housing around the dial.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US11/747,787 US20070210194A1 (en) | 2004-02-18 | 2007-05-11 | Food processing appliance with indicator |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US10/780,975 US7229036B2 (en) | 2004-02-18 | 2004-02-18 | Food processing appliance with indicator |
US11/747,787 US20070210194A1 (en) | 2004-02-18 | 2007-05-11 | Food processing appliance with indicator |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US10/780,975 Division US7229036B2 (en) | 2004-02-18 | 2004-02-18 | Food processing appliance with indicator |
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US20070210194A1 true US20070210194A1 (en) | 2007-09-13 |
Family
ID=34838657
Family Applications (2)
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US10/780,975 Active 2025-10-07 US7229036B2 (en) | 2004-02-18 | 2004-02-18 | Food processing appliance with indicator |
US11/747,787 Abandoned US20070210194A1 (en) | 2004-02-18 | 2007-05-11 | Food processing appliance with indicator |
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US10/780,975 Active 2025-10-07 US7229036B2 (en) | 2004-02-18 | 2004-02-18 | Food processing appliance with indicator |
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CN (1) | CN1656989A (en) |
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US9167938B2 (en) * | 2013-03-15 | 2015-10-27 | Whirlpool Corporation | Food processor mixer attachment |
US9867504B2 (en) * | 2013-04-08 | 2018-01-16 | Conair Corporation | Locking mechanism for food processor blade assembly |
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US9198540B2 (en) * | 2013-08-02 | 2015-12-01 | Hamilton Beach Brands, Inc. | Food processor with locking bail handle |
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RU2016142195A (en) * | 2014-03-31 | 2018-05-03 | Конинклейке Филипс Н.В. | ELECTRICAL DEVICE FOR FOOD PROCESSING |
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US6397735B1 (en) * | 2001-08-21 | 2002-06-04 | Kayue Electric Company Limited | Electronic food processor |
US7069839B2 (en) * | 2003-07-01 | 2006-07-04 | Conair Corporation | Flip ramp mechanical interlock for appliance |
US7028930B2 (en) * | 2004-02-19 | 2006-04-18 | Hamilton Beach/Proctor-Silex, Inc. | Kitchen appliance with a safety interlock |
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WO2015143268A1 (en) * | 2014-03-20 | 2015-09-24 | Vita-Mix Corporation | Container/lid/blender interlock |
CN106163353A (en) * | 2014-03-20 | 2016-11-23 | 维他拌管理公司 | Container/lid/blender interlocking |
US9981234B2 (en) | 2014-03-20 | 2018-05-29 | Vita-Mix Management Corporation | Container/lid/blender interlock |
US10357749B2 (en) | 2014-03-20 | 2019-07-23 | Vita-Mix Management Corporation | Container/lid/blender interlock |
USD830124S1 (en) | 2016-03-04 | 2018-10-09 | Vita-Mix Management Corporation | Container |
USD839670S1 (en) | 2017-02-16 | 2019-02-05 | Vita-Mix Management Corporation | Blending container |
USD842566S1 (en) | 2017-06-15 | 2019-03-05 | Vita-Mix Management Corporation | Container scraper |
US10946389B2 (en) * | 2017-12-05 | 2021-03-16 | Vorwerk & Co. Interholding Gmbh | Activation device with magnets |
Also Published As
Publication number | Publication date |
---|---|
CN1656989A (en) | 2005-08-24 |
US20050178863A1 (en) | 2005-08-18 |
US7229036B2 (en) | 2007-06-12 |
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Legal Events
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