CA1043238A - Rotary food processing apparatus - Google Patents
Rotary food processing apparatusInfo
- Publication number
- CA1043238A CA1043238A CA251,642A CA251642A CA1043238A CA 1043238 A CA1043238 A CA 1043238A CA 251642 A CA251642 A CA 251642A CA 1043238 A CA1043238 A CA 1043238A
- Authority
- CA
- Canada
- Prior art keywords
- cover
- disc
- cutting
- bowl
- processing apparatus
- 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.)
- Expired
Links
Landscapes
- Food-Manufacturing Devices (AREA)
Abstract
S P E C I F I C A T I O N
IMPROVED ROTARY FOOD PROCESSING APPARATUS
Inventor: CARL G. SONTMEIMER
ABSTRACT OF THE DISCLOSURE
In food processing apparatus having a working bowl with a motor-driven shaft extending vertically upwards through the bottom of the bowl and various selected rotary tools having disc-like cutting tool members positioned in the top of the bowl which can be engaged with this shaft for processing food introduced through a feed tube in a cover secured over the bowl during use, improved rotary food processing apparatus is provided preventing the cutting surfaces of the disc-like member from inadvertently coming into contact with the under-¦
surface of the cover. The disc member is provided with one or more rounded bearing elements elevated above the cutting elements by a small amount, for example in the range from 1/32 to 3/32 of an inch. These bearing elements are posi-tioned closely adjacent to the periphery of the disc member, and in one illustrated embodiment the bearing element is formed directly at the periphery, thereby not impeding the feeding of food items to the cutting elements in the disc member. In normal operation the cutting elements clear the cover by a slightly greater amount than the elevation of the bearing elements for example 1/8th of an inch, such that these elevated bearing elements also clear the undersurface of the cover. In the event that the user inadvertently overloads the rotating disc cutting tool in either manner described, these bearing elements advantageously slide against the undersurface of the cover almost effortlessly for holding the cutting ele-ments spaced slightly away from the horizontal undersurface of the cover thereby protecting both the cover and the rotating tool.
IMPROVED ROTARY FOOD PROCESSING APPARATUS
Inventor: CARL G. SONTMEIMER
ABSTRACT OF THE DISCLOSURE
In food processing apparatus having a working bowl with a motor-driven shaft extending vertically upwards through the bottom of the bowl and various selected rotary tools having disc-like cutting tool members positioned in the top of the bowl which can be engaged with this shaft for processing food introduced through a feed tube in a cover secured over the bowl during use, improved rotary food processing apparatus is provided preventing the cutting surfaces of the disc-like member from inadvertently coming into contact with the under-¦
surface of the cover. The disc member is provided with one or more rounded bearing elements elevated above the cutting elements by a small amount, for example in the range from 1/32 to 3/32 of an inch. These bearing elements are posi-tioned closely adjacent to the periphery of the disc member, and in one illustrated embodiment the bearing element is formed directly at the periphery, thereby not impeding the feeding of food items to the cutting elements in the disc member. In normal operation the cutting elements clear the cover by a slightly greater amount than the elevation of the bearing elements for example 1/8th of an inch, such that these elevated bearing elements also clear the undersurface of the cover. In the event that the user inadvertently overloads the rotating disc cutting tool in either manner described, these bearing elements advantageously slide against the undersurface of the cover almost effortlessly for holding the cutting ele-ments spaced slightly away from the horizontal undersurface of the cover thereby protecting both the cover and the rotating tool.
Description
PIELD OF THE INVEWTI03~1 ¦
: ¦ The present invention relates to apparatus for preparing food, and in particular to multi-purpose kitcken : apparatus in which a plurality of rotary food preparing .~ 5 tools, including tools such as cutting discs, slicing discs, rasping discs, grating discs, etc. are used for performing the operations of cutting, slicing, rasping or grating of food items. ..
BACKGROU~7D Ol~ THE I~VEMTIO~
There is food processing apparatus of the type broadly set forth above having a working bowl or vesse.l with ~! la motor-driven shaft projecting vertically upwards through .¦the bottom of the bowl on which various selected rotary tools .
. ¦ can be engaged to be driven by the shaft for performing 1 various food processing operations as may be desired by the ¦ user. A detachable cover is secured over the top of the bowl ¦ during use. Thi9 cover includes a hopper or feed tube which ~ ¦ has a mouth that opens downwardly through the cover into the I ~ ~ top of the bowl. The food items to be prepared are placed in j 20 1 this feed tube and then are manually pushed down through the feed tube into the bowl by means of a removable pusher member :
¦ which is adapted to slide down in the manner of a plunger int~ ) this feed tube. For further information about this type of : .... :
food preparing apparatus the reader may refer to French: :~
Patent ~o. 71.27039.
~ ` The rotary tools include such as cutting discs, .
:~ slicing discs, rasping discs, grating discs, etc. which have . :! . ;
: : a disc-like cutting tool member formed of sheet metal,. ~
` ~ : . ~
~:, -2~
~ lt ~ . ~ ~
: ~ ~ ~
~LO 4 3Z38 ~ ~
preferably ~tainle~s ~teel, with one o~ more cuttiny elemen~ :
projecting above the upper su~face of the cutti.ng ~isc merrlbe~.
These tools which have a disc-like cutting membex are in~en- ¦
tionally positioned in the top of the bowl near the ~ower su _ ~ace o the cover whexe they can cut, slice, ra~p or g~ate the food items entering downwardly from the eed tube in~o th top o the bowl. For the purpose of positioning the disc- .
l~ke cutting tool me~ber in the top of ~he bowl, the rotax~ .
tool include a relatively long hollow hub extending rela- -tively ~ar down into tha bowl. This hollow hub slides vexti-cally down around the upper end o ~he motor-driven shaf~.
In order to provide a dxiving connection between the shat and this hollow hub, the shaft is formsd with driv;ng coup~ .
ling mean~, such a~ a 1at ~ace or keyway on one side, ~nd . .
the hollow hub ha9 complementary coupling means, such as . .
internal lug~ or keys, for engagi~g the shat. . ¦-As;examples, the food item3 to be sl~ced ox cut ma~
be ~uch aB~ cuc~mbers, carrot9, cabbage, onions, potatoes, :
xaddl5he3, 8gua9h, pepp~r5, celery, turnips, par9nips~ be-ts :
Food ~tems to be rasped or grated may be 9uch a~ ~hee~e,- ~
càrrots, po~àtoes, cabbage ~ ~ ~g~ . ¦-~ X~ some ca~e in using the prior art tools which .havc such a disc-like cutting member the user ~ay become-so .¦
intent upon processing the food items as not to notice tha~
i 25 the bowl ben`eath the cutting member has become full o~ the processed food. ~n such cases the user may continue to - 1~:
process food until finall~ the bowl becomes so full tha~ thQ
food forces the disc-like cutting member of the rotàry too~- ~
upwards agai t the lo r surLace of the co~er, ¦ 1.
`'"'' ' ' , :-'. . ''"~
` . . . . . ~
' ' .~ r . ~ . . . ........
, ......... - - - - 1 : l ~ l ! ~043Z38 In this type of food processing apparatus the rotary tool is usually driven at a speed in the range from ¦1,000 revolutions per minute (RPM) to 2,000 RPM, and the electric driving motor is relatively powerful so that it can~
~not readily become stalled. Consequently, when the disc-like cutting member becomes forced up against the cover, it can scratch or scour the cover as well as dull the tool. The cover is usually made of rigid transparent plastic for con-venient observation of the processing operation. The scratch-ing or scouring of the lower surface of the cover thereafter makes difficult the observation of food processing. Also, th~
roughened cover surface is much harder to clean than the original glass-like smoothness of the rigid plastic.
In other cases in using these prior art rotary tools, the user may become overly enthusiastic or too vigor-ous in forcing the food item, such as cheese or carrots, down through the feed tube. The result is to depress the sector of the disc-like cutting members where the food item is being pressed down upon it. In extreme cases the opposite sector !~ , 20 of the cutting member becomes deflected up against the lower surface of the cover, again causing a scratching or scouring of the cover and a dulling of the rotary toolO
In prior art rotary tools a small central~raised 1 button has been provided at the hub, but such a central i~ 25 button hao not prevented the deflection of the disc-like cutting member up against the cover in either manner as ~ ¦described above.
:` ¦ SUMM~RY OF TEIE I~VENTIOl~ ~ . .
. I . . :~
In accordance with the invention improved rotary j~ ` food processing apparatus is provided which prevents the ¦Icutting surfaces of the disc-like cutting tool member from inadvertently coming into contact with the undersurface of the cover on the working bowl. The disc-like cutting tool , ,,~ !
~- ~0~3238 member is provided with one or more rounded bearing elements elevated above the cutting elements on the disc member by a small amount, for example in the range from 1/32 to 3/32 of an inch. These bearing elements are positioned closely adjacent to the periphery of the disc member, and in one of the illustrated embodiments the bearing element is formed directly at the periphery. Thus, the bearing elements do not impede the feeding of food items to the cutting elements in the disc member. In normal operation the cutting elements ` 10 clear the undersurface of the cover by a slightly greater ;' amount than the elevation of the bearing elements for example 1/8th of an inch, such that in normal operation these ele- , ~ vated bearing elements also clear the undersurface of the 3 cover. In the event that the user inadvertently overloads the rotating disc cutting tool in either manner described, these bearing elements advantageously slide against the' undersurface of the cover almost effortlessly for holding the cutting elements spaced slightly away from the horizon-I tal undersurface o the cover thereby protecting both the ¦ 20 cover and the rotating tool.
, More particularly the invention resides essentially !
in rotary food processing apparatus having a working bowl with a vertical motor-driven shaft extending up into the bowl in which a cover is secured over the top of the bowl in use including a feed tube for introducing food items into the top of the bowl and in which a rotary tool has an elongated hub for engaging said shaft in driving relation-~ ~ '., - 5 - ~ ~
- .
43~
;`: ship with a disc-like cutting member having a horizontal ~ :
~. area with cutting means thereon projecting above the upper .
surface of the horizontal area, the improvement comprising ~ -a bearing element on said disc-like cutting member having ~:
..
a bearing surface elevated above said horizontal area there-. of a small amount greater than the elevation of said cutting .
means, said bearing element being positioned closely adjacent -~ to the peri.phery of said disc-like cutting member, said ele- : .:.
. , .
~ vated bearing surface being smooth and being adapted to -. 10 slide against the undersurface of the cover for holding said ~
~, ... .. ..
~; cutting means away from the cover in the event the user ' overloads the rotating disc-like member to cause it to de- .
:~ flect up toward the cover. ~ ..... .
~ In another aspect the invention resides in rotary .`
,i , i~ food processing apparatus having a working bowl with a ver- . ;
3 tical motor-driven shaft extending up into the bowl in which :
.. g ... ~. .
¦ a cover is secured over the top of the bowl in use including a ~eed tube ~or introducing food items into the top of the bowl . .
; and in which a rotary tool has an elongated hub for engaging said shaft in driving relationship with a disc-like cutt.ing . "
`! member having a horizontal area with a slot therein exten- ;~ ; .
ding from said hub out to the periphery of said disc-like .~.
member and a slicing blade is on said member positioned . .
behind said slot with a cutting edge projecting above said ~
, horizontal area and facing forward toward said slot for -slicing food items introduced through said feed tube and a .' downturned rim portion of said disc-like member bridges ~
~_ ""''' "' :' - 5a - .:.:
:J : ~ .
"''' " ' .' . '~' ~3;~38 .~ across the outer end of said slot, the improvement com- :
: prising a bearing element mounted on said disc-like cutting member having a bearing surface elevated above ` said horizontal area thereof a small amount greater than the elevation of said cutting edge, said bearing element .~ being mounted on said rim portion closely adjacent to the outer end of said slicing blade near the cutting edge .- thereof, said elevated bearing surface being smooth and ` being adapted to slide against the undersurface of the ,; 10 cover for holding said cutting edge away from the cover in the event the user overloads the rotating disc-like member to cause it to deflect up toward the cover.
.~ ` . .
': .
.1 .
;:¦ . . .
:3 : :
.~ , .
3 : -.1 .' ., ' .`'' "~
';' .' .-: :':' ' :, ' :. ..: :~ .
' : : . . ' ~ - 5b - . : :
' ' ..''. , ' ~:
'';',' .:'~ "" :' lOq3Z38 BRIEF DESCRIPq'IO~T OF' THE DRI~WI~GS
I FIG. 1 is a perspective view of a rotary food ; ¦processing tool embodying the present invention;
FIG. 2 is a cross-sectional view of the upper ¦portion of a working bowl with the cover secured thereon ¦ and with the rotary food processing tool of FIG. 1 shown partially in cross section positioned in the top of the bowl near the lower surface of the cover;
FIG. 3 is a perspective view of another rotary ¦ food processing tool embodying the invention;
FIG. 4 is a cross section view similar to FIG. 2 ¦ and showing the rotary food processing tool of FI~. 3 near ; ¦ the lower surface of the cover;
¦ FIG. 5 is an enlarged partial cross-sectional view ~ taken along the line 5-5 in FIG. 4;
;~ I FIG. 6 i~ a plan view of a portion of the rotary tool of FIG. l; and ¦ FIG. 7 i a partial plan view similar to FIG. 6 showing another embodiment of the invention.
I ~ . .
¦ DETAILED DESCRIPTION :
. .
.! l As shown in FIGS. 1, 2 and 6, a rotary food ~ ~ ¦
I processing tool 10 incorporating a first embodiment of the 'i I present invention includes a disc-like cutting member 12 ,~ I which is rotated about the vertical axis of a relatively ¦ long hollow hub 14. This hub may be formed of rigid plastic l material. The disc-like member 12 is formed of sheet metal, ,~ preferably stainless steel, having a downturned flange 16 extending around the periphery. The horizvntal area 20 of `~),, . ' ~ ` . ~ ,' I ~ -6- , ~ . i 0~323~
the disc member 12 may be stiffened by a plurality of ~radial ribs 18 formed by indenting rounded grooves having a generally semi-circular cross section and extending from the center out almost to the flange 16.
The long hollow hub 14 is shown having a somewhat enlarged head 2~ (FIG. 2) made of rigid plastic which is molded to the center of the disc member 12. For example, there may be a central aperture 24 (FIG. 2~ in the horizontal ¦area 20 of the sheet metal with the enlarged head 22 inte-¦ grally molded through this aperture 24 above and below the metal area. If desired, the long holLow stem 14 of the hub may be removably secured to the head 22 as by fitting into a ¦
~, Isocket therein (not shown) for convenience of manufacture and storage.
¦ Three groups or clusters 26 of small claws 28 are ~' ¦formed by drilling or punching a series o~ small holes and ¦ then punching upwardly small sharpened cutting edge regions of the horizontal metal area 20 behind each hole. These ¦ claws 28 are adapted to rasp or grate the lower surface of '~" ` ' 20 ¦ food item 30 such as listed above inserted down through a ~ hopper' or feed tube 32 (FIG. 2) as will be explained in de-I ¦ tail further below. ~
¦ In use the elongated hollow stem 14 of the hub is slid down onto a vertical motor-driven shaft as shown at 1 34 in FIG. 4 which projects up into a ~ood processing bowl 36 To provide a drive coupling between the shaft 34 and the hub stem 14, the shaft is formed with drive coupling means 38 ~` on one side, for example such as a flat region or keyway, and the inner surface of the hollow hub stem 14 contains comple- ~¦
mentary drive coupling means 40, such as lnternal lug or key '''` ~' ' `I : - ~ . .
.
~ ~ 104~Z;I~ ~ ~
means. Also, s-top means 42 such as a shoulder within the ¦hub stem 14 normally rests down onto the top end of the drivel shaft 34 for properly positioning the rotary disc-like cutting meTr~er 12 in the top of the bowl 36. The drive shaft 34 rotates at a fairly high rate such as 1,000 to 2,000 RPM.
¦ When food is being processed, a transparent cover 44 of rigid plastic is secured to the top of the bowl 36 by means of inturned anchoring lugs 46 (FIG. 2) on the lid which are captured beneath retaining ledges 48 formed intagrally with the upper edge of the bowl. The lugs 46 are positioned under these ledges by placing the cover onto the bowl and then turning it slightly. As the cover is turned, a cam 50 ¦serves to depress a push rod 52 for actuating a switch (not ¦ shown) to energize the driving motor for the shaft 34 (FIG. 4 .
;l ¦ The feed tube or hopper 32 is integral with the ¦ cover 44 and has a mouth 54 which opens down through the I iower surface of the cover. A manually operated removable ¦ push member or plunger 56 serves to push the food items 30 I down again~t the rotating disc-like cutting mel[~ber 12.
¦ Normally, the rasping or grating claws 28 are spaced approxi-mately ~ 8th o:E an inch below the lower surface of the cover 44.
There is a small raised button 58 at the center of the hub 22 The above-described apparatus is known in the prior art, and if the reader wishes further information thereon, reference may be made to the French Patent mentioned above.
As described in the introduction, with the prior ` art apparatus the user may cause the cutting elements 28 to lift up into contact with the cover. This mechanical inter-~ ference with the cover could occur by overly filling the bowl 36 with processed food thereby deflecting upwardly the . .
.,~ . ' ;~
-8- ~
~1 ' . . . ~. .. 1 !l whole outer region of the disc-like member 12 around near ~ Ithe periphery of the area 20 so that the cut~ing elements 28 -l ¦would scrape against the cover. Another way this interferencl , l ¦with the cover could occur is for the user to press down very ;, 5 ¦ hard on the pusher 56 wh;ch would deflect the opposite side of the rotating disc member 12 up against the cover.
In order to prevent the grating or rasping cutting !elements 28 from coming into contact with the lower surface ¦of the cover 44, three bearing elements 60 are e~bossed into ¦the horizontal area 20 of the disc-like member 12. These ~' embossed humps 60 have smoothly rounded upper surfaces as l I seen in FIGS. 1, 2 and 6, and they may be elongated somewhat ¦~ ¦ circumferentiaLly in the direction of their travel, as seen .~ most clearly in FIG. 6, which is drawn full scale in the drawing as submitted. Each bearing hump 60 precedes one of the groups 26 of the rasping or grating elements 2~3. As ¦ shown in FIG. 6, the,re is an angular displacement of approxi-mately 10 to 45 between the center of each cutting cluster 26 and the bearing hump 60. `
l 20 ¦ These bearing humps are embossed in the horizontal ,~ ¦ area 20 closely adjacent to the downturned flange 16 as~seen ¦
¦ in FIG. 2. For example, the rounded ridge of thia hump may ¦
be located radially inwardly in the range of 3/32~ to 3/8 I ¦ of an inch from the perimeter of the disc member 12~ It is ¦ desirable to position these rounded bearing humps 60 as close to the perimeter of the disc member 12 as embossing technique; 3 reasonably permit so that they do not unduly interfere with ¦
the food item 30 being pushed down. In this example, as ¦
shown in FIG. 6, the top of the hump is located radially inwardly 5/16 of an inch from the perimeter of the disc mem-I ber 12. ~
~ _9 ~
- 10~a323E~
¦¦ The top of each bearing hump is elevated a small ¦Idistance, say, 1/32 to 3/32 of an inch above the plane of ¦Ithe tops of the rasping or grating cutters 28. In this ¦¦preferred embodiment the humps 60 are elevated 1/16ths of an ¦inch above the cutting elements 28 and their rounded ridges are approximately 3/8ths of an inch long while the overall length of the embossed hump is approximately 3/4ths of an inch. Thus, as shown in FIG. 2, in the event that the disc member 12 is deflected or raised upward, the rounded ridges of these bearing humps 60 slide smoothly and almost effort-lessly against the undersurface of the cover, thereby prevent ing the cutting elements 28 from coming in contact with the cover.
FIG. 2 illustratively shows one of the bearing humps 60 sliding up against the cover. It is to be under-stood that this FIG. 2 drawing is for purposes of illustra-, tion. In normal running operation the bearing humps 60 clear ; the horizontal under~urface of the cover by a small distance such as 1/32 to 3/32 of an inch.
FIG. 7 shows a modified embodiment of the invention in which the embossed bearing humps 60A are generally hemi-spherical. They may be positioned so as to precede or to follow the center of the cluster 26 of cutting elements 28, by an angular displacement in the range from 10 to 45 .
FIG. 7 shows the bearing element 60A angularly displaced behind the group 26 of the claws 28. The tops of these humps 60A are elevated by a small amount such as from 1/32 to 3/32 of an inch above the cutting elements 28. The disc-like cut-ting member 12A of the rotary tool 10~ shown in FIG. 7 is otherwise identical to the corresponding disc member 12 of the tool 10.
It is to be understood that each of the elongated ¦-l¦ bearing humps 60 (FIGS. 1 and 6) may be angularly displaced I ¦~ bahind the respective groups 26 of the claws 28 with which i` ¦l is associated. 5- -!l 1()43Z38 ~ I
¦l The rotary food processing tool lOB shown in I¦FIGS. 3, 4 and 5 is used for slicing or cutting food items ~ ~¦such as listed above and is generally similar to the rotary .
: I tool 10. The disc-like member 12B includes an arcuate slot 70 formed in the horizontal metal area 20 and extending from . I the hub head 22 out to the peripheral flange 16. The trail-;' I ing edge 72 (FIG. 5? of this slot is pressed upwardly to orm a horizontal ledge behind the open slot 70. This ledge may . ¦be sharpened to ~orm a cutting edge or alternatively a ~curved hardened steel blade 74 may be spot welded onto the .
: ~ledge 72 with its arcuate sharpened cutting edge 76 project-., 'ing orwardly partially over and above the open slot 70. . ! .
.~ ¦This cutting edge 76 ma~ be serrated or scalloped slightly .l as seen in FIG. 3. ~hiR rotary cutting tool as described in this paragraph is known in the prior art. .
In order to prevent the ~licing or cutting blade 74 ¦ rom becoming de1ected up against the underside of the cover .
4~, I provide a bearing element 78 (FIG. 5) having an elongat~ ~d rounded ridge 80. This bearing element 78 is ormed by a strip of hard steel bent into a narrow inverted U shape, as ¦seen in cross section in FIG. 4, thus pro~iding two parallel ¦legs 81 and 82 which are closely spaced. One of these legs 81 i9 slid down n~ids of the portion of ths downtuensd flange 11 ¦
:
'' .. i : .1.
~,- I
104;~Z;~ ~ I
where this flange spans or bridges across the outer end of ¦the slot 70. The other leg 82 is slid down outside of this ¦slot-bridging portion of the flange 16. Then, the legs 81 and 82 of the bearing element 78 are spot welded as shown ¦ at 83 (FIG. 5) to the flange 16.
I It is the rounded bight of the inverted narrow ¦ U-shape which forms the rounded bearing ridge 80. Also, as shown in FIG. 5, the leading and trailing edges of the two ¦legs may be tapered upwardly as indicated at 84 and rounded at 85 so as to fair smoothly into the rounded bearing ridge 80. The xounded bearing ridge 80 is approximately 1/4th of an inch long in the circumferential direction as seen in IFIG. 5 and it projects above the upper surface of the blade 174 by a small amount in the range from 1/32 to 3/32 of ¦an inch.
¦ This bearing element 78 is advantageously positionec ¦at the periphery of the disc member 12B immediately adjacent to the outer e~tremity of the blade 74, as seen in FIG. 3, I and immediately preceding the cutting edge 76. Thus, bearing ¦ element 78 positively prevents the cutting blade from coming ¦ into contact with the cover, regardless of how the user may ~i ¦ inadvertently deflect the rotating disc member 12B. ~-FIGS. 4 and 5 illustratively show the rounded bear-¦ ing surface 80 sliding against the cover. It is to be under-stood that these FIGS. 4 and 5 are for purposes of illustra-tion~ In normal running operation the bearing element 78 clears the horizontal lower surface of the cover by a small J I distance, such as 1/32 to 3/32 of an inch.
'~': I ~
1. . I :
~ 12-~ I
'~,`, I
.,. , 11 . . I 1 - 1043Z3E~ ~
It is to be understood that in lieu of the bearing lelement 78 in FIGS. 3, 4 and 5, an embossed hump 60A may be provided in the horizontal metal area 20, as shown in FIG. 3.
¦IOne of these bearing hwmps 60A may be provided angularly ¦¦ displaced behind the cutter blade 74. Or a similar bearing , ¦hump 60A' may be provided in the hori~ontal metal area 20 . ahead of the cutting edge 76. If desired, both of the em-,. Ibossed bearing humps 60A and 60A' may be employed in lieu ; lof the bearing element 78. These bearing humps are positione~
¦closely adjacent to the downturned flange 16 at the periphery f the disc member 12B. ':
,l In FIG. 4 the reference numbers 86 indicates an ¦upstanding socket which is provided in the bottom of the bowl 36 surrounding but spaced away ~rom the shaft 34, as shown in the patent re~erred to above. .
It is to be noted that in each of the three embodi- .
.l ments of the rotary cutting tool 10, 10A and 10B the cutting . ¦ elements normally are spaced away ~rom the undersurface o~
.~ Ithe cover by a slightly greater amount, such as 1/8th of an .
inch, than the elevation of the rounded bearing surfaces o~ . , :"
i . ,the elements 60, 60A or 78 above,these cutting elements. Thu~ , 1¦
¦ the bearing elements do not normally come into contact with I
the cover 44, unless the user inadvertently deflects the l i~ 'disc member 12, 12A or 12B up against the cover by over ~ ¦ , !' . 25 1 loading it in either manner described. Then the bearing ,~., , ,'elements slide almost effortlessly against the undersur~ace o~ . j .
.~ 1 the cover ~or holding the cutting elements spaced slightly , ~;~ ~down away from the cover.
. . . 1~ ;
~` ' ~ ' , ' ~ '"' .~,. . ' : i i' i' ' -13- . ~ :
~, . , . , I' ~
: ¦ The present invention relates to apparatus for preparing food, and in particular to multi-purpose kitcken : apparatus in which a plurality of rotary food preparing .~ 5 tools, including tools such as cutting discs, slicing discs, rasping discs, grating discs, etc. are used for performing the operations of cutting, slicing, rasping or grating of food items. ..
BACKGROU~7D Ol~ THE I~VEMTIO~
There is food processing apparatus of the type broadly set forth above having a working bowl or vesse.l with ~! la motor-driven shaft projecting vertically upwards through .¦the bottom of the bowl on which various selected rotary tools .
. ¦ can be engaged to be driven by the shaft for performing 1 various food processing operations as may be desired by the ¦ user. A detachable cover is secured over the top of the bowl ¦ during use. Thi9 cover includes a hopper or feed tube which ~ ¦ has a mouth that opens downwardly through the cover into the I ~ ~ top of the bowl. The food items to be prepared are placed in j 20 1 this feed tube and then are manually pushed down through the feed tube into the bowl by means of a removable pusher member :
¦ which is adapted to slide down in the manner of a plunger int~ ) this feed tube. For further information about this type of : .... :
food preparing apparatus the reader may refer to French: :~
Patent ~o. 71.27039.
~ ` The rotary tools include such as cutting discs, .
:~ slicing discs, rasping discs, grating discs, etc. which have . :! . ;
: : a disc-like cutting tool member formed of sheet metal,. ~
` ~ : . ~
~:, -2~
~ lt ~ . ~ ~
: ~ ~ ~
~LO 4 3Z38 ~ ~
preferably ~tainle~s ~teel, with one o~ more cuttiny elemen~ :
projecting above the upper su~face of the cutti.ng ~isc merrlbe~.
These tools which have a disc-like cutting membex are in~en- ¦
tionally positioned in the top of the bowl near the ~ower su _ ~ace o the cover whexe they can cut, slice, ra~p or g~ate the food items entering downwardly from the eed tube in~o th top o the bowl. For the purpose of positioning the disc- .
l~ke cutting tool me~ber in the top of ~he bowl, the rotax~ .
tool include a relatively long hollow hub extending rela- -tively ~ar down into tha bowl. This hollow hub slides vexti-cally down around the upper end o ~he motor-driven shaf~.
In order to provide a dxiving connection between the shat and this hollow hub, the shaft is formsd with driv;ng coup~ .
ling mean~, such a~ a 1at ~ace or keyway on one side, ~nd . .
the hollow hub ha9 complementary coupling means, such as . .
internal lug~ or keys, for engagi~g the shat. . ¦-As;examples, the food item3 to be sl~ced ox cut ma~
be ~uch aB~ cuc~mbers, carrot9, cabbage, onions, potatoes, :
xaddl5he3, 8gua9h, pepp~r5, celery, turnips, par9nips~ be-ts :
Food ~tems to be rasped or grated may be 9uch a~ ~hee~e,- ~
càrrots, po~àtoes, cabbage ~ ~ ~g~ . ¦-~ X~ some ca~e in using the prior art tools which .havc such a disc-like cutting member the user ~ay become-so .¦
intent upon processing the food items as not to notice tha~
i 25 the bowl ben`eath the cutting member has become full o~ the processed food. ~n such cases the user may continue to - 1~:
process food until finall~ the bowl becomes so full tha~ thQ
food forces the disc-like cutting member of the rotàry too~- ~
upwards agai t the lo r surLace of the co~er, ¦ 1.
`'"'' ' ' , :-'. . ''"~
` . . . . . ~
' ' .~ r . ~ . . . ........
, ......... - - - - 1 : l ~ l ! ~043Z38 In this type of food processing apparatus the rotary tool is usually driven at a speed in the range from ¦1,000 revolutions per minute (RPM) to 2,000 RPM, and the electric driving motor is relatively powerful so that it can~
~not readily become stalled. Consequently, when the disc-like cutting member becomes forced up against the cover, it can scratch or scour the cover as well as dull the tool. The cover is usually made of rigid transparent plastic for con-venient observation of the processing operation. The scratch-ing or scouring of the lower surface of the cover thereafter makes difficult the observation of food processing. Also, th~
roughened cover surface is much harder to clean than the original glass-like smoothness of the rigid plastic.
In other cases in using these prior art rotary tools, the user may become overly enthusiastic or too vigor-ous in forcing the food item, such as cheese or carrots, down through the feed tube. The result is to depress the sector of the disc-like cutting members where the food item is being pressed down upon it. In extreme cases the opposite sector !~ , 20 of the cutting member becomes deflected up against the lower surface of the cover, again causing a scratching or scouring of the cover and a dulling of the rotary toolO
In prior art rotary tools a small central~raised 1 button has been provided at the hub, but such a central i~ 25 button hao not prevented the deflection of the disc-like cutting member up against the cover in either manner as ~ ¦described above.
:` ¦ SUMM~RY OF TEIE I~VENTIOl~ ~ . .
. I . . :~
In accordance with the invention improved rotary j~ ` food processing apparatus is provided which prevents the ¦Icutting surfaces of the disc-like cutting tool member from inadvertently coming into contact with the undersurface of the cover on the working bowl. The disc-like cutting tool , ,,~ !
~- ~0~3238 member is provided with one or more rounded bearing elements elevated above the cutting elements on the disc member by a small amount, for example in the range from 1/32 to 3/32 of an inch. These bearing elements are positioned closely adjacent to the periphery of the disc member, and in one of the illustrated embodiments the bearing element is formed directly at the periphery. Thus, the bearing elements do not impede the feeding of food items to the cutting elements in the disc member. In normal operation the cutting elements ` 10 clear the undersurface of the cover by a slightly greater ;' amount than the elevation of the bearing elements for example 1/8th of an inch, such that in normal operation these ele- , ~ vated bearing elements also clear the undersurface of the 3 cover. In the event that the user inadvertently overloads the rotating disc cutting tool in either manner described, these bearing elements advantageously slide against the' undersurface of the cover almost effortlessly for holding the cutting elements spaced slightly away from the horizon-I tal undersurface o the cover thereby protecting both the ¦ 20 cover and the rotating tool.
, More particularly the invention resides essentially !
in rotary food processing apparatus having a working bowl with a vertical motor-driven shaft extending up into the bowl in which a cover is secured over the top of the bowl in use including a feed tube for introducing food items into the top of the bowl and in which a rotary tool has an elongated hub for engaging said shaft in driving relation-~ ~ '., - 5 - ~ ~
- .
43~
;`: ship with a disc-like cutting member having a horizontal ~ :
~. area with cutting means thereon projecting above the upper .
surface of the horizontal area, the improvement comprising ~ -a bearing element on said disc-like cutting member having ~:
..
a bearing surface elevated above said horizontal area there-. of a small amount greater than the elevation of said cutting .
means, said bearing element being positioned closely adjacent -~ to the peri.phery of said disc-like cutting member, said ele- : .:.
. , .
~ vated bearing surface being smooth and being adapted to -. 10 slide against the undersurface of the cover for holding said ~
~, ... .. ..
~; cutting means away from the cover in the event the user ' overloads the rotating disc-like member to cause it to de- .
:~ flect up toward the cover. ~ ..... .
~ In another aspect the invention resides in rotary .`
,i , i~ food processing apparatus having a working bowl with a ver- . ;
3 tical motor-driven shaft extending up into the bowl in which :
.. g ... ~. .
¦ a cover is secured over the top of the bowl in use including a ~eed tube ~or introducing food items into the top of the bowl . .
; and in which a rotary tool has an elongated hub for engaging said shaft in driving relationship with a disc-like cutt.ing . "
`! member having a horizontal area with a slot therein exten- ;~ ; .
ding from said hub out to the periphery of said disc-like .~.
member and a slicing blade is on said member positioned . .
behind said slot with a cutting edge projecting above said ~
, horizontal area and facing forward toward said slot for -slicing food items introduced through said feed tube and a .' downturned rim portion of said disc-like member bridges ~
~_ ""''' "' :' - 5a - .:.:
:J : ~ .
"''' " ' .' . '~' ~3;~38 .~ across the outer end of said slot, the improvement com- :
: prising a bearing element mounted on said disc-like cutting member having a bearing surface elevated above ` said horizontal area thereof a small amount greater than the elevation of said cutting edge, said bearing element .~ being mounted on said rim portion closely adjacent to the outer end of said slicing blade near the cutting edge .- thereof, said elevated bearing surface being smooth and ` being adapted to slide against the undersurface of the ,; 10 cover for holding said cutting edge away from the cover in the event the user overloads the rotating disc-like member to cause it to deflect up toward the cover.
.~ ` . .
': .
.1 .
;:¦ . . .
:3 : :
.~ , .
3 : -.1 .' ., ' .`'' "~
';' .' .-: :':' ' :, ' :. ..: :~ .
' : : . . ' ~ - 5b - . : :
' ' ..''. , ' ~:
'';',' .:'~ "" :' lOq3Z38 BRIEF DESCRIPq'IO~T OF' THE DRI~WI~GS
I FIG. 1 is a perspective view of a rotary food ; ¦processing tool embodying the present invention;
FIG. 2 is a cross-sectional view of the upper ¦portion of a working bowl with the cover secured thereon ¦ and with the rotary food processing tool of FIG. 1 shown partially in cross section positioned in the top of the bowl near the lower surface of the cover;
FIG. 3 is a perspective view of another rotary ¦ food processing tool embodying the invention;
FIG. 4 is a cross section view similar to FIG. 2 ¦ and showing the rotary food processing tool of FI~. 3 near ; ¦ the lower surface of the cover;
¦ FIG. 5 is an enlarged partial cross-sectional view ~ taken along the line 5-5 in FIG. 4;
;~ I FIG. 6 i~ a plan view of a portion of the rotary tool of FIG. l; and ¦ FIG. 7 i a partial plan view similar to FIG. 6 showing another embodiment of the invention.
I ~ . .
¦ DETAILED DESCRIPTION :
. .
.! l As shown in FIGS. 1, 2 and 6, a rotary food ~ ~ ¦
I processing tool 10 incorporating a first embodiment of the 'i I present invention includes a disc-like cutting member 12 ,~ I which is rotated about the vertical axis of a relatively ¦ long hollow hub 14. This hub may be formed of rigid plastic l material. The disc-like member 12 is formed of sheet metal, ,~ preferably stainless steel, having a downturned flange 16 extending around the periphery. The horizvntal area 20 of `~),, . ' ~ ` . ~ ,' I ~ -6- , ~ . i 0~323~
the disc member 12 may be stiffened by a plurality of ~radial ribs 18 formed by indenting rounded grooves having a generally semi-circular cross section and extending from the center out almost to the flange 16.
The long hollow hub 14 is shown having a somewhat enlarged head 2~ (FIG. 2) made of rigid plastic which is molded to the center of the disc member 12. For example, there may be a central aperture 24 (FIG. 2~ in the horizontal ¦area 20 of the sheet metal with the enlarged head 22 inte-¦ grally molded through this aperture 24 above and below the metal area. If desired, the long holLow stem 14 of the hub may be removably secured to the head 22 as by fitting into a ¦
~, Isocket therein (not shown) for convenience of manufacture and storage.
¦ Three groups or clusters 26 of small claws 28 are ~' ¦formed by drilling or punching a series o~ small holes and ¦ then punching upwardly small sharpened cutting edge regions of the horizontal metal area 20 behind each hole. These ¦ claws 28 are adapted to rasp or grate the lower surface of '~" ` ' 20 ¦ food item 30 such as listed above inserted down through a ~ hopper' or feed tube 32 (FIG. 2) as will be explained in de-I ¦ tail further below. ~
¦ In use the elongated hollow stem 14 of the hub is slid down onto a vertical motor-driven shaft as shown at 1 34 in FIG. 4 which projects up into a ~ood processing bowl 36 To provide a drive coupling between the shaft 34 and the hub stem 14, the shaft is formed with drive coupling means 38 ~` on one side, for example such as a flat region or keyway, and the inner surface of the hollow hub stem 14 contains comple- ~¦
mentary drive coupling means 40, such as lnternal lug or key '''` ~' ' `I : - ~ . .
.
~ ~ 104~Z;I~ ~ ~
means. Also, s-top means 42 such as a shoulder within the ¦hub stem 14 normally rests down onto the top end of the drivel shaft 34 for properly positioning the rotary disc-like cutting meTr~er 12 in the top of the bowl 36. The drive shaft 34 rotates at a fairly high rate such as 1,000 to 2,000 RPM.
¦ When food is being processed, a transparent cover 44 of rigid plastic is secured to the top of the bowl 36 by means of inturned anchoring lugs 46 (FIG. 2) on the lid which are captured beneath retaining ledges 48 formed intagrally with the upper edge of the bowl. The lugs 46 are positioned under these ledges by placing the cover onto the bowl and then turning it slightly. As the cover is turned, a cam 50 ¦serves to depress a push rod 52 for actuating a switch (not ¦ shown) to energize the driving motor for the shaft 34 (FIG. 4 .
;l ¦ The feed tube or hopper 32 is integral with the ¦ cover 44 and has a mouth 54 which opens down through the I iower surface of the cover. A manually operated removable ¦ push member or plunger 56 serves to push the food items 30 I down again~t the rotating disc-like cutting mel[~ber 12.
¦ Normally, the rasping or grating claws 28 are spaced approxi-mately ~ 8th o:E an inch below the lower surface of the cover 44.
There is a small raised button 58 at the center of the hub 22 The above-described apparatus is known in the prior art, and if the reader wishes further information thereon, reference may be made to the French Patent mentioned above.
As described in the introduction, with the prior ` art apparatus the user may cause the cutting elements 28 to lift up into contact with the cover. This mechanical inter-~ ference with the cover could occur by overly filling the bowl 36 with processed food thereby deflecting upwardly the . .
.,~ . ' ;~
-8- ~
~1 ' . . . ~. .. 1 !l whole outer region of the disc-like member 12 around near ~ Ithe periphery of the area 20 so that the cut~ing elements 28 -l ¦would scrape against the cover. Another way this interferencl , l ¦with the cover could occur is for the user to press down very ;, 5 ¦ hard on the pusher 56 wh;ch would deflect the opposite side of the rotating disc member 12 up against the cover.
In order to prevent the grating or rasping cutting !elements 28 from coming into contact with the lower surface ¦of the cover 44, three bearing elements 60 are e~bossed into ¦the horizontal area 20 of the disc-like member 12. These ~' embossed humps 60 have smoothly rounded upper surfaces as l I seen in FIGS. 1, 2 and 6, and they may be elongated somewhat ¦~ ¦ circumferentiaLly in the direction of their travel, as seen .~ most clearly in FIG. 6, which is drawn full scale in the drawing as submitted. Each bearing hump 60 precedes one of the groups 26 of the rasping or grating elements 2~3. As ¦ shown in FIG. 6, the,re is an angular displacement of approxi-mately 10 to 45 between the center of each cutting cluster 26 and the bearing hump 60. `
l 20 ¦ These bearing humps are embossed in the horizontal ,~ ¦ area 20 closely adjacent to the downturned flange 16 as~seen ¦
¦ in FIG. 2. For example, the rounded ridge of thia hump may ¦
be located radially inwardly in the range of 3/32~ to 3/8 I ¦ of an inch from the perimeter of the disc member 12~ It is ¦ desirable to position these rounded bearing humps 60 as close to the perimeter of the disc member 12 as embossing technique; 3 reasonably permit so that they do not unduly interfere with ¦
the food item 30 being pushed down. In this example, as ¦
shown in FIG. 6, the top of the hump is located radially inwardly 5/16 of an inch from the perimeter of the disc mem-I ber 12. ~
~ _9 ~
- 10~a323E~
¦¦ The top of each bearing hump is elevated a small ¦Idistance, say, 1/32 to 3/32 of an inch above the plane of ¦Ithe tops of the rasping or grating cutters 28. In this ¦¦preferred embodiment the humps 60 are elevated 1/16ths of an ¦inch above the cutting elements 28 and their rounded ridges are approximately 3/8ths of an inch long while the overall length of the embossed hump is approximately 3/4ths of an inch. Thus, as shown in FIG. 2, in the event that the disc member 12 is deflected or raised upward, the rounded ridges of these bearing humps 60 slide smoothly and almost effort-lessly against the undersurface of the cover, thereby prevent ing the cutting elements 28 from coming in contact with the cover.
FIG. 2 illustratively shows one of the bearing humps 60 sliding up against the cover. It is to be under-stood that this FIG. 2 drawing is for purposes of illustra-, tion. In normal running operation the bearing humps 60 clear ; the horizontal under~urface of the cover by a small distance such as 1/32 to 3/32 of an inch.
FIG. 7 shows a modified embodiment of the invention in which the embossed bearing humps 60A are generally hemi-spherical. They may be positioned so as to precede or to follow the center of the cluster 26 of cutting elements 28, by an angular displacement in the range from 10 to 45 .
FIG. 7 shows the bearing element 60A angularly displaced behind the group 26 of the claws 28. The tops of these humps 60A are elevated by a small amount such as from 1/32 to 3/32 of an inch above the cutting elements 28. The disc-like cut-ting member 12A of the rotary tool 10~ shown in FIG. 7 is otherwise identical to the corresponding disc member 12 of the tool 10.
It is to be understood that each of the elongated ¦-l¦ bearing humps 60 (FIGS. 1 and 6) may be angularly displaced I ¦~ bahind the respective groups 26 of the claws 28 with which i` ¦l is associated. 5- -!l 1()43Z38 ~ I
¦l The rotary food processing tool lOB shown in I¦FIGS. 3, 4 and 5 is used for slicing or cutting food items ~ ~¦such as listed above and is generally similar to the rotary .
: I tool 10. The disc-like member 12B includes an arcuate slot 70 formed in the horizontal metal area 20 and extending from . I the hub head 22 out to the peripheral flange 16. The trail-;' I ing edge 72 (FIG. 5? of this slot is pressed upwardly to orm a horizontal ledge behind the open slot 70. This ledge may . ¦be sharpened to ~orm a cutting edge or alternatively a ~curved hardened steel blade 74 may be spot welded onto the .
: ~ledge 72 with its arcuate sharpened cutting edge 76 project-., 'ing orwardly partially over and above the open slot 70. . ! .
.~ ¦This cutting edge 76 ma~ be serrated or scalloped slightly .l as seen in FIG. 3. ~hiR rotary cutting tool as described in this paragraph is known in the prior art. .
In order to prevent the ~licing or cutting blade 74 ¦ rom becoming de1ected up against the underside of the cover .
4~, I provide a bearing element 78 (FIG. 5) having an elongat~ ~d rounded ridge 80. This bearing element 78 is ormed by a strip of hard steel bent into a narrow inverted U shape, as ¦seen in cross section in FIG. 4, thus pro~iding two parallel ¦legs 81 and 82 which are closely spaced. One of these legs 81 i9 slid down n~ids of the portion of ths downtuensd flange 11 ¦
:
'' .. i : .1.
~,- I
104;~Z;~ ~ I
where this flange spans or bridges across the outer end of ¦the slot 70. The other leg 82 is slid down outside of this ¦slot-bridging portion of the flange 16. Then, the legs 81 and 82 of the bearing element 78 are spot welded as shown ¦ at 83 (FIG. 5) to the flange 16.
I It is the rounded bight of the inverted narrow ¦ U-shape which forms the rounded bearing ridge 80. Also, as shown in FIG. 5, the leading and trailing edges of the two ¦legs may be tapered upwardly as indicated at 84 and rounded at 85 so as to fair smoothly into the rounded bearing ridge 80. The xounded bearing ridge 80 is approximately 1/4th of an inch long in the circumferential direction as seen in IFIG. 5 and it projects above the upper surface of the blade 174 by a small amount in the range from 1/32 to 3/32 of ¦an inch.
¦ This bearing element 78 is advantageously positionec ¦at the periphery of the disc member 12B immediately adjacent to the outer e~tremity of the blade 74, as seen in FIG. 3, I and immediately preceding the cutting edge 76. Thus, bearing ¦ element 78 positively prevents the cutting blade from coming ¦ into contact with the cover, regardless of how the user may ~i ¦ inadvertently deflect the rotating disc member 12B. ~-FIGS. 4 and 5 illustratively show the rounded bear-¦ ing surface 80 sliding against the cover. It is to be under-stood that these FIGS. 4 and 5 are for purposes of illustra-tion~ In normal running operation the bearing element 78 clears the horizontal lower surface of the cover by a small J I distance, such as 1/32 to 3/32 of an inch.
'~': I ~
1. . I :
~ 12-~ I
'~,`, I
.,. , 11 . . I 1 - 1043Z3E~ ~
It is to be understood that in lieu of the bearing lelement 78 in FIGS. 3, 4 and 5, an embossed hump 60A may be provided in the horizontal metal area 20, as shown in FIG. 3.
¦IOne of these bearing hwmps 60A may be provided angularly ¦¦ displaced behind the cutter blade 74. Or a similar bearing , ¦hump 60A' may be provided in the hori~ontal metal area 20 . ahead of the cutting edge 76. If desired, both of the em-,. Ibossed bearing humps 60A and 60A' may be employed in lieu ; lof the bearing element 78. These bearing humps are positione~
¦closely adjacent to the downturned flange 16 at the periphery f the disc member 12B. ':
,l In FIG. 4 the reference numbers 86 indicates an ¦upstanding socket which is provided in the bottom of the bowl 36 surrounding but spaced away ~rom the shaft 34, as shown in the patent re~erred to above. .
It is to be noted that in each of the three embodi- .
.l ments of the rotary cutting tool 10, 10A and 10B the cutting . ¦ elements normally are spaced away ~rom the undersurface o~
.~ Ithe cover by a slightly greater amount, such as 1/8th of an .
inch, than the elevation of the rounded bearing surfaces o~ . , :"
i . ,the elements 60, 60A or 78 above,these cutting elements. Thu~ , 1¦
¦ the bearing elements do not normally come into contact with I
the cover 44, unless the user inadvertently deflects the l i~ 'disc member 12, 12A or 12B up against the cover by over ~ ¦ , !' . 25 1 loading it in either manner described. Then the bearing ,~., , ,'elements slide almost effortlessly against the undersur~ace o~ . j .
.~ 1 the cover ~or holding the cutting elements spaced slightly , ~;~ ~down away from the cover.
. . . 1~ ;
~` ' ~ ' , ' ~ '"' .~,. . ' : i i' i' ' -13- . ~ :
~, . , . , I' ~
Claims (8)
1. In rotary food processing apparatus having a working bowl with a vertical motor-driven shaft extending up into the bowl in which a cover is secured over the top of the bowl in use including a feed tube for introducing food items into the top of the bowl and in which a rotary tool has an elongated hub for engaging said shaft in driving relationship with a disc-like cutting member having a horizon-tal area with cutting means thereon projecting above the upper surface of the horizontal area, the improvement compris-ing a bearing element on said disc-like cutting member having a bearing surface elevated above said horizontal area thereof a small amount greater than the elevation of said cutting means, said bearing element being positioned closely adjacent to the periphery of said disc-like cutting member, said ele-vated bearing surface being smooth and being adapted to slide against the undersurface of the cover for holding said cutting means away from the cover in the event the user overloads the rotating disc-like member to cause it to deflect up toward the cover.
2. In rotary food processing apparatus as claimed in Claim 1 wherein said cutting means comprises a plurality of groups of claws for grating and rasping formed in said horizontal area of said disc-like cutting member, the improve-ment in which said bearing means comprises a plurality of embossed humps formed in said horizontal area, one of said embossed humps being positioned near to each of said groups of claws.
3. In rotary food processing apparatus as claimed in Claim 2 the improvement in which each of said embossed humps is angularly displaced from the group of claws with which it is associated by an angular displacement of from 10° to 45°.
4. In rotary food processing apparatus as claimed in Claim 2, the improvement in which said embossed humps are elongated in the direction of travel and have smoothly rounded ridges extending in their direction of travel, said ridges being located radially inwardly from the periphery of said disc member by a spacing in the range of 3/32 to 3/8 of an inch.
5. In rotary food processing apparatus as claimed in Claim 2, the improvement in which said embossed humps are generally hemispherical.
6. In rotary food processing apparatus having a working bowl with a vertical motor-driven shaft extending up into the bowl in which a cover is secured over the top of the bowl in use including a feed tube for introducing food items into the top of the bowl and in which a rotary tool has an elongated hub for engaging said shaft in driving relationship with a disc-like cutting member having a horizontal area with a slot therein extending from said hub out to the periphery of said disc-like member and a slicing blade is on said member positioned behind said slot with a cutting edge projecting above said horizontal area and facing forward toward said slot for slicing food items introduced through said feed tube and a downturned rim portion of said disc-like member bridges across the outer end of said slot, the improvement comprising a bearing element mounted on said disc-like cutting member having a bearing surface elevated above said horizontal area thereof a small amount greater than the elevation of said cutting edge, said bearing element being mounted on said rim portion closely adjacent to the outer end of said slicing blade near the cutting edge thereof, said elevated bearing surface being smooth and being adapted to slide against the undersurface of the cover for holding said cutting edge away from the cover in the event the user overloads the rotating disc-like member to cause it to deflect up toward the cover.
7. In rotary food processing apparatus having a working bowl with a vertical motor-driven shaft extending up into the bowl in which a cover is secured over the top of the bowl in use including a feed tube for introducing food items into the top of the bowl and in which a rotary tool has an elongated hub for engaging said shaft in driving relationship with a disc-like cutting member having a horizontal area with a slot therein extending from said hub out to the periphery of said disc-like member and a slicing blade is on said member positioned behind said slot with a cutting edge projecting above said horizontal area and facing forward toward said slot for slicing food items introduced through said feed tube and a downturned rim portion of said disc-like member bridges across the outer end of said slot, the improvement comprising at least one embossed hump in said horizontal area having a rounded bearing surface elevated above said horizontal area a small amount greater than the elevation of said cutting edge, said embossed bearing hump being closely adjacent to the periphery of said disc-like member and being angularly displaced from the outer end of said slicing blade, said elevated bearing surface being smooth and being adapted to slide against the undersurface of the cover for holding said cutting edge away from the cover in the event the user overloads the rotating disc-like member to cause it to deflect up toward the cover.
8. In a rotary food processing apparatus the improvement as claimed in Claim 7, in which said embossed hump has its bearing surface elevated above said cutting edge by a small amount in the range from 1/32 to 3/32 of an inch.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA251,642A CA1043238A (en) | 1976-05-03 | 1976-05-03 | Rotary food processing apparatus |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA251,642A CA1043238A (en) | 1976-05-03 | 1976-05-03 | Rotary food processing apparatus |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1043238A true CA1043238A (en) | 1978-11-28 |
Family
ID=4105847
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA251,642A Expired CA1043238A (en) | 1976-05-03 | 1976-05-03 | Rotary food processing apparatus |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1043238A (en) |
-
1976
- 1976-05-03 CA CA251,642A patent/CA1043238A/en not_active Expired
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US3985304A (en) | Rotary food processing apparatus | |
| US4198887A (en) | Julienne cutter tool | |
| CA1140031A (en) | Rotary slicing tool for making neat, complete slices in a food processor | |
| CA1177734A (en) | Rotary food processing tool having changeable slicer cutting parameters | |
| US4367667A (en) | French fry cutter for food processors | |
| US4393737A (en) | Julienne cutter for food processors | |
| US4190208A (en) | Processor and cutter disc | |
| US4227655A (en) | Rotary food processing tool having offset hub | |
| US4590835A (en) | Cutter for food materials | |
| CA1145231A (en) | Rotary cutter blade | |
| EP0122635B1 (en) | Rotary hand knife and parts therefor | |
| EP2636344A1 (en) | Food processor and adjustable cutting assembly | |
| AU2011201946A1 (en) | Food processor with cutting blade assembly support | |
| US4448100A (en) | Rotary slicing tool for a food processor | |
| US3085607A (en) | Food slicer | |
| CA1043238A (en) | Rotary food processing apparatus | |
| EP0190361B1 (en) | Grinding blade device on drum | |
| JPH0547357B2 (en) | ||
| CA1188962A (en) | Removable head rotary tool for food processors | |
| EP0974432A1 (en) | Knife assembly | |
| US20030173435A1 (en) | Grating device | |
| CA1173332A (en) | Slicing cutter for a kitchen food-cutting appliance | |
| CN215777570U (en) | Continuous handheld agitator of cutting | |
| WO1996001148A1 (en) | Knife for a food slicing apparatus | |
| GB2201333A (en) | A combination egg slicer and piercer |